Thursday, January 14, 2016

EMERGING ANIMAL DISEASES Actions Needed to Better Position USDA to Address Future Risks Report to the Chairman, Committee on Energy and Commerce, House of Representatives December 2015 GAO-16-132

GAO

 

EMERGING ANIMAL DISEASES

 

Actions Needed to Better Position USDA to Address Future Risks

 

Report to the Chairman, Committee on Energy and Commerce, House of Representatives December 2015 GAO-16-132

 


 

What GAO Found

The U.S. Department of Agriculture (USDA) did not take regulatory action during the initial response to the outbreaks of Swine Enteric Coronavirus Diseases (SECD) beginning in May 2013, when an outbreak was first detected, because the agency did not believe then that such action was necessary. Instead, USDA initially supported swine industry-led efforts. Without regulatory action, such as requiring reporting of infected herds, USDA had limited information about the location of the first infected herds. In addition, USDA officials acknowledged that USDA did not follow its guidance that calls for conducting epidemiological investigations at the onset of outbreaks. As a result, USDA did not conduct timely investigations of the premises with the first infected herds, and the source of disease will likely never be determined. Further, USDA does not have a process to help ensure the guidance is followed. Without such a process, USDA lacks reasonable assurance that the guidance will be followed in the future.

In June 2014, amid concerns about the spread of SECD, USDA issued a federal order requiring reporting of newly infected herds. As a result, USDA has more accurate information about the number and location of such herds, and SECD have been confirmed in 28 U.S. states, as shown below. USDA also provided funding to help manage the diseases.

Confirmed Swine Enteric Coronavirus Diseases from June 5, 2014 to September 5, 2015



To help improve its future response to SECD and other emerging animal diseases—those not known to exist in the United States or which have changed to become a threat—USDA has drafted new guidance. However, it has not defined key aspects of its response such as roles and responsibilities, which according to its strategic plan, are key components of successful collaboration to protect animal health. Without a clearly defined response to such emerging animal diseases, response efforts could be slowed.

Why GAO Did This Study


Pork is consumed more than any other meat worldwide, and there are numerous other products made with ingredients from pigs, including medical products, such as insulin to treat diabetes. The United States is the world's third-largest producer of pork products. USDA estimated that U.S. pork exports in 2014 were valued at over $6 billion. Two lethal, highly contagious diseases in pigs emerged in the United States in 2013 and 2014, causing the deaths of millions of pigs. The two emerging diseases are collectively known as SECD.

GAO was asked to review federal actions to address SECD outbreaks. This report examines (1) the initial response to the SECD outbreaks, (2) USDA's subsequent actions to manage SECD, and (3) steps USDA has taken to improve its future response to emerging animal diseases. GAO analyzed USDA efforts to collect data about the number and location of infected herds; reviewed federal regulations and USDA animal disease response guidance; and interviewed USDA, state, and industry stakeholders involved in the response and control efforts.

What GAO Recommends


GAO recommends that USDA develop a process to help ensure its guidance for investigation of animal diseases is followed and clarify and document how it will respond to emerging diseases, including defining roles and responsibilities. USDA generally agreed with GAO's recommendations.

For more information, contact John Neumann at (202) 512-3841 or neumannj@gao.gov.

 


 

 

LOL!

 

time and time and time again, the USDA is a failed entity, just like the OIE. God protect the industry at all cost, including human and animal health.

 

how many GAO reports, year after year after year, from the GAO, addressing these same failures with TSE Prion disease, before something is done?

 

I was disgusted and very disturbed that in this report, Report to the Chairman, Committee on Energy and Commerce, House of Representatives December 2015 GAO-16-132, Transmissible Spongiform Encephalopathy TSE Prion was not even mentioned. very, very, disturbing. like it or not, the TSE prion, this dangerous pathogen has not gone anywhere. ...TSS

 

Research article

 

Transmission of sheep-bovine spongiform encephalopathy to pigs

 

Carlos Hedman1, Rosa Bolea1*, Belén Marín1, Fabien Cobrière4, Hicham Filali1, Francisco Vazquez2, José Luis Pitarch1, Antonia Vargas1, Cristina Acín1, Bernardino Moreno1, Martí Pumarola3, Olivier Andreoletti4 and Juan José Badiola1

 

* Corresponding author: Rosa Bolea rbolea@unizar.es

 

Author Affiliations

 

1 Veterinary Faculty, Centro de Investigación en Encefalopatías y Enfermedades Transmisibles Emergentes (CIEETE), Universidad de Zaragoza, Zaragoza, 50013, Spain

 

2 Veterinary Hospital, Universidad de Zaragoza, Zaragoza, 50013, Spain

 

3 Veterinary Faculty, Department of Animal Medicine and Surgery, Universitat Autònoma de Barcelona, Barcelona, 08193, Spain

 

4 UMR INRA ENVT 1225, Interactions Hôtes Agents Pathogènes, Ecole Nationale Vétérinaire de Toulouse, Toulouse, 31076, France

 

For all author emails, please log on.

 

Veterinary Research 2016, 47:14 doi:10.1186/s13567-015-0295-8

 

The electronic version of this article is the complete one and can be found online at: http://www.veterinaryresearch.org/content/47/1/14

 

Received: 15 May 2015 Accepted: 21 September 2015 Published: 7 January 2016

 

© 2016 Hedman et al.

 

Open Access

 

This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

 

Abstract

 

Experimental transmission of the bovine spongiform encephalopathy (BSE) agent has been successfully reported in pigs inoculated via three simultaneous distinct routes (intracerebral, intraperitoneal and intravenous). Sheep derived BSE (Sh-BSE) is transmitted more efficiently than the original cattle-BSE isolate in a transgenic mouse model expressing porcine prion protein. However, the neuropathology and distribution of Sh-BSE in pigs as natural hosts, and susceptibility to this agent, is unknown. In the present study, seven pigs were intracerebrally inoculated with Sh-BSE prions. One pig was euthanized for analysis in the preclinical disease stage. The remaining six pigs developed neurological signs and histopathology revealed severe spongiform changes accompanied by astrogliosis and microgliosis throughout the central nervous system. Intracellular and neuropil-associated pathological prion protein (PrP Sc ) deposition was consistently observed in different brain sections and corroborated by Western blot. PrP Sc was detected by immunohistochemistry and enzyme immunoassay in the following tissues in at least one animal: lymphoid tissues, peripheral nerves, gastrointestinal tract, skeletal muscle, adrenal gland and pancreas. PrP Sc deposition was revealed by immunohistochemistry alone in the retina, optic nerve and kidney. These results demonstrate the efficient transmission of Sh-BSE in pigs and show for the first time that in this species propagation of bovine PrP Sc in a wide range of peripheral tissues is possible. These results provide important insight into the distribution and detection of prions in non-ruminant animals.

 

Introduction Transmissible spongiform encephalopathies (TSE) are chronic neurodegenerative disorders that affect humans and animals and are associated with the accumulation of an abnormal isoform (PrP Sc ) of the cellular prion protein (PrP C ) in the central nervous system (CNS) [1]. TSE are characterized by spongiform changes in the grey matter accompanied by astrocytosis and microgliosis [2]–[4]. The new variant of Creutzfeldt-Jakob disease (nvCJD) in humans [5] has been linked with the consumption of bovine spongiform encephalopathy (BSE) contaminated meat or meat products during the BSE epidemic in the UK and elsewhere. Moreover, one BSE natural case in a goat in France [6] and another one in the UK [7], [8] have been reported. Sheep and goats can also be experimentally infected using homogenized brain from affected animals as inocula [9]–[11]. While BSE infection is largely restricted to the nervous system in cattle [12], [13], PrP Sc is widely distributed in the lymphoid tissues of sheep experimentally infected with BSE [10], [14], suggesting that infected sheep could constitute a secondary and more dangerous source of BSE infection for other species, including humans [15]–[17].

 

TSE has not been reported in natural conditions in pigs [18], and there is no evidence of BSE transmission between pigs fed with brain material from cattle [19]. However, despite the existence of a strong transmission barrier, signs of TSE have been reported in pigs challenged simultaneously with BSE-derived material via intraperitoneal, intravenous and intracerebral administration [20]–[22]. Those studies demonstrated pathological changes and PrP Sc deposition in the CNS, but reported no evidence of PrP Sc distribution in other organs. Given the possible lifting of the European Union’s ban on feeding pigs and poultry with animal meal, it is vital that TSE transmission be studied in supposedly resistant species, such as swine, that form part of the human food chain. Pigs are the source of a wide range of food products, and pork is one of the most widely eaten meats in the world. Blood is frequently collected during slaughter for blood sausage production and natural sausage casings are almost exclusively prepared from different parts of the alimentary tract of pigs. The use of pigs as graft donors is also a cause for concern, given a reported case of CJD type 1 in a recipient of a porcine dura-mater graft [23]. It has also been demonstrated that BSE experimentally passaged in sheep (Sh-BSE) homozygous for the A 136 R 154 Q 171 allele of ovine prion protein (PrP) exhibits altered pathobiological properties due to a decreased polymorphism barrier [24]. The virulence of Sh-BSE in transgenic mice expressing porcine [15] and human PrP [16], [25] is enhanced with respect to the original cattle BSE prion isolate.

 

This study is the first to describe the tissue distribution of PrP Sc in pigs experimentally infected with BSE previously passaged in sheep, as well as the clinical and neuropathological consequences.

 

snip...

 

Discussion This study was aimed at investigating the susceptibility and neuropathological features of pigs intracerebrally inoculated with the BSE agent after passage in sheep, as well as describing the PrP Sc distribution in peripheral tissues in this species.

 

In the present study, seven pigs were intracerebrally inoculated with 0.5 mL of 10% Sh-BSE homogenate. Except in one animal (P-7), which was euthanized for preclinical analysis, the transmission rate was 100%, with an incubation period range of 77–109 wpi. Two previous studies in which bovine BSE has been transmitted to pigs, reported 87.5% and 20% of rate attacks, with incubation period ranges of 74–163 and 148–175 wpi, respectively [19], [20]. Sh-BSE infected pigs show slightly shorter incubation periods. However, it is not possible to compare the incubation period of our inoculated pigs with respect to the incubation period found in the studies mentioned above, due to the lack of titration of the original inoculum. Moreover, the incubation period could also be modified in TSE due to the species barrier, which is modulated by specific polymorphisms of the PRNP gene and plays a key role in susceptibility to prion disease in other species such as sheep [35], [36], and goats [37]. Although some studies show that there are no differences in the sequence of the porcine PRNP gene [38]–[40], the possibility of changes in other regions of the gene or the involvement of other genes in the incubation periods of BSE in pigs should not be excluded. In addition, the restricted number of animals used does not allow comparing difference on rate attacks in previous studies with the present report. However, transmissible studies in porcine PRNP transgenic mice (Tgpo) has demonstrated that the Sh-BSE agent reached rate attack of 100% and lower survival time when compared to the original bovine BSE (19%) and other BSE isolates at first passage [15]. At two subsequent passages, the transmission rate of both Sh-BSE and bovine BSE was reported to be similar (100%) but always with a lower survival time of the Sh-BSE infected mice [15]. Recent studies have demonstrated an increase in the PrP-converting potency of Sh-BSE caused by decreases in polymorphism barriers [24] and other specific cellular factors [25], allowing Sh-BSE to be transmitted more efficiently than cattle BSE to other species [16], [17] including supposedly less susceptible hosts such as pigs [15]. The current study was in agreement with previous reports [20]–[22] involving intracerebral inoculation of BSE prions to pigs demonstrating that this species is susceptible to BSE. However, it is still unknown if pigs can succumb to BSE after oral exposure which is the most likely route of inoculation under natural conditions.

 

The clinical signs observed in the present study were similar to those described in BSE-infected pigs [20]. Animals initially showed progressive confusion, followed by motor deficits [19]. The behavioral and sensory changes were also consistent with those observed in cattle infected naturally [41] and experimentally with BSE [12]. The minimal neuropil vacuoles found in the control pig are in total agreement with previous studies [21] and apparently does not represent a clinical significant change [20]. The main pathological changes observed were neuropil spongiosis, intraneuronal vacuolation and PrP Sc deposition, all of which are characteristic of TSE [41]. The lesion distribution pattern resembled that described previously in experimentally BSE- infected pigs [21] and cattle [12]; the thalamus was the most affected area, followed by the cerebellar and cerebral cortices, with the mildest effect observed in the spinal cord. PrP Sc deposits were identified in the CNS of all clinically affected pigs. PrP Sc deposits were typically associated with lesions in the fourth and fifth layers of the cerebral cortex. Intracellular (ITNR, ITAS and ITMG) and particulate/coalescing type PrP Sc deposition were the most commonly observed patterns in the different CNS samples, in line with previous findings in sheep [29], [30] and pigs [21] experimentally infected with BSE. Similarities in the PrP Sc deposition types and distribution pattern could be explained by the high stability of the BSE agent reported for different breeds and different genotypes of the prion protein gene (PRNP) in sheep [30]. In addition, the porcine PRNP gene has been described to be very homogenous [38]–[40].

 

The glial reaction in all affected pigs was characterized by marked astrocytosis and microgliosis. Astrocytosis was diffusely distributed throughout the brain of affected pigs, perhaps caused by the accumulation of PrP Sc or by cytokines secreted from astroglial or microglial cells [42]. Microgliosis was present in the deeper layers of the gray matter in the cerebral cortex, which also showed vacuolation and PrP Sc deposition, in accordance with previous findings in mice [43]. The most extreme microglial activation was observed in the hippocampus of all affected pigs, as previously described for CJD [44]. Numerous astrocytic processes and reactive microglia have been described in pigs experimentally infected with BSE [45]. Our results suggest that astrogliosis and microgliosis are common neuropathological features of Sh-BSE infection in pigs, as described for TSE in other species [28], [43], [45]–[47].

 

Histopathological changes indicative of retinal degeneration were observed in all clinically affected pigs. This has not been previously described in pigs experimentally infected with BSE. Neuronal vacuolation in the GCL and disorganization in the plexiform and nuclear layers have been reported in both experimental [48] and natural scrapie infections in sheep [49] and goats [50], chronic wasting disease (CWD) in mule deer [51] and in CJD-infected mice [52]. IHC revealed higher levels of PrP Sc in the retina than in the optic nerve, where staining was less intense and more irregularly distributed, as described in both sCJD and nvCJD [53]. The presence of PrP Sc in the optic nerve and retina is consistent with the centrifugal spread of the agent from the brain, presumably via the optic nerve [52]. This may indicate the existence of other routes of PrP Sc migration to the retina (e.g., via the extracellular space [54], the ad-axonal route along the optic nerve, or both [55]). Other authors have suggested that the spread occurs from the subarachnoid space into the perineural space of the optic nerve, and from there to the epichoroidal and episcleral tissues of the eyeball [56]. Alternatively, the increased presence of PrP Sc in the retina more than in the optic nerve could be attributed to the higher presence of PrP c in the membranes of retinal neurons. Our detection of PrP Sc in different retinal layers is in accordance with previous observations in TSE in mice [52], feline spongiform encephalopathy (FSE) [57], scrapie [49], CWD [51], BSE [56] and in patients with sporadic and nvCJD [53].

 

Western blot revealed a characteristic 3-band pattern that clearly differed from the original inoculum, with a predominant monoclycosylated band. This finding is consistent with previous Western blot findings in BSE-infected pigs [58]. Our results reinforce the hypothesis that this particular signature is associated with the porcine PrP c properties described in Tgpo mice [15].

 

The IDEXX enzyme immunoassay, which is not validated for PrP sc in pigs, detected PrP Sc in samples that tested positive in other postmortem assays, but detected no PrP sc in negative control tissues. Analysis of peripheral tissues revealed widespread dissemination of PrP Sc in many organs other than the CNS. This finding suggests that unlike in cattle where BSE is confined mainly in the nervous system, in the pig, BSE prions can propagate in peripheral tissues as reported in sheep [59]–[61]. However, it is not possible to ascertain that the peripheral distribution of the agent is due to centrifugal dissemination from the brain through the nerves as it is also probable that during an ic challenge part of the inoculum enters into the blood circulation and can be disseminated to the periphery where it can propagate in target tissues [62].

 

PrP Sc deposition in brachial and sciatic nerves has also been described in cattle experimentally infected with L-type BSE [63] and in BSE-infected sheep [64].

 

Immunohistochemistry demonstrated the presence of PrP Sc in the lymphoreticular system of our Sh-BSE infected pigs. The assay revealed sporadic intracytoplasmic accumulation within the tingible body macrophages in some lymph nodes, findings that were subsequently corroborated by IDEXX, in good agreement with previous findings in sheep experimentally infected with BSE [64]. In contrast to our findings, previous studies reported no infectivity of lymphoid tissues in BSE-infected pigs [19]. No PrP Sc was detected in the spleen or GALT of our pigs, in line with previous studies of BSE-infected cattle [65] and FSE [57].

 

PrP Sc accumulation in the gastrointestinal tract of Sh-BSE infected pigs has not been described in similar experiments using this species. We observed PrP Sc deposition in the myenteric plexi without apparent morphological alterations of the enteric neurons, as seen in cattle experimentally infected with BSE [65]. This finding is indicative of a potential centrifugal spread of the Sh-BSE agent from the CNS via the vagus nerve to the peripheral nervous system, and may account for the large deposits of PrP Sc observed in the dorsal motor nucleus of the vagus nerve in the medulla oblongata.

 

We observed PrP Sc deposition in nerve fibers of the oculomotor muscle in two pigs. In cattle naturally infected with BSE [66], PrP Sc has been detected in intramuscular nerve fibers and muscle spindles. Although we found no PrP Sc in the oculomotor muscle of any other clinically affected pigs, positive labeling was observed in the oculomotor nuclei in the mesencephalon of all clinically affected pigs.

 

Pancreatic PrP Sc staining was observed in 5 pigs. Analysis of pancreatic nervous tissue has revealed PrP Sc deposition in the islets of Langerhans in natural scrapie [34]. In natural BSE [56], PrP Sc deposition has been documented in the nerve fibers of the adrenal gland. In agreement with previous findings in natural scrapie [34], one pig showed PrP Sc immunolabeling in the medullary region of the adrenal gland, associated with chromaffin cells, which are considered modified sympathetic postganglionic neurons. Similarly, the presence of PrP Sc within the epithelial tubular cells of the convoluted tubules and the collecting ducts in the kidney in one pig has been described in FSE [67], suggesting possible prionuria.

 

In addition to the large amount of PrP Sc observed in the CNS of Sh-BSE-infected pigs, PrP Sc was widely distributed in the peripheral tissues, although the extent of this distribution varied between animals. This variation may be related to the distribution of PrP Sc within individual organs, the exact anatomical location points at which samples were collected, and the detection limits of the techniques used. More sensitive studies, such as in vitro protein misfolding cyclic amplification (PMCA) and mouse bioassays will be needed to clarify the distribution and infectivity of PrP Sc in peripheral tissues of Sh-BSE infected pigs. These assays will most likely indicate a higher number of PrP Sc -positive peripheral organs.

 

Comparison with previous studies of cattle-BSE in pigs revealed that the incubation period of Sh-BSE in our pigs was generally shorter [20], [21] and that PrP Sc was present in more peripheral tissue types [19]. We believe that these differences may be due to a modification in the pathogenicity of the cattle-BSE agent caused by its prior passage in sheep, as previously described in TgPo mice [15]. However, studies of natural routes of transmission (e.g., oral) will be required to determine the real susceptibility of pigs to the Sh-BSE agent.

 


 

Saturday, January 9, 2016

 

Transmission of sheep-bovine spongiform encephalopathy to pigs

 

Research article

 


 

Thursday, February 19, 2015

 

Inspections Circumvented for Condemned Cows STATEMENT OF THE HONORABLE PHYLLIS K. FONG INSPECTOR GENERAL

 


 

Evidence That Transmissible Mink Encephalopathy Results from Feeding Infected Cattle

 

Over the next 8-10 weeks, approximately 40% of all the adult mink on the farm died from TME.

 

snip...

 

The rancher was a ''dead stock'' feeder using mostly (>95%) downer or dead dairy cattle...

 


 

In Confidence - Perceptions of unconventional slow virus diseases of animals in the USA - APRIL-MAY 1989 - G A H Wells

 

3. Prof. A. Robertson gave a brief account of BSE. The US approach was to accord it a very low profile indeed. Dr. A Thiermann showed the picture in the ''Independent'' with cattle being incinerated and thought this was a fanatical incident to be avoided in the US at all costs. ...

 


 

snip...see full text ;

 

Thursday, October 22, 2015

 

Former Ag Secretary Ann Veneman talks women in agriculture and we talk mad cow disease USDA and what really happened

 


 

Comments on technical aspects of the risk assessment were then submitted to FSIS.

 

Comments were received from Food and Water Watch, Food Animal Concerns Trust (FACT), Farm Sanctuary, R-CALF USA, Linda A Detwiler, and Terry S. Singeltary.

 

This document provides itemized replies to the public comments received on the 2005 updated Harvard BSE risk assessment. Please bear the following points in mind:

 


 

Owens, Julie

 

From: Terry S. Singeltary Sr. [flounder9@verizon.net]

 

Sent: Monday, July 24, 2006 1:09 PM

 

To: FSIS RegulationsComments

 

Subject: [Docket No. FSIS-2006-0011] FSIS Harvard Risk Assessment of Bovine Spongiform Encephalopathy (BSE)

 

Page 1 of 98

 


 

FSIS, USDA, REPLY TO SINGELTARY

 


 

Singeltary to APHIS FDA USDA et al ;

 


 


 

To: agsec@usda.gov

Cc: john.clifford@aphis.usda.gov; usaha@usaha.org; jmeng@cpfbeef.com;LAVET22@aol.com Phyllis.Fong@usda.gov

Sent: Tuesday, May 29, 2007 2:07 PM

Subject: USDA VS CREEKSTONE BSE/BASE/TSE TESTING Civil Action No. 06-0544 (JR) May 27, 2007

Honorable Michael Johanns Secretary of Agriculture U.S. Department of Agriculture Room 200 Jamie Whitten Federal Building Washington, D.C. 20250 CC Honorable Judge James Robertson U.S. District Court 333 Constitution Ave. North West Washington, D. C. 20001 Subject: Request to let the Creekstone vs. USDA court decision stand.

Ref: Letter from United States Animal Health Association, dated May 22, 2007

Dear Mr. Secretary et al : I am requesting that you allow the court decision in the Creekstone vs. USDA to stand so that Creekstone may begin testing the beef they process for BSE and or BASE and or any other TSE phenotype there of. WE must let them test since the USDA et al refuse to do so properly. This is not to say that there should be no strict TSE testing protocols. IF testing is to take place privately, there must be strict TSE testing protocol to assure the most up to date, sensitive, and validated tests are used, and used properly. These tests must be announced to the public in a timely manner at every step of the way, validated and confirmed by the federal government, Weybridge, and an independent third party consumer organization and there TSE expert of choice, in my opinion. My mother died from a exceedingly rare strain of sporadic CJD i.e. the Heidenhain Variant of CJD. My neighbors mother also lost his mother to a form of sporadic CJD exactly one year previously from the day my mother died. BOTH cases were confirmed by autopsy. There is new data out about the BASE atypical BSE, which pathologically is more related to a phenotype of sporadic CJD, than the nvCJD in humans from the UK. To continue to ignore these scientific findings with the old UKBSEnvCJD only theory is not justified by science anymore. It is not logical. The logic behind the reasons not to let test for TSE in the USA because of The Virus Serum Toxin Act of 1913 and or because of the recent letter from the USAHA (see letter below) bring forth, are totally bogus. NO one could screw the testing up any worse than the USDA has done in the past. The OIG and the GAO has shown this time and time again. The 2004 Enhanced BSE surveillance program where some 275,000+ cattle were tested for BSE was proven to be terribly flawed from the beginning. This documented time and time again. Even Paul Brown, known and respected TSE scientist, former TSE expert for the CDC said he had ''absolutely no confidence in USDA tests before one year ago'', and this was on March 15, 2006 ; "The fact the Texas cow showed up fairly clearly implied the existence of other undetected cases," Dr. Paul Brown, former medical director of the National Institutes of Health's Laboratory for Central Nervous System Studies and an expert on mad cow-like diseases, told United Press International. "The question was, 'How many?' and we still can't answer that." Brown, who is preparing a scientific paper based on the latest two mad cow cases to estimate the maximum number of infected cows that occurred in the United States, said he has "absolutely no confidence in USDA tests before one year ago" because of the agency's reluctance to retest the Texas cow that initially tested positive. USDA officials finally retested the cow and confirmed it was infected seven months later, but only at the insistence of the agency's inspector general. "Everything they did on the Texas cow makes everything USDA did before 2005 suspect," Brown said. ...

snip...end

http://www.upi.com/ConsumerHealthDaily/view.php?StoryID=20060315-055557-1284r

CDC - Bovine Spongiform Encephalopathy and Variant Creutzfeldt ... Dr. Paul Brown is Senior Research Scientist in the Laboratory of Central Nervous System ... Address for correspondence: Paul Brown, Building 36, Room 4A-05, ...

http://www.cdc.gov/ncidod/eid/vol7no1/brown.htm

PAUL BROWN COMMENT TO ME ON THIS ISSUE

Tuesday, September 12, 2006 11:10 AM "

Actually, Terry, I have been critical of the USDA handling of the mad cow issue for some years, and with Linda Detwiler and others sent lengthy detailed critiques and recommendations to both the USDA and the Canadian Food Agency."

OR, what the Honorable Phyllis Fong of the OIG found ;

Audit Report Animal and Plant Health Inspection Service Bovine Spongiform Encephalopathy (BSE) Surveillance Program ­ Phase II and Food Safety and Inspection Service Controls Over BSE Sampling, Specified Risk Materials, and Advanced Meat Recovery Products - Phase III Report No. 50601-10-KC January 2006 Finding 2 Inherent Challenges in Identifying and Testing High-Risk Cattle Still Remain http://www.usda.gov/oig/webdocs/50601-10-KC.pdf

Mr. Johanns, The August 4, 1997

FDA BSE ruminant to ruminant feed ban was nothing more than ink on paper.

In 2007 alone, 10 MILLION plus pounds of banned blood laced MBM has already gone out into commerce for the feeding of banned product to cattle. yes, were still feeding cows banned BSE/BASE product in 2007, almost 10 years after the voluntary ban was put in place.

guess what, it aint working.

YOU and this Administration have failed terribly in protecting not only the consumer, but your precious commodity that you speak so highly of i.e. the beef industry. In your continued efforts to cover up the real mad cow problem in the USA, you have in fact only amplified it and continued it's spread, and in doing so, you have needlessly exposed millions to the TSE agent, from many different proven routes and sources. The only saving grace you have is the incubation period has been on your side. It will catch up. When it does, when the people finally figure all this out, when some of the millions you have needlessly exposed to this agent become clinical in the future, rest assured I will stand in line to see that you and your administration are convicted for murder. What you and this administration have done over the past 8 years is criminal, in my opinion. I have watched not only you, but the Bush administration thumb there nose to science for almost 8 years, all to protect the beef industry. The science was there, but you chose to ignore it, and even manipulated science with the bogus BSE MRR policy, all the while your were implementing that, you were covering up another mad cow in Texas.

But thanks to the Honorable Phyllis Fong of the OIG, and an act of Congress, that mad cow was finally proven positive, unlike the other stumbling and staggering mad cow that was rendered without any test at all in Texas, but by then you had succeeded in the BSE MRR policy, the legal trading of all strains of TSE globally. You and this administration have done the same thing the UK did when they poisoned the globe with there exporting of BSE, except you made it legal now with the BSE MRR policy, and now we are dealing with BASE, a strain that is more virulent to humans. what happens when it mutates again?

When cwd deer and elk and there different phenotypes have all been rendered into feed, along with scrapie infected sheep in the USA, and a few TME to top that off, it will be a most interesting recipe will it not, and an interesting case study for humans for decades to come. sadly though, with the recent pet food scandal, and the deaths there of, we have learned a few things. one, that the elderly are expendable, but cats, dogs, and adolescents are not. and that the problem of our feeding of food producing animals has been tainted for decades. and with the melamine scandal, as with the mad cow feed scandal, it's the same old song and dance by you and the Bush administration, everything is o.k., will not hurt you, cover-up and protect the industry at all cost, and this will be another part of your sad legacy in History Sir.

To not allow BSE/TSE testing in the USA, testing that will find, only proves our point, you have and will continue to cover up the real mad cow problem in the USA. and the world knows this. ...

Terry S. Singeltary Sr. P.O. Box 42 Bacliff, Texas USA 77518

UNITED STATES ANIMAL HEALTH ASSOCIATION 8100 Three Chopt Road, Suite 203 P. O. BOX K227 RICHMOND, VIRGINIA 23288 804- 285-3210 FAX 804-285-3367 E-Mail: usaha@usaha.org Web Site: www.usaha.org May 22, 2007 Honorable Michael Johanns Secretary of Agriculture U.S. Department of Agriculture Room 200 Jamie Whitten Federal Building Washington, D.C. 20250

Dear Mr. Secretary: The United States Animal Health Association (USAHA), wishes to express its encouragement to you and the Department of Agriculture to appeal the litigation surrounding private testing for Bovine Spongiform Encephalopathy. We hope you will strongly consider this as you work with the Office of General Counsel on this suit. To support this appeal, we offer that this sets a detrimental precedence on USDA's ability to regulate disease and testing processes in animal agriculture. As we appreciate the entrepreneurial spirit of Creekstone, the larger scale implications could lead to devastating impacts for food animal production in this country as itrelates to animal health. We do feel that private testing could hamper animal health officials' ability to locate disease occurrences, and exercise proper practices to trace, control and eliminate them. As you are aware, there are a number of factors that raise concern among animal health leaders and diagnosticians. We encourage you to thoroughly consider those upon your decision to appeal. We do recognize this is now a matter of the courts, and trust that our ability to safeguard animal health is not compromised as a result of this litigation. Please let us know if there is any further support we can provide.

Sincerely, Lee M. Myers President, U.S. Animal Health Association Cc: Dr. John Clifford

===============================

USA MAD COW STRAIN MORE VIRULENT TO HUMANS THAN UK STRAIN 18 January 2007 - Draft minutes of the SEAC 95 meeting (426 KB) held on 7 December 2006 are now available.

snip...

64. A member noted that at the recent Neuroprion meeting, a study was presented showing that in transgenic mice BSE passaged in sheep may be more virulent and infectious to a wider range of species than bovine derived BSE. Other work presented suggested that BSE and bovine amyloidotic spongiform encephalopathy (BASE) MAY BE RELATED. A mutation had been identified in the prion protein gene in an AMERICAN BASE CASE THAT WAS SIMILAR IN NATURE TO A MUTATION FOUND IN CASES OF SPORADIC CJD.

snip...

http://www.seac.gov.uk/minutes/95.pdf

3:30 Transmission of the Italian Atypical BSE (BASE) in Humanized Mouse Models Qingzhong Kong, Ph.D., Assistant Professor, Pathology, Case Western Reserve University Bovine Amyloid Spongiform Encephalopathy (BASE) is an atypical BSE strain discovered recently in Italy, and similar or different atypical BSE cases were also reported in other countries. The infectivity and phenotypes of these atypical BSE strains in humans are unknown. In collaboration with Pierluigi Gambetti, as well as Maria Caramelli and her co-workers, we have inoculated transgenic mice expressing human prion protein with brain homogenates from BASE or BSE infected cattle. Our data shows that about half of the BASE-inoculated mice became infected with an average incubation time of about 19 months; in contrast, none of the BSE-inoculated mice appear to be infected after more than 2 years. ***These results indicate that BASE is transmissible to humans and suggest that BASE is more virulent than classical BSE in humans.***

6:30 Close of Day One

http://www.healthtech.com/2007/tse/day1.asp

 

IN A NUT SHELL ;

 

(Adopted by the International Committee of the OIE on 23 May 2006)

 

11. Information published by the OIE is derived from appropriate declarations made by the official Veterinary Services of Member Countries. The OIE is not responsible for inaccurate publication of country disease status based on inaccurate information or changes in epidemiological status or other significant events that were not promptly reported to then Central Bureau............

 


 

Audit Report Animal and Plant Health Inspection Service Bovine Spongiform Encephalopathy (BSE) Surveillance Program ­ Phase II and Food Safety and Inspection Service

 

Controls Over BSE Sampling, Specified Risk Materials, and Advanced Meat Recovery Products - Phase III

 

Report No. 50601-10-KC January 2006

 

Finding 2 Inherent Challenges in Identifying and Testing High-Risk Cattle Still Remain

 


 

Report to Congressional Requesters: February 2005: Mad Cow Disease:

 

FDA's Management of the Feed Ban Has Improved, but Oversight Weaknesses Continue to Limit Program Effectiveness:

 


 


 


 

January 2002 MAD COW DISEASE Improvements in the Animal Feed Ban and Other Regulatory Areas Would Strengthen U.S. Prevention Efforts GAO-02-183

 


 

February 2005 MAD COW DISEASE

 

FDA’s Management of

 

the Feed Ban Has

 

Improved, but

 

Oversight Weaknesses

 

Continue to Limit

 

Program Effectiveness

 

GAO-05-101

 

What GAO Found

 

United States Government Accountability Office

 

Why GAO Did This Study

 

Highlights

 

Accountability Integrity Reliability

 

www.gao.gov/cgi-bin/getrpt?GAO-05-101.

 

To view the full product, including the scope

 

and methodology, click on the link above.

 

For more information, contact Robert A.

 

Robinson at (202) 512-3841 or

 

robinsonr@gao.gov.

 

Highlights of GAO-05-101, a report to

 

congressional requesters

 

February 2005

 

MAD COW DISEASE

 

FDA’s Management of the Feed Ban Has

 

Improved, but Oversight Weaknesses

 

Continue to Limit Program Effectiveness

 

FDA has made needed improvements to its management and oversight of the

 

feed-ban rule in response to GAO’s 2002 report, but program weaknesses

 

continue to limit the effectiveness of the ban and place U.S. cattle at risk of

 

spreading BSE. Improvements made include FDA establishing a uniform

 

method of conducting compliance inspections and training FDA inspectors,

 

as well as state inspectors who carry out inspections under agreements with

 

FDA, on the new method. FDA also implemented new data-entry procedures

 

that are designed to more reliably track feed-ban inspection results.

 

Consequently, FDA has a better management tool for overseeing compliance

 

with the feed-ban rule and a data system that better conforms to standard

 

database management practices. However, various program weaknesses

 

continue to undermine the nation’s firewall against BSE. For example:

 

• FDA acknowledges that there are more feed manufacturers and

 

transporters, on-farm mixers, and other feed industry businesses that are

 

subject to the feed ban than the approximately 14,800 firms inspected to

 

date; however, it has no uniform approach for identifying additional

 

firms.

 

• FDA has not reinspected approximately 2,800, or about 19 percent, of

 

those businesses, in 5 or more years; several hundred are potentially

 

high risk. FDA does not know whether those businesses now use

 

prohibited material in their feed.

 

• FDA’s feed-ban inspection guidance does not include instructions to

 

routinely sample cattle feed to test for potentially prohibited material as

 

part of the compliance inspection. Instead, it includes guidance for

 

inspectors to visually examine facilities and equipment and review

 

invoices and other documents.

 

• Feed intended for export is not required to carry a caution label "Do not

 

feed to cattle or other ruminants," when the label would be required if

 

the feed were sold domestically. Without that statement, feed containing

 

prohibited material could be inadvertently or intentionally diverted back

 

to U.S. cattle or given to foreign cattle.

 

• FDA has not always alerted USDA and states when it learned that cattle

 

may have been given feed that contained prohibited material. This lapse

 

has been occurring even though FDA’s guidance calls for such

 

communication.

 

• Although research suggests that cattle can get BSE from ingesting even a

 

small amount of infected material, inspectors do not routinely inspect or

 

review cleanout procedures for vehicles used to haul cattle feed.

 

More than 5 million cattle across

 

Europe have been killed to stop the

 

spread of bovine spongiform

 

encephalopathy (BSE), commonly

 

called mad cow disease. Found in

 

26 countries, including Canada and

 

the United States, BSE is believed

 

to spread through animal feed that

 

contains protein from BSE-infected

 

animals. Consuming meat from

 

infected cattle has also been linked

 

to the deaths of about 150 people

 

worldwide. In 1997, the Food and

 

Drug Administration (FDA) issued

 

a feed-ban rule prohibiting certain

 

animal protein (prohibited

 

material) in feed for cattle and

 

other ruminant animals. FDA and

 

38 states inspect firms in the feed

 

industry to enforce this critical

 

firewall against BSE. In 2002, GAO

 

reported a number of weaknesses

 

in FDA’s enforcement of the feed

 

ban and recommended corrective

 

actions. This report looks at FDA’s

 

efforts since 2002 to ensure

 

industry compliance with the feed

 

ban and protect U.S. cattle.

 

What GAO Recommends

 

GAO recommends FDA, among

 

other things, develop procedures

 

for finding additional firms subject

 

to the feed-ban and using tests to

 

augment inspections. FDA said the

 

study was thorough but disagreed

 

on four of nine recommendations.

 

GAO continues to believe that,

 

given the discovery of BSE in North

 

America and the oversight gaps

 

described in the report, the

 

recommended actions are needed

 

to protect U.S. cattle from BSE.

 

snip...full text ;

 


 

What GAO Found United States Government Accountability Office Why GAO Did This Study Highlights Accountability Integrity Reliability www.gao.gov/cgi-bin/getrpt?GAO-05-549T. To view the full product, including the scope and methodology, click on the link above. For more information, contact Robert A. Robinson at (202) 512-3841 or robinsonr@gao.gov. Highlights of GAO-05-549T, a testimony to the Subcommittee on the Federal Workforce and Agency Organization, Committee on Government Reform, House of Representatives

 

May 17, 2005 OVERSEEING THE U.S. FOOD SUPPLY

 

Steps Should Be Taken to Reduce Overlapping Federal Inspections and Related Activities

 

USDA and FDA have primary responsibility for overseeing the safety of the U.S. food supply; the Environmental Protection Agency (EPA) and the National Marine Fisheries Service also play key roles. In carrying out their responsibilities, these agencies spend resources on a number of overlapping activities, particularly inspection/enforcement, training, research, and rulemaking, for both domestic and imported food. For example, both USDA and FDA conduct similar inspections at 1,451 dual jurisdiction establishments—facilities that produce foods regulated by both agencies, as shown below. To better manage the fragmented federal system, these agencies have entered into at least 71 interagency agreements—about a third of them highlight the need to reduce duplication and overlap or make efficient and effective use of resources. The agencies do not take full advantage of these agreements because they do not have adequate mechanisms for tracking them and, in some cases, do not fully implement them. Selected industry associations, food companies, consumer groups, and academic experts disagree on the extent of overlap, on how best to improve the federal system, and on whether to consolidate food safety-related functions into a single agency. However, they agreed that laws and regulations should be modernized to more effectively and efficiently control food safety hazards. As GAO recently reported, Canada, Denmark, Ireland, Germany, the Netherlands, New Zealand, and the United Kingdom also had fragmented systems. These countries took steps to consolidate food safety functions— each country modified its food safety laws and established a single agency to lead food safety management or enforcement of food safety legislation.

 

GAO has issued many reports documenting problems resulting from the fragmented nature of the federal food safety system—a system based on 30 primary laws. This testimony summarizes GAO’s most recent work on the federal system for ensuring the safety of the U.S. food supply. It provides (1) an overview of food safety functions, (2) examples of overlapping and duplicative inspection and training activities, and (3) observations on efforts to better manage the system through interagency agreements. It also provides information on other countries’ experiences with consolidation and the views of key stakeholders on possible consolidation in the United States. What GAO Recommends In the past, GAO has recommended that the Congress consider fundamental restructuring to ensure the effective use of scarce government resources. In the report that the Subcommittee is releasing today, GAO recognizes that, short of reorganization, other improvements can be made to help reduce overlap and duplication and to leverage existing resources. For example, the Food and Drug Administration (FDA) could use existing authority to commission U.S. Department of Agriculture (USDA) inspections of dual jurisdiction establishments.

 


 

snip...full text below

 


 

-------- Original Message --------

 

Subject: GAO September 2004 EMERGING INFECTIOUS DISEASE Review of State and Federal Disease Surveillance Efforts GAO-04-877

 

Date: Mon, 01 Nov 2004 14:24:33 –0600

 

From: "Terry S. Singeltary Sr."

 

To: Bovine Spongiform Encephalopathy , NelliganJ@gao.gov, JarmonG@gao.gov

 

CC: cjdvoice@yahoogroups.com

 

Report to the Chairman, Permanent Subcommittee on Investigations, Committee on Governmental Affairs, U.S. Senate United States Government Accountability Office GAO September 2004 EMERGING INFECTIOUS DISEASES Review of State and Federal Disease Surveillance Efforts GAO-04-877

 

snip...

 

Description of U.S. List of Nationally Notifiable Infectious Diseases, 2004 (no human TSE was listed...TSS)

 

snip...

 

Selected Worldwide Emerging Infectious Diseases

 

Variant Creutzfeldt-Jakob disease (vCJD) is a rare, degenerative, fatal brain disorder in humans. It is believed that vCJD is contracted through the consumption of cattle products contaminated with the agent of bovine spongiform encephalopathy (BSE) or mad cow disease a slowly progressive, degenerative, fatal disease affecting the central nervous system of adult cattle. There is no known treatment of vCJD.

 

snip...end

 

1. Emerging Infectious Diseases: Review of State and Federal Disease Surveillance Efforts. GAO-04-877, September 30. http://www.gao.gov/cgi-bin/getrpt?GAO-04-877

 

www.gao.gov/cgi-bin/getrpt?GAO-04-877.

 

To view the full product, including the scope and methodology, click on the link above. For more information, contact Majorie Kanof at (202) 512-7119. Highlights of GAO-04-877, a report to the Chairman, Permanent Subcommittee on Investigations, Committee on Governmental Affairs, U.S. Senate September 2004 EMERGING INFECTIOUS DISEASES Review of State and Federal Disease Surveillance Efforts The threat posed by infectious diseases has grown. New diseases, unknown in the United States just a decade ago, such as West Nile virus and severe acute respiratory syndrome (SARS), have emerged. To detect cases of infectious diseases, especially before they develop into widespread outbreaks, local, state, and federal public health officials as well as international organizations conduct disease surveillance. Disease surveillance is the process of reporting, collecting, analyzing, and exchanging information related to cases of infectious diseases. In this report GAO was asked to examine disease surveillance efforts in the United States. Specifically, GAO described (1) how state and federal public health officials conduct surveillance for infectious diseases and (2) initiatives intended to enhance disease surveillance. GAO reviewed documents, such as policy manuals and reports related to disease surveillance, and interviewed officials from selected federal departments and agencies, including the Departments of Defense (DOD), Agriculture (USDA), and Homeland Security (DHS) as well as the Food and Drug Administration (FDA), and the Centers for Disease Control and Prevention (CDC). GAO conducted structured interviews of state public health officials from 11 states. Surveillance for infectious diseases in the United States comprises a variety of efforts at the state and federal levels. At the state level, state health departments collect and analyze data on cases of infectious diseases. These data are required to be reported by health care providers and others to the state. State public health departments verify reported cases of diseases, monitor disease incidence, identify possible outbreaks within their state, and report this information to CDC. At the federal level, agencies and departments collect and analyze disease surveillance data and maintain disease surveillance systems. For example, CDC uses the reports of diseases from the states to monitor national health trends, formulate and implement prevention strategies, and evaluate state and federal disease prevention efforts. FDA analyzes information on outbreaks of infectious diseases that originate from foods that the agency regulates. Some federal agencies and departments also fund and operate their own disease surveillance systems and laboratory networks and have several means of sharing surveillance information with local, state, and international public health partners. State and federal public health officials have implemented a number of initiatives intended to enhance disease surveillance, but challenges remain. For example, officials have implemented and expanded syndromic surveillance systems, which monitor the frequency and distribution of health-related symptoms among people within a specific geographic area. Although syndromic surveillance systems are used by federal agencies and departments and in all of the states whose officials GAO interviewed, concerns have been raised about this approach to surveillance. Specifically, syndromic surveillance systems are relatively costly to maintain compared to other types of surveillance and are still largely untested. Public health officials are also implementing initiatives designed to enhance public health communications and disease reporting. For example, CDC is working to increase the number of participants using its public health communication systems. In addition, state public health departments and CDC are implementing an initiative designed to make electronic disease reporting more timely, accurate, and complete. However, the implementation of this initiative is incomplete. Finally, federal public health officials have enhanced federal coordination on disease surveillance and expanded training programs for epidemiologists and other public health experts. In commenting on a draft of this report, the Department of Health and Human Services (HHS) said the report captures many important issues in surveillance. HHS also provided suggestions to clarify the discussion.

 


 

Greetings GAO,

 

I am deeply disturbed by the fact that not only the USDA/FDA/CDC/APHIS, BUT most dirturbing the GAO refuse to acknowledge ALL Human/Animal TSEs. With not only BSE in cattle, you now have BASE in cattle, showing up in more and more countries and we now have another atypical TSE, not sheep now, but a GOAT, that is indistinguishable from BSE. THERE are atypical TSEs showing up in humans, being documented as sporadic CJD, while we have a new TSE in CATTLE 'BASE' and the title of the study speaks for itself;

 

Medical Sciences

 

Identification of a second bovine amyloidotic spongiform encephalopathy: Molecular similarities with sporadic Creutzfeldt-Jakob disease

 


 

TO pour more gas on the fire we have other atyical TSEs that are going ignored, and this is what got us in this mess. Please do not continue to make the same mistakes. sporadic CJD does have routes and sources. THIS is why all Human/Animal TSEs must be made reportable across the board. THERE is no other answer...

 

How can you have this ;

 

> A notifiable disease is an infectious disease for which regular, > frequent, and timely information on individual cases is considered > necessary for the prevention and control of the disease...

 

THEN have this;

 

> The diseases that must be reported vary by state...

 

AND at the same time stop the spread of human/animal TSEs across the board?

 

answer: you can't, and the agent continues to spread.

 

you must not continue to ignore the obvious; ...snip...end

 

OIG same old song and dance until 2008 ;

 

Safety and Security: Increasingly we have all come to realize that the world

 

presents greater threats to our well being as individuals and a citizenry in terms

 

of health and resources. Challenges such as those related to maintaining a safe

 

food supply and protecting America’s plants and animals from invasive pests are

 

critical. Thus, we have established as a strategic goal

 

"Support USDA in the

 

enhancement of safety and security measures to protect USDA and

 

agricultural resources and in related public health concerns." ...

 


 

•GAO-05-51 October 2004 FOOD SAFETY (over 500 customers receiving potentially BSE contaminated beef)

 

-------- Original Message --------

 

Subject: USDA and FDA Need to Better Ensure Prompt and Complete Recalls of Potentially Unsafe Food GAO-05-51

 

Date: Wed, 20 Oct 2004 13:40:01 -0500 From: "Terry S. Singeltary Sr."

 

To: Bovine Spongiform Encephalopathy CC: cjdvoice@yahoogroups.com

 

October 2004 FOOD SAFETY USDA and FDA Need to Better Ensure Prompt and Complete Recalls of Potentially Unsafe Food

 

snip...

 

Page 38 GAO-05-51 Food Recall Programs

 

To examine the voluntary recall of beef products associated with the December 2003 discovery of an animal infected with BSE, we analyzed the distribution lists USDA collected from companies and the verification checks it conducted to develop a diagram illustrating the location and volume of recalled beef that reached different levels of the distribution chain. We compared the distribution lists and verification checks to identify how many customers listed on the distribution lists did not receive the recalled beef and the number of customers not listed on distribution lists that received the recalled beef. We interviewed USDA and FDA staff involved with the recall to understand the timing of recall actions and the challenges encountered during the recall.

 

To develop information on the 2002 recall of ground beef by a ConAgra plant in Greeley, Colorado, we reviewed USDA’s recall file and other documents on the recall. We also met with the department’s Office of Inspector General and reviewed the Inspector General’s September 2003 report.1

 

We conducted our review from May 2003 through August 2004 in accordance with generally accepted government auditing standards. 1U.S. Department of Agriculture, Office of Inspector General, Great Plains Region Audit Report: Food Safety and Inspection Service: Oversight of Production Process and Recall at ConAgra Plant (Establishment 969), Report No. 24601-2-KC (September 2003).

 

Page 39 GAO-05-51 Food Recall Programs

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Appendix II

 

On December 23, 2003, USDA announced that a cow in the state of Washington had tested positive for BSE—commonly referred to as mad cow disease. This appendix describes the actions USDA took to recall the meat and the actions FDA took with respect to FDA-regulated products, such as animal feed and cosmetics, made from rendered parts of the animal.

 

Beef Recall Was Triggered by a BSE Positive Sample from One Cow On December 9, 2003, the recalling company slaughtered 23 cows. USDA, in accordance with its BSE surveillance policy at the time, took a sample of 1 cow that was unable to walk, although the condition of the tested cow is now disputed. USDA did not process the sample in its Ames, Iowa National Veterinary Services Laboratory in an expedited manner because the cow did not show symptoms of neurological disorder. USDA test results indicated a presumptive positive for BSE on December 23, 2003. Recall Begun in December 2003 Was Completed in March 2004

 

On December 23, 2003, after learning about the positive BSE test, USDA headquarters notified the Boulder District Office, which is the field office with jurisdiction over the recalling firm. The Boulder District began gathering information about the recalling company’s product distribution. Field staff telephoned the recalling company and were on-site at 7:00 p.m. The Boulder District initially thought 3 days of the recalling company’s production would have to be recalled, but further examination of facility cleanup and shipping records revealed that it was only necessary to recall 1 day of production. USDA recall staff convened at 9:15 p.m. and discussed the science related to BSE and whether the recalling company’s cleanup practices were sufficient to limit the recall to 1 day of production. Following USDA’s determination to conduct a Class II recall—that is, the beef posed a remote possibility of adverse health consequences—USDA contacted the recalling company to discuss recall details and the press release. The press release and Recall Notification Report were released that evening.

 

On December 24, 2003, USDA’s Food Safety and Inspection Service (FSIS) sent inspectors to the recalling company’s primary customers to obtain secondary customer distribution lists and product shipping records. USDA conducted 100 percent verification checks for this recall—it contacted every customer that received the recalled meat. This level of verification checks is well above the percentage of checks conducted by USDA district offices for the Class I recalls we reviewed.

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE

 

Page 40 GAO-05-51 Food Recall Programs

 

On December 26, 2003, USDA began checking the primary and secondary customers of the recalling company that it was aware of, although the entire product distribution chain was unknown. During the checks, USDA tried to determine if the product was further distributed, and it used verification checks to acquire distribution lists for secondary and tertiary customers of the recalling company.

 

Verification checks continued until February 25, 2004. Three USDA districts conducted these verification checks. The Boulder District coordinated the checks and assigned checks to the Minneapolis District Office for customers in Montana and to the Alameda District Office for customers in California. USDA required that 100 percent of the primary checks, 50 percent of the secondary checks, and 20 percent of the tertiary checks be conducted on-site. According to USDA, more than 50 percent of the secondary checks were actually conducted on-site. FDA officials helped conduct verification checks. According to USDA, the recall took a long time to complete because USDA contacted each customer at least twice. USDA first contacted each customer to conduct the check and again to verify product disposition.

 

On February 25, 2004, the Boulder District concluded that the recall was conducted in an effective manner. On March 1, 2004, USDA’s Recall Management Division recommended that the agency terminate the recall, and USDA sent a letter to the recalling company to document that USDA considered the recall to be complete.

 

Recall Was Complicated by Inaccurate Distribution Lists and Mixing of Potentially Contaminated and Noncontaminated Beef

 

USDA used distribution lists and shipping records to piece together where the recalled product was distributed. According to USDA, one of the recalling company’s three primary customers was slow in providing its customer list. USDA could not begin verification activities for that primary customer without this list. Furthermore, some customers of the recalling company provided USDA with imprecise lists that did not specify which customers received the recalled product. As a consequence, USDA could not quickly determine the scope of product distribution and had to take time conducting extra research using shipping invoices to determine which specific customers received the product.

 

Even when USDA determined the amount and location of beef, the agency still had trouble tracking the beef in certain types of establishments, such as grocery store distributors. USDA could not easily track the individual stores where those distributors sent the beef because of product mixing

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 41 GAO-05-51 Food Recall Programs

 

and the distributors’ record-keeping practices. Generally, distributors purchase beef from multiple sources, mix it in their inventory, and lose track of the source of the beef they send to the stores that they supply. To deal with this problem, USDA first identified the dates when recalled beef was shipped to the distributors and then asked for a list of the stores that were shipped any beef after those dates. Consequently, some stores were included in the recall that may never have received recalled beef.

 

The recall was also complicated by repeated mixing of recalled beef with nonrecalled beef, thereby increasing the amount of meat involved in the recall. The recalling company slaughtered 23 cows on December 9, 2003, and shipped those and 20 other carcasses to a primary customer on December 10, 2003. The recalling company’s carcasses were tagged to identify the slaughter date and the individual cow. The primary customer removed the identification tags and mixed the 23 recalled carcasses with the 20 nonrecalled carcasses. Because the carcasses could not be distinguished, the recall included all 43 carcasses at the primary customer. After one round of processing at the primary customer, the meat from the carcasses was shipped to two other processing facilities. Both establishments further mixed the recalled meat from the 43 carcasses with meat from other sources. In all, the mixing of beef from 1 BSE-positive cow resulted in over 500 customers receiving potentially contaminated beef. Imprecise distribution lists and the mixing of recalled beef combined to complicate USDA’s identification of where the product went. Specifically, on December 23, 2003, USDA’s initial press release stated that the recalling company was located in Washington State. Three days later, on December 26, 2003, USDA announced that the recalled beef was distributed within Washington and Oregon. On December 27, 2003, USDA determined that one of the primary customers of the recalling firm distributed beef to facilities in California and Nevada, in addition to Washington and Oregon, for a total of four states. On December 28, 2003, USDA announced that some of the secondary customers of the recalling company may also have distributed the product to Alaska, Montana, Hawaii, Idaho, and Guam, for a total of eight states and one territory.

 

On January 6, 2004, over 2 weeks from recall initiation, USDA determined that the beef went to only six states—Washington, Oregon, California, Nevada, Idaho, and Montana—and that no beef went to Alaska, Hawaii, or Guam. To reach that conclusion, USDA used the distribution lists, shipping records, and sales invoices that it received from companies to piece together exactly where the recalled beef may have been sent. The lists

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 42 GAO-05-51 Food Recall Programs

 

showed that 713 customers may have received the recalled beef; 6 of those may have received beef from more than one source. USDA determined that 176 customers on the lists did not actually receive recalled beef, including the customers in Guam and Hawaii. USDA’s review also indicated that recalled beef was probably not shipped to Alaska or Utah, and USDA checked 2 retailers in Alaska and 3 retailers in Utah to confirm that was the case. In total, USDA conducted verification checks on 537 of the 713 customers on the lists. USDA’s initial checks identified an additional 45 customers that may have received the recalled beef that were not included on the distribution lists, for a total of 582 verification checks. Figure 4 summarizes USDA’s verification efforts during the recall.

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 43 GAO-05-51 Food Recall Programs

 

Figure 4: USDA’s Recall Verification Checks by Location and Customer Type for Meat Associated with the Animal Infected with BSE

 

Note: USDA checked 15 primary, 40 secondary, and 526 tertiary customers plus the recalling company, for a total of 582 verification checks. USDA’s press release stated that the recall involved 10,410 pounds of beef products, and the USDA recall coordinator for this recall told us that downstream processors mixed the recalled beef with nonrecalled beef, for a total of more than 38,000 pounds of beef that was distributed at the secondary customer level. According to USDA officials involved with the

 

D = Distributor R = Retailer SF = Storage facility P = Processor Primary customers (15 total) Recalling slaughterhouse (WA) 1 R (OR) 1 P (WA) 1 P (OR) 1 P (OR) 11 R (WA) Secondary customers (40 total) Tertiary customers (526 total) 1 R (OR) 1 SF (OR) 3 D (OR) 3 D (WA) 2 dual D (OR) 59 R (OR) 79 R (WA) 5 R (ID) 3 R (UT) 4 R (MT) 161 R (WA) 8 R (ID) 15 R (OR) 2 R (AK) 31 R (OR) 8 R (WA) 10 R (NV) 5 R (ID) 10 R (CA) 2 R (CA) 17 R (OR) 5 R (WA) 1 D (NV) 11 R (CA) 85 R (NV) 3 D (OR) 11 R (OR) 2 D (CA) 26 R (CA) 2 R (WA)

 

( ) Acronyms in parentheses are postal abbreviations for each state. Source: GAO analysis of USDA verification check documents.

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE

 

Page 44 GAO-05-51 Food Recall Programs

 

recall, the precise amount of meat that was sold at the retail level is unknown because retailers at the tertiary level further mixed nonrecalled meat with potentially contaminated meat. USDA told us that more than 64,000 pounds of beef was ultimately returned or destroyed by customers, and that, because of the mixing, it was not able to determine how much of the original 10,410 pounds of recalled beef was contained in the 64,000 pounds that were recovered.

 

FDA’s Role in USDA’s Recall

 

Parts of the BSE-infected animal slaughtered on December 9, 2003, were not used for food, but they were sent to renderers to be separated into raw materials, such as proteins and blood. Rendered materials are used for many purposes, including cosmetics and vaccines. FDA has jurisdiction over renderers.

 

When USDA learned of the BSE-infected cow on December 23, 2003, the agency immediately notified FDA. On December 24, 2003, FDA sent an inspection team to a renderer that handled materials from the BSE cow. Inspectors confirmed that the parts of the slaughtered BSE positive cow were on the premises. FDA later identified a second company that potentially rendered material from the slaughtered BSE cow. Both renderers agreed to voluntarily hold all product processed from the diseased cow and dispose of the product as directed by FDA and local authorities.

 

On January 7, 2004, 15 containers of potentially contaminated, rendered material (meat and bone meal) were inadvertently loaded on a ship, and on January 8, 2004, the ship left Seattle, Washington, for Asia. The renderer initiated steps to recover the shipped material, so it could be disposed of as directed by FDA and local authorities. The ship carrying the material returned to the United States on February 24, 2004, and the material was disposed of in a landfill on March 2, 2004. On January 12, 2004, FDA asked both renderers to expand their voluntary holds to rendered materials processed from December 23, 2003, through January 9, 2004, because they may have rendered some recalled meat or trim that was recovered from retail establishments. Both renderers agreed to the expanded product hold. In total, FDA requested that renderers voluntarily hold approximately 2,000 tons of rendered material. FDA confirmed that none of the potentially contaminated, rendered material entered commerce, because FDA accounted for all rendered material. FDA

 

Appendix II

 

Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 45 GAO-05-51 Food Recall Programs

 

reported that no recall was necessary because no product was distributed commercially by the rendering companies.

 

USDA and FDA Worked Together on the Recall USDA and FDA worked together in two ways. First, both agencies notified each other if their investigations yielded any information about products within the jurisdiction of the other agency. For instance, when conducting the second round of verification checks, USDA tracked the disposition of the product to renderers and landfills and notified FDA when the product went to renderers. Second, FDA officials helped conduct verification checks. FDA conducted 32 of the 582 verification checks (approximately 5 percent) for the USDA recall. Officials from both agencies indicated they regularly interacted and shared information. Table 3 outlines the agencies’ actions.

 

Table 3: Detailed Timeline of USDA, FDA, and Company Actions Related to the Discovery of an Animal Infected with BSE Date USDA recall actions FDA actions Company actions 12/9/03 • USDA samples cow for BSE. • BSE cow is slaughtered. 12/11/03 • Sample is sent to Ames, Iowa, for BSE testing. • Recalling company sends carcasses to primary customer for processing. 12/12/03 • Primary customer sends meat products to two other primary customers for further processing. 12/12 - 12/23/03 • Other primary customers distribute recalled product to secondary customers. • Secondary customers distribute recalled product to tertiary customers. 12/23/03 • BSE test results are presumptively positive. • Recall meeting. • Initiation of voluntary recall. • Press release. • FDA notified of BSE test results. • FDA dispatches investigation teams. 12/24/03 • FDA inspects Renderer 1. • FDA determines some rendered material from Renderer 1 is intended for Indonesia. • FDA discovers some material may have been sent to Renderer 2. • Renderer 1 agrees to hold remaining rendered material. • Recalling company contacts primary customers. • Primary customers contact their customers. Appendix II Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 46 GAO-05-51 Food Recall Programs 12/25/03 • USDA receives confirmation from reference lab in England that cow in question is BSE positive. 12/26/03 • Verification checks begin • USDA announces recalled product in Washington State and Oregon. • FDA begins process of comparing records to ensure all products from Renderers 1 and 2 are accounted for. • Renderer 2 agrees to hold all material that may have been derived from BSE cow. None of the rendered material has been distributed. 12/27/03 • USDA announces recalled product was distributed in Washington State, Oregon, California, and Nevada. • FDA issues statement confirming that the rendering plants that processed all of the nonedible material from the BSE cow have placed a voluntary hold on all of the potentially infectious product, none of which had left the control of the companies and entered commercial distribution. 12/28/03 • USDA announces recalled product was distributed in Washington State, Oregon, California, Nevada, Montana, Idaho, Alaska, Hawaii, and Guam. 12/29/03 • Food Safety and Inspection Service determines that the recalled meat products were distributed to 42 locations, with 80 percent of the products distributed to stores in Oregon and Washington State. 12/31/03 • FDA offers assistance to USDA to complete recall verification checks. 1/6/04 • USDA determines recalled product was only distributed in Washington State, Oregon, California, Nevada, Montana, and Idaho. 1/8/04 • FDA is notified by the renderer that some of the rendered material on hold from Renderer 1 was inadvertently shipped to Asia. Renderer 1 commits to isolate and return the rendered material. • Rendering company notifies FDA of shipment of product on hold. (Continued From Previous Page) Date USDA recall actions FDA actions Company actions Appendix II Federal Actions Associated with the Discovery of an Animal in the United States Infected with BSE Page 47 GAO-05-51 Food Recall Programs Source: GAO analysis of USDA and FDA information. 1/12/04 • FDA advises Renderers 1 and 2 that they may have rendered meat or trim subject to recall from retail stores. • FDA requests Renderers 1 and 2 to place all rendered material from December 23 to January 9 on hold. • FDA determines neither renderer had shipped rendered material manufactured after December 23, 2003. 2/9/04 • All rendered material was disposed of in landfill, except material shipped to Asia. 2/24/04 • Ship carrying rendered material returns to U.S. port. 2/25/04 • Verification checks complete. • USDA Boulder District Office concludes recall is effective. 3/1/04 • Recall is closed. 3/2/04 • FDA observes disposal in landfill of remaining rendered material...

 

snip...

 

REPORTS

 

1. Food Safety: USDA and FDA Need to Better Ensure Prompt and Complete Recalls of Potentially Unsafe Food. GAO-05-51, October 7.tss http://www.gao.gov/cgi-bin/getrpt?GAO-05-51 Highlights - http://www.gao.gov/highlights/d0551high.pdf

 

Texas

 

FDA Statement

 

FOR IMMEDIATE RELEASE Statement May 4, 2004

 

Media Inquiries: 301-827-6242 Consumer Inquiries: 888-INFO-FDA

 

 Statement on Texas Cow With Central Nervous System Symptoms

 

On Friday, April 30 th , the Food and Drug Administration learned that a cow with central nervous system symptoms had been killed and shipped to a processor for rendering into animal protein for use in animal feed.

 

FDA, which is responsible for the safety of animal feed, immediately began an investigation. On Friday and throughout the weekend, FDA investigators inspected the slaughterhouse, the rendering facility, the farm where the animal came from, and the processor that initially received the cow from the slaughterhouse.

 

FDA's investigation showed that the animal in question had already been rendered into "meat and bone meal" (a type of protein animal feed). Over the weekend FDA was able to track down all the implicated material. That material is being held by the firm, which is cooperating fully with FDA.

 

Cattle with central nervous system symptoms are of particular interest because cattle with bovine spongiform encephalopathy or BSE, also known as "mad cow disease," can exhibit such symptoms. In this case, there is no way now to test for BSE. But even if the cow had BSE, FDA's animal feed rule would prohibit the feeding of its rendered protein to other ruminant animals (e.g., cows, goats, sheep, bison).

 

FDA is sending a letter to the firm summarizing its findings and informing the firm that FDA will not object to use of this material in swine feed only. If it is not used in swine feed, this material will be destroyed. Pigs have been shown not to be susceptible to BSE. If the firm agrees to use the material for swine feed only, FDA will track the material all the way through the supply chain from the processor to the farm to ensure that the feed is properly monitored and used only as feed for pigs.

 

To protect the U.S. against BSE, FDA works to keep certain mammalian protein out of animal feed for cattle and other ruminant animals. FDA established its animal feed rule in 1997 after the BSE epidemic in the U.K. showed that the disease spreads by feeding infected ruminant protein to cattle.

 

Under the current regulation, the material from this Texas cow is not allowed in feed for cattle or other ruminant animals. FDA's action specifying that the material go only into swine feed means also that it will not be fed to poultry.

 

FDA is committed to protecting the U.S. from BSE and collaborates closely with the U.S. Department of Agriculture on all BSE issues. The animal feed rule provides crucial protection against the spread of BSE, but it is only one of several such firewalls. FDA will soon be improving the animal feed rule, to make this strong system even stronger.

 

####

 

rule

 


 

Terry S. Singeltary Sr. wrote:

 

THAT ONE TEXAS MAD COW IS ONLY TIP OF ICE BURG;

 

No mad cow results for nearly 500 cows

 

By Steve Mitchell United Press International Published 8/11/2004 11:23 AM

 

WASHINGTON, Aug. 11 (UPI) -- The U.S. Department of Agriculture failed to test for mad cow disease or collect the correct portion of the brain on nearly 500 suspect cows over the past two years -- including some in categories considered most likely to be infected -- according to agency records obtained by United Press International.

 

The testing problems mean it may never be known with certainty whether these animals were infected with the deadly disease. Department officials said these animals were not included in the agency's final tally of mad cow tests, but the records, obtained by UPI under the Freedom of Information Act, indicate at least some of them were counted...

 

snip...

 

--

 

Steve Mitchell is UPI's Medical Correspondent. E-mail sciencemail@upi.com Copyright © 2001-2004 United Press International

 


 

HERE IS THE TEXAS MAD COW THAT WENT TO THE RENDER WITHOUT BEING TESTED AND OTHER MULTIPLE FLAWS IN THE SYSTEM;

 

July 13, 2004

 

IG Audit Finds Multiple Flaws in Mad Cow Surveillance Plan Rep. Waxman raises questions about the effectiveness and credibility of USDA's response to mad cow disease, citing an audit by the USDA Inspector General that finds systemic deficiencies in the Department's surveillance plan and new evidence that USDA misled the public in the wake of the detection of an infected cow in Washington State.

 

- Letter to USDA

 


 


 

IG Draft Audit

 


 


 

May 13, 2004

 

Failure To Test Staggering Cow May Reflect Wider Problems Rep. Waxman raises concerns that the recent failure of USDA to test an impaired cow for BSE may not be an isolated incident, citing the failure of USDA to monitor whether cows condemned for central nervous system symptoms are actually tested for mad cow disease.

 

- Letter to USDA

 


 


 

=============================================== TSS

 

 BIO-RAD BSE TEST POLITICAL REPLY TO TSS

 

Subject: FSIS NOTICE SAMPLE COLLECTION FROM CATTLE UNDER THE BOVINE SPONGIFORM ENCEPHALOPATHY (BSE) ONGOING SURVEILLANCE PROGRAM From: "Terry S. Singeltary Sr." Reply-To: Sustainable Agriculture Network Discussion Group Date: Fri, 2 Feb 2007 17:32:58 -0600

 

 Subject: Re: USDA/APHIS JUNE 2004 'ENHANCED' BSE/TSE COVER UP UPDATE DECEMBER 19, 2004 USA Date: Thu, 30 Dec 2004 12:27:06 -0600 From: "Terry S. Singeltary Sr.

 

BSE-L

 

snip...

 

> > OH, i did ask Bio-Rad about this with NO reply to date; > >

 

> -------- Original Message --------

 

> Subject: USA BIO-RADs INCONCLUSIVEs

 

> Date: Fri, 17 Dec 2004 15:37:28 –0600

 

> From: "Terry S. Singeltary Sr."

 

> To: susan_berg@bio-rad.com

 

> > > > Hello Susan and Bio-Rad,

 

> > Happy Holidays!

 

> > I wish to ask a question about Bio-Rad and USDA BSE/TSE testing

 

> and there inconclusive. IS the Bio-Rad test for BSE/TSE that complicated,

 

> or is there most likely some human error we are seeing here?

 

> > HOW can Japan have 2 positive cows with

 

> No clinical signs WB+, IHC-, HP- ,

 

> BUT in the USA, these cows are considered 'negative'?

 

> > IS there more politics working here than science in the USA?

 

> > What am I missing?

 

> > >

 

> -------- Original Message --------

 

> Subject: Re: USDA: More mad cow testing will demonstrate beef's safety

 

> Date: Fri, 17 Dec 2004 09:26:19 –0600

 

> From: "Terry S. Singeltary Sr." > snip...end > >

 

> Experts doubt USDA's mad cow results

 

snip...END

 

WELL, someone did call me from Bio-Rad about this, however it was not Susan Berg. but i had to just about take a blood oath not to reveal there name. IN fact they did not want me to even mention this, but i feel it is much much to important. I have omitted any I.D. of this person, but thought I must document this ;

 

Bio-Rad, TSS phone conversation 12/28/04

 

Finally spoke with ;

 

Bio-Rad Laboratories 2000 Alfred Nobel Drive Hercules, CA 94547 Ph: 510-741-6720 Fax: 510-741-5630 Email: XXXXXXXXXXXXXXXXXX

 

at approx. 14:00 hours 12/28/04, I had a very pleasant phone conversation with XXXX XXXXX about the USDA and the inconclusive BSE testing problems they seem to keep having. X was very very cautious as to speak directly about USDA and it's policy of not using WB. X was very concerned as a Bio-Rad official of retaliation of some sort. X would only speak of what other countries do, and that i should take that as an answer. I told X I understood that it was a very loaded question and X agreed several times over and even said a political one.

 

my question;

 

Does Bio-Rad believe USDA's final determination of False positive, without WB, and considering the new atypical TSEs not showing positive with -IHC and -HP ???

 

ask if i was a reporter. i said no, i was with CJD Watch and that i had lost my mother to hvCJD. X did not want any of this recorded or repeated.

 

again, very nervous, will not answer directly about USDA for fear of retaliation, but again said X tell me what other countries are doing and finding, and that i should take it from there. "very difficult to answer"

 

"very political"

 

"very loaded question"

 

outside USA and Canada, they use many different confirmatory tech. in house WB, SAF, along with IHC, HP, several times etc. you should see at several talks meetings (TSE) of late Paris Dec 2, that IHC- DOES NOT MEAN IT IS NEGATIVE. again, look what the rest of the world is doing. said something about Dr. Houston stating; any screening assay, always a chance for human error. but with so many errors (i am assuming X meant inconclusive), why are there no investigations, just false positives? said something about ''just look at the sheep that tested IHC- but were positive''. ...

 

TSS

 

-------- Original Message --------

 

Subject: Your questions

 

Date: Mon, 27 Dec 2004 15:58:11 –0800

 

From: To: flounder@wt.net

 

Hi Terry:

 

............................................snip

 

Let me know your phone number so I can talk to you about the Bio-Rad BSE test. Thank you

 

Regards

 

Bio-Rad Laboratories 2000 Alfred Nobel Drive Hercules, CA 94547 Ph: 510-741-6720 Fax: 510-741-5630 Email:

 

=================================

 

Saturday, August 14, 2010

 

 BSE Case Associated with Prion Protein Gene Mutation (g-h-BSEalabama) and VPSPr PRIONPATHY

 

 (see COPIOUS AMOUNTS OF mad cow feed in COMMERCE IN ALABAMA...TSS)

 


 

 Texas BSE Investigation Final Epidemiology Report August 2005

 


 

 State-Federal Team Responds to Texas BSE Case

 

 JUNE 30, 2005

 

 (please note 7+ month delay in final confirmation so the BSE MRR policy could be set in stone first. $$$...tss)

 


 


 

*** SEE ATTEMPTED COVER-UP BEFORE THE END AROUND BY FONG ET AL OF THE O.I.G

 

 The U.S. Department of Agriculture confirmed June 29 that genetic testing had verified bovine spongiform encephalopathy (mad cow disease) in a 12-year-old cow that was born and raised in a Texas beef cattle herd.

 

 Subsequent epidemiological investigations resulted in the culling and testing of 67 adult animals from the index herd. Bio-Rad tests for BSE were conducted on all 67 animals by the National Veterinary Services Laboratory (NVSL) in Ames, Iowa. All tests were negative.

 

 On July 12, Texas officials lifted the quarantine on the source herd. At press time, USDA's Animal and Plant Health Inspection Service was tracing animals of the same age that had left the ranch.

 

 Timeline

 

 The BSE-positive animal was a Brahman-cross cow born and raised in a single Texas herd. The location of the ranch was not disclosed.

 

 On Nov. 11, 2004, the 12-year-old cow was taken to a Texas auction market. Because of its condition, the cow was sent to Champion Pet Foods in Waco, Texas. The company produces several blends of dog food, primarily for the greyhound industry.

 

 On Nov. 15, the animal arrived dead at Champion. Under procedures established by USDA's intensive surveillance program, a sample was sent to the USDA-approved Texas Veterinary Medical Diagnostic Testing Laboratory (TVMDL) at Texas A&M University.

 

 Between June 1, 2004, and June 1, 2005, TVMDL tested nearly 34,000 samples from Texas, New Mexico, Arkansas and Louisiana. They tested the sample from Champion on Nov. 19 using a Bio-Rad ELISA rapid test for BSE. Initial results were inconclusive.

 

 Because of the inconclusive results, a representative from USDA took the entire carcass to TVMDL where it was incinerated. USDA's Animal and Plant Health Inspection Service (APHIS) began tracing the animal and herd.

 

 The sample was then sent to the National Veterinary Services Laboratory for further testing. Two Immunohistochemistry (IHC) tests were conducted and both were negative for BSE. At that point APHIS stopped their trace.

 

 USDA scientists also ran an additional, experimental IHC "rapid" tissue fixation test for academic purposes. This test has not been approved internationally.

 

 Some abnormalities were noted in the experimental test, but because the two approved tests came back negative, the results were not reported beyond the laboratory.

 

 Monitoring by OIG

 

 USDA's Office of Inspector General (OIG) has been monitoring implementation of the BSE expanded surveillance program and evaluating the following:

 

 * Effectiveness of the surveillance program;

 

 * Performance of BSE laboratories in complying with policies and procedures for conducting tests and reporting results;

 

 * Enforcement of the ban on specified risk materials in meat products;

 

 * Controls to prevent central nervous system tissue in advanced meat recovery products;

 

 * Ante mortem condemnation procedures; and

 

 * Procedures for obtaining brain tissue samples from condemned cattle.

 

 While reviewing voluminous records, OIG auditors noticed conflicting test results on one sample-rapid inconclusive, IHC negative, experimental reactive.

 

 Sample retested

 

 At the recommendation of the Inspector General, the sample was retested during the week of June 5 with a second confirmatory test, the Western Blot. The results were reactive.

 

 USDA scientists then conducted an additional IHC confirmatory test, using different antibodies from the November 2004 test. On Friday, June 10, Secretary of Agriculture Mike Johanns publicly announced the results as a "weak positive."

 

 On June 16 an official with USDA's National Veterinary Services Laboratory hand-carried samples for further testing to the Veterinary Laboratory Agency (VLA) in Weybridge, England. Since 1991, the VLA has been a BSE reference laboratory for the World Organization for Animal Health (OIE).

 

 Experts from the Weybridge lab confirmed the accuracy of the results of USDA's November confirmatory IHC test, concurring that the case could not have been confirmed on the basis of this sample. They also examined the November experimental IHC test and interpreted the results to be positive.

 

 Weybridge also conducted additional tests, including IHC, OIE-prescribed Western Blot, NaTTA Western Blot and Prionics Western Blot tests.

 

 To better understand the conflicting results, USDA also conducted Bio-Rad and IDEXX rapid screening tests, IHC and OIE-prescribed Western Blot. USDA also used DNA sequencing to determine the prion protein gene sequence of the animal.

 


 

 Texas even had a 'secret' test that showed that mad cow positive; experimental IHC test results, because the test was not a validated procedure, and because the two approved IHC tests came back negative, the results were not considered to be of regulatory significance and therefore were not reported beyond the laboratory. . A Western blot test conducted the week of June 5, 2005, returned positive for BSE.

 


 

 48 hr BSE confirmation turnaround took 7+ months to confirm this case, so the BSE MRR policy could be put into place. ...TSS

 

*** -------- Original Message --------***

 

 ***Subject: re-USDA's surveillance plan for BSE aka mad cow disease

 

 Date: Mon, 02 May 2005 16:59:07 -0500

 

 From: "Terry S. Singeltary Sr."

 

 To: paffairs@oig.hhs.gov, HHSTips@oig.hhs.gov, contactOIG@hhsc.state.tx.us

 

 Greetings Honorable Paul Feeney, Keith Arnold, and William Busbyet al at OIG, ...............

 

 snip...

 

 There will be several more emails of my research to follow. I respectfully request a full inquiry into the cover-up of TSEs in the United States of America over the past 30 years. I would be happy to testify...

 

 Thank you, I am sincerely, Terry S. Singeltary Sr. P.O. Box 42 Bacliff, Texas USA 77518 xxx xxx xxxx

 

 Date: June 14, 2005 at 1:46 pm PST

 

 In Reply to:

 

 Re: Transcript Ag. Secretary Mike Johanns and Dr. John Clifford, Regarding further analysis of BSE Inconclusive Test Results

 

 posted by TSS on June 13, 2005 at 7:33 pm:

 

 Secretary of Agriculture Ann M. Veneman resigns Nov 15 2004, three days later inclusive Mad Cow is announced. June 7th 2005 Bill Hawks Under Secretary for Marketing and Regulatory Programs resigns. Three days later same mad cow found in November turns out to be positive. Both resignation are unexpected. just pondering... TSS

 

 MAD COW IN TEXAS NOVEMBER 2004. ...TSS

 

 -------- Original Message --------

 

 Subject: Re: BSE 'INCONCLUSIVE' COW from TEXAS ???

 

 Date: Mon, 22 Nov 2004 17:12:15 -0600

 

 From: "Terry S. Singeltary Sr."

 

 To: Carla EverettReferences: [log in to unmask]; [log in to unmask] ;

 

 Greetings Carla, still hear a rumor;

 

 Texas single beef cow not born in Canada no beef entered the food chain?

 

 and i see the TEXAS department of animal health is ramping up for something, but they forgot a url for update?

 

 I HAVE NO ACTUAL CONFIRMATION YET...

 

 can you confirm??? terry

 

 ============================================================

 

 -------- Original Message --------

 

 Subject: Re: BSE 'INCONCLUSIVE' COW from TEXAS ???

 

 Date: Fri, 19 Nov 2004 11:38:21 -0600

 

 From: Carla Everett

 

 To: "Terry S. Singeltary Sr."References;[log in to unmask];

 

 The USDA has made a statement, and we are referring all callers to the USDA web site. We have no information about the animal being in Texas.

 

 Carla

 

 At 09:44 AM 11/19/2004, you wrote:

 

 Greetings Carla,

 

 i am getting unsubstantiated claims of this BSE 'inconclusive' cow is from

 

 TEXAS. can you comment on this either way please?

 

 thank you,

 

 Terry S. Singeltary Sr

 

 ======================================

 

 -------- Original Message --------

 

 Subject: Re: BSE 'INCONCLUSIVE' COW from TEXAS ???

 

 Date: Mon, 22 Nov 2004 18:33:20 -0600

 

 From: Carla Everett

 

 To: "Terry S. Singeltary Sr."References: <[log in to unmask]><[log in to unmask] us><[log in to unmask]> <[log in to unmask]us> <[log in to unmask]>

 

 our computer department was working on a place holder we could post USDA's announcement of any results. There are no results to be announced tonight by NVSL, so we are back in a waiting mode and will post the USDA announcement when we hear something.

 

 At 06:05 PM 11/22/2004,

 

 you wrote:

 

 why was the announcement on your TAHC site removed?

 

 Bovine Spongiform Encephalopathy:

 

 November 22: Press Release title here

 

 star image More BSE information

 

 terry

 

 Carla Everett wrote:

 

 no confirmation on the U.S.'inconclusive test...

 

 no confirmation on location of animal. ;

 

 FROM HERE, IT TOOK 7 MONTHS TO CONFIRM THIS MAD COW, while the BSE MRR policy was being bought and sold...(in my opinion...tss)

 


 


 

 Saturday, August 16, 2008

 

 Qualitative Analysis of BSE Risk Factors in the United States February 13, 2000 at 3:37 pm PST (BSE red book)

 


 

 TEXAS OFFICIALS DEAD WRONG ON AMOUNT OF INFECTIVITY TO CAUSE A TSE PRION DISEASE ;

 

 "FDA has determined that each animal could have consumed, at most and in total, five-and-one-half grams – approximately a quarter ounce — of prohibited material. These animals weigh approximately 600 pounds."

 

 5.5 GRAMS OF INFECTIOUS PROHIBITED MAD COW FEED FOR EACH OF THE 1,222 ANIMALS (5.5 GRAMS X 1,222 ANIMALS) IS ENOUGH INFECTIOUS MAD COW FEED TO KILL A SMALL HERD OF COWS...TSS

 

 U.S. Food and Drug Administration FDA News | Today the Food and Drug Administ…U.S. Food and Drug Administration FDA News

 

 Today the Food and Drug Administration announced the results of tests taken on feed used at a Texas feedlot that was suspected of containing meat and bone meal from other domestic cattle — a violation of FDA’s 1997 prohibition on using ruminant material in feed for other ruminants. Results indicate that a very low level of prohibited material was found in the feed fed to cattle.

 

 FDA has determined that each animal could have consumed, at most and in total, five-and-one-half grams – approximately a quarter ounce — of prohibited material. These animals weigh approximately 600 pounds.

 

 It is important to note that the prohibited material was domestic in origin (therefore not likely to contain infected material because there is no evidence of BSE in U.S. cattle), fed at a very low level, and fed only once. The potential risk of BSE to such cattle is therefore exceedingly low, even if the feed were contaminated.

 

 According to Dr. Bernard Schwetz, FDA’s Acting Principal Deputy Commissioner, “The challenge to regulators and industry is to keep this disease out of the United States. One important defense is to prohibit the use of any ruminant animal materials in feed for other ruminant animals. Combined with other steps, like U.S. Department of Agriculture’s (USDA) ban on the importation of live ruminant animals from affected countries, these steps represent a series of protections, to keep American cattle free of BSE.”

 

Despite this negligible risk, Purina Mills, Inc., is nonetheless announcing that it is voluntarily purchasing all 1,222 of the animals held in Texas and mistakenly fed the animal feed containing the prohibited material. Therefore, meat from those animals will not enter the human food supply. FDA believes any cattle that did not consume feed containing the prohibited material are unaffected by this incident, and should be handled in the beef supply clearance process as usual.

 

 FDA believes that Purina Mills has behaved responsibly by first reporting the human error that resulted in the misformulation of the animal feed supplement and then by working closely with State and Federal authorities.

 

 This episode indicates that the multi-layered safeguard system put into place is essential for protecting the food supply and that continued vigilance needs to be taken, by all concerned, to ensure these rules are followed routinely.

 

 FDA will continue working with USDA as well as State and local officials to ensure that companies and individuals comply with all laws and regulations designed to protect the U.S. food supply.

 


 

 FOR IMMEDIATE RELEASE P01-05 January 30, 2001 Print Media: 301-827-6242 Consumer Inquiries: 888-INFO-FDA

 

 FDA ANNOUNCES TEST RESULTS FROM TEXAS FEED LOT

 

 Today the Food and Drug Administration announced the results of tests taken on feed used at a Texas feedlot that was suspected of containing meat and bone meal from other domestic cattle -- a violation of FDA's 1997 prohibition on using ruminant material in feed for other ruminants. Results indicate that a very low level of prohibited material was found in the feed fed to cattle.

 

 FDA has determined that each animal could have consumed, at most and in total, five-and-one-half grams - approximately a quarter ounce -- of prohibited material. These animals weigh approximately 600 pounds.

 

 It is important to note that the prohibited material was domestic in origin (therefore not likely to contain infected material because there is no evidence of BSE in U.S. cattle), fed at a very low level, and fed only once. The potential risk of BSE to such cattle is therefore exceedingly low, even if the feed were contaminated.

 

 According to Dr. Bernard Schwetz, FDA's Acting Principal Deputy Commissioner, "The challenge to regulators and industry is to keep this disease out of the United States. One important defense is to prohibit the use of any ruminant animal materials in feed for other ruminant animals. Combined with other steps, like U.S. Department of Agriculture's (USDA) ban on the importation of live ruminant animals from affected countries, these steps represent a series of protections, to keep American cattle free of BSE."

 

 Despite this negligible risk, Purina Mills, Inc., is nonetheless announcing that it is voluntarily purchasing all 1,222 of the animals held in Texas and mistakenly fed the animal feed containing the prohibited material. Therefore, meat from those animals will not enter the human food supply. FDA believes any cattle that did not consume feed containing the prohibited material are unaffected by this incident, and should be handled in the beef supply clearance process as usual.

 

 FDA believes that Purina Mills has behaved responsibly by first reporting the human error that resulted in the misformulation of the animal feed supplement and then by working closely with State and Federal authorities.

 

 This episode indicates that the multi-layered safeguard system put into place is essential for protecting the food supply and that continued vigilance needs to be taken, by all concerned, to ensure these rules are followed routinely.

 

 FDA will continue working with USDA as well as State and local officials to ensure that companies and individuals comply with all laws and regulations designed to protect the U.S. food supply.

 


 

 PRION 2009 CONGRESS BOOK OF ABSTRACTS

 

 O.4.3

 

 Spread of BSE prions in cynomolgus monkeys (Macaca fascicularis) after oral transmission

 

 Edgar Holznagel1, Walter Schulz-Schaeffer2, Barbara Yutzy1, Gerhard Hunsmann3, Johannes Loewer1 1Paul-Ehrlich-Institut, Federal Institute for Sera and Vaccines, Germany; 2Department of Neuropathology, Georg-August University, Göttingen, Germany, 3Department of Virology and Immunology, German Primate Centre, Göttingen, Germany

 

 Background: BSE-infected cynomolgus monkeys represent a relevant animal model to study the pathogenesis of variant Creutzfeldt-Jacob disease (vCJD).

 

 Objectives: To study the spread of BSE prions during the asymptomatic phase of infection in a simian animal model.

 

 Methods: Orally BSE-dosed macaques (n=10) were sacrificed at defined time points during the incubation period and 7 orally BSE-dosed macaques were sacrificed after the onset of clinical signs. Neuronal and non-neuronal tissues were tested for the presence of proteinase-K-resistant prion protein (PrPres) by western immunoblot and by paraffin-embedded tissue (PET) blot technique.

 

 Results: In clinically diseased macaques (5 years p.i. + 6 mo.), PrPres deposits were widely spread in neuronal tissues (including the peripheral sympathetic and parasympathetic nervous system) and in lymphoid tissues including tonsils. In asymptomatic disease carriers, PrPres deposits could be detected in intestinal lymph nodes as early as 1 year p.i., but CNS tissues were negative until 3 – 4 years p.i. Lumbal/sacral segments of the spinal cord and medulla oblongata were PrPres positive as early as 4.1 years p.i., whereas sympathetic trunk and all thoracic/cervical segments of the spinal cord were still negative for PrPres. However, tonsil samples were negative in all asymptomatic cases.

 

 Discussion: There is evidence for an early spread of BSE to the CNS via autonomic fibres of the splanchnic and vagus nerves indicating that trans-synaptical spread may be a time-limiting factor for neuroinvasion. Tonsils were predominantly negative during the main part of the incubation period indicating that epidemiological vCJD screening results based on the detection of PrPres in tonsil biopsies may mostly tend to underestimate the prevalence of vCJD among humans.

 


 

 P04.27

 

 Experimental BSE Infection of Non-human Primates: Efficacy of the Oral Route

 

 Holznagel, E1; Yutzy, B1; Deslys, J-P2; Lasmézas, C2; Pocchiari, M3; Ingrosso, L3; Bierke, P4; Schulz-Schaeffer, W5; Motzkus, D6; Hunsmann, G6; Löwer, J1 1Paul-Ehrlich-Institut, Germany; 2Commissariat à l´Energie Atomique, France; 3Instituto Superiore di Sanità, Italy; 4Swedish Institute for Infectious Disease control, Sweden; 5Georg August University, Germany; 6German Primate Center, Germany

 

 Background:

 

 In 2001, a study was initiated in primates to assess the risk for humans to contract BSE through contaminated food. For this purpose, BSE brain was titrated in cynomolgus monkeys.

 

 Aims:

 

 The primary objective is the determination of the minimal infectious dose (MID50) for oral exposure to BSE in a simian model, and, by in doing this, to assess the risk for humans. Secondly, we aimed at examining the course of the disease to identify possible biomarkers.

 

 Methods:

 

 Groups with six monkeys each were orally dosed with lowering amounts of BSE brain: 16g, 5g, 0.5g, 0.05g, and 0.005g. In a second titration study, animals were intracerebrally (i.c.) dosed (50, 5, 0.5, 0.05, and 0.005 mg).

 

 Results:

 

 In an ongoing study, a considerable number of high-dosed macaques already developed simian vCJD upon oral or intracerebral exposure or are at the onset of the clinical phase. However, there are differences in the clinical course between orally and intracerebrally infected animals that may influence the detection of biomarkers.

 

 Conclusions:

 

 Simian vCJD can be easily triggered in cynomolgus monkeys on the oral route using less than 5 g BSE brain homogenate. The difference in the incubation period between 5 g oral and 5 mg i.c. is only 1 year (5 years versus 4 years). However, there are rapid progressors among orally dosed monkeys that develop simian v CJD as fast as intracerebrally inoculated animals.

 

 The work referenced was performed in partial fulfillment of the study “BSE in primates“ supported by the EU (QLK1-2002-01096).

 


 

 Simian vCJD can be easily triggered in cynomolgus monkeys on the oral route using less than 5 g BSE brain homogenate.

 


 

 look at the table and you'll see that as little as 1 mg (or 0.001 gm) caused 7% (1 of 14) of the cows to come down with BSE;

 

 Risk of oral infection with bovine spongiform encephalopathy agent in primates

 

 Corinne Ida Lasmézas, Emmanuel Comoy, Stephen Hawkins, Christian Herzog, Franck Mouthon, Timm Konold, Frédéric Auvré, Evelyne Correia, Nathalie Lescoutra-Etchegaray, Nicole Salès, Gerald Wells, Paul Brown, Jean-Philippe Deslys Summary The uncertain extent of human exposure to bovine spongiform encephalopathy (BSE)--which can lead to variant Creutzfeldt-Jakob disease (vCJD)--is compounded by incomplete knowledge about the efficiency of oral infection and the magnitude of any bovine-to-human biological barrier to transmission. We therefore investigated oral transmission of BSE to non-human primates. We gave two macaques a 5 g oral dose of brain homogenate from a BSE-infected cow. One macaque developed vCJD-like neurological disease 60 months after exposure, whereas the other remained free of disease at 76 months. On the basis of these findings and data from other studies, we made a preliminary estimate of the food exposure risk for man, which provides additional assurance that existing public health measures can prevent transmission of BSE to man.

 

 snip...

 

 BSE bovine brain inoculum

 

 100 g 10 g 5 g 1 g 100 mg 10 mg 1 mg 0·1 mg 0·01 mg

 

 Primate (oral route)* 1/2 (50%)

 

 Cattle (oral route)* 10/10 (100%) 7/9 (78%) 7/10 (70%) 3/15 (20%) 1/15 (7%) 1/15 (7%)

 

 RIII mice (ic ip route)* 17/18 (94%) 15/17 (88%) 1/14 (7%)

 

 PrPres biochemical detection

 

 The comparison is made on the basis of calibration of the bovine inoculum used in our study with primates against a bovine brain inoculum with a similar PrPres concentration that was

 

 inoculated into mice and cattle.8 *Data are number of animals positive/number of animals surviving at the time of clinical onset of disease in the first positive animal (%). The accuracy of

 

 bioassays is generally judged to be about plus or minus 1 log. ic ip=intracerebral and intraperitoneal.

 

 Table 1: Comparison of transmission rates in primates and cattle infected orally with similar BSE brain inocula

 

 Published online January 27, 2005

 


 

 Calves were challenged by mouth with homogenised brain from confirmed cases of BSE. Some received 300g (3 doses of 100g), some 100g, 10g or 1g. They were then left to develop BSE, but were not subjected to the normal stresses that they might have encountered in a dairy herd. Animals in all four groups developed BSE. There has been a considerable spread of incubation period in some of the groups, but it appears as if those in the 1 and 10g challenge groups most closely fit the picture of incubation periods seen in the epidemic. Experiments in progress indicate that oral infection can occur in some animals with doses as low as 0.01g and 0.001g. .........

 


 

 It is clear that the designing scientists must also have shared Mr Bradley's surprise at the results because all the dose levels right down to 1 gram triggered infection.

 


 

 6. It also appears to me that Mr Bradley's answer (that it would take less than say 100 grams) was probably given with the benefit of hindsight; particularly if one considers that later in the same answer Mr Bradley expresses his surprise that it could take as little of 1 gram of brain to cause BSE by the oral route within the same species. This information did not become available until the "attack rate" experiment had been completed in 1995/96. This was a titration experiment designed to ascertain the infective dose. A range of dosages was used to ensure that the actual result was within both a lower and an upper limit within the study and the designing scientists would not have expected all the dose levels to trigger infection. The dose ranges chosen by the most informed scientists at that time ranged from 1 gram to three times one hundred grams. It is clear that the designing scientists must have also shared Mr Bradley's surprise at the results because all the dose levels right down to 1 gram triggered infection.

 


 

FULL 130 LASHINGS TO USDA BY OIG again

 


 

 FOR IMMEDIATE RELEASE Statement May 4, 2004 Media Inquiries: 301-827-6242 Consumer Inquiries: 888-INFO-FDA

 

 Statement on Texas Cow With Central Nervous System Symptoms On Friday, April 30 th , the Food and Drug Administration learned that a cow with central nervous system symptoms had been killed and shipped to a processor for rendering into animal protein for use in animal feed.

 

FDA, which is responsible for the safety of animal feed, immediately began an investigation. On Friday and throughout the weekend, FDA investigators inspected the slaughterhouse, the rendering facility, the farm where the animal came from, and the processor that initially received the cow from the slaughterhouse.

 

FDA's investigation showed that the animal in question had already been rendered into "meat and bone meal" (a type of protein animal feed). Over the weekend FDA was able to track down all the implicated material. That material is being held by the firm, which is cooperating fully with FDA.

 

Cattle with central nervous system symptoms are of particular interest because cattle with bovine spongiform encephalopathy or BSE, also known as "mad cow disease," can exhibit such symptoms. In this case, there is no way now to test for BSE. But even if the cow had BSE, FDA's animal feed rule would prohibit the feeding of its rendered protein to other ruminant animals (e.g., cows, goats, sheep, bison).

 

FDA is sending a letter to the firm summarizing its findings and informing the firm that FDA will not object to use of this material in swine feed only. If it is not used in swine feed, this material will be destroyed. Pigs have been shown not to be susceptible to BSE. If the firm agrees to use the material for swine feed only, FDA will track the material all the way through the supply chain from the processor to the farm to ensure that the feed is properly monitored and used only as feed for pigs.

 

To protect the U.S. against BSE, FDA works to keep certain mammalian protein out of animal feed for cattle and other ruminant animals. FDA established its animal feed rule in 1997 after the BSE epidemic in the U.K. showed that the disease spreads by feeding infected ruminant protein to cattle.

 

Under the current regulation, the material from this Texas cow is not allowed in feed for cattle or other ruminant animals. FDA's action specifying that the material go only into swine feed means also that it will not be fed to poultry.

 

FDA is committed to protecting the U.S. from BSE and collaborates closely with the U.S. Department of Agriculture on all BSE issues. The animal feed rule provides crucial protection against the spread of BSE, but it is only one of several such firewalls. FDA will soon be improving the animal feed rule, to make this strong system even stronger.

 

####

 


 

*** 2009 UPDATE ON ALABAMA AND TEXAS MAD COWS 2005 and 2006 ***

 


 

 ALABAMA MAD COW CASE

 


 


 

CJDIBSE (aka madcow) Human/Animal TSE’s--U.S.--Submission To Scientific Advisors and Consultants Staff January 2001 Meeting (short version)

 

PDF]Freas, William TSS SUBMISSION

 

File Format: PDF/Adobe Acrobat -

 

Page 1. J Freas, William From: Sent: To: Subject: Terry S. Singeltary

 

Sr. [flounder@wt.net] Monday, January 08,2001 3:03 PM freas ...

 


 

BSE; MRR; IMPORTATION OF LIVE BOVINES AND PRODUCTS DERIVED FROM BOVINES [Docket No. APHIS-2006-0041] RIN 0579-AC01

 

Date: January 9, 2007 at 9:08 am PST

 


 

2015

 

I strenuously once again urge the FDA and its industry constituents, to make it MANDATORY that all ruminant feed be banned to all ruminants, and this should include all cervids as soon as possible for the following reasons...

 

======

 

In the USA, under the Food and Drug Administrations BSE Feed Regulation (21 CFR 589.2000) most material (exceptions include milk, tallow, and gelatin) from deer and elk is prohibited for use in feed for ruminant animals. With regards to feed for non-ruminant animals, under FDA law, CWD positive deer may not be used for any animal feed or feed ingredients. For elk and deer considered at high risk for CWD, the FDA recommends that these animals do not enter the animal feed system.

 

***However, this recommendation is guidance and not a requirement by law.

 

======

 

31 Jan 2015 at 20:14 GMT

 

*** Ruminant feed ban for cervids in the United States? ***

 

31 Jan 2015 at 20:14 GMT

 


 

*** Singeltary reply ; Molecular, Biochemical and Genetic Characteristics of BSE in Canada Singeltary reply ;

 


 

It is clear that the designing scientists must also have shared Mr Bradleys surprise at the results because all the dose levels right down to 1 gram triggered infection.

 


 

it is clear that the designing scientists must have also shared Mr Bradleys surprise at the results because all the dose levels right down to 1 gram triggered infection.

 


 

Evidence That Transmissible Mink Encephalopathy Results from Feeding Infected Cattle

 

Over the next 8-10 weeks, approximately 40% of all the adult mink on the farm died from TME.

 

snip...

 

The rancher was a ''dead stock'' feeder using mostly (>95%) downer or dead dairy cattle...

 


 

In Confidence - Perceptions of unconventional slow virus diseases of animals in the USA - APRIL-MAY 1989 - G A H Wells

 

3. Prof. A. Robertson gave a brief account of BSE. The US approach was to accord it a very low profile indeed. Dr. A Thiermann showed the picture in the ''Independent'' with cattle being incinerated and thought this was a fanatical incident to be avoided in the US at all costs. ...

 


 


 

10 years post mad cow feed ban August 1997

 

10,000,000+ LBS. of PROHIBITED BANNED MAD COW FEED I.E. BLOOD LACED MBM IN COMMERCE USA 2007

 

Date: March 21, 2007 at 2:27 pm PST

 

RECALLS AND FIELD CORRECTIONS: VETERINARY MEDICINES -- CLASS II

 

PRODUCT

 

Bulk cattle feed made with recalled Darling's 85% Blood Meal, Flash Dried, Recall # V-024-2007

 

CODE

 

Cattle feed delivered between 01/12/2007 and 01/26/2007

 

RECALLING FIRM/MANUFACTURER

 

Pfeiffer, Arno, Inc, Greenbush, WI. by conversation on February 5, 2007.

 

Firm initiated recall is ongoing.

 

REASON

 

Blood meal used to make cattle feed was recalled because it was cross- contaminated with prohibited bovine meat and bone meal that had been manufactured on common equipment and labeling did not bear cautionary BSE statement.

 

VOLUME OF PRODUCT IN COMMERCE

 

42,090 lbs.

 

DISTRIBUTION

 

WI

 

___________________________________

 

PRODUCT

 

Custom dairy premix products: MNM ALL PURPOSE Pellet, HILLSIDE/CDL Prot- Buffer Meal, LEE, M.-CLOSE UP PX Pellet, HIGH DESERT/ GHC LACT Meal, TATARKA, M CUST PROT Meal, SUNRIDGE/CDL PROTEIN Blend, LOURENZO, K PVM DAIRY Meal, DOUBLE B DAIRY/GHC LAC Mineral, WEST PIONT/GHC CLOSEUP Mineral, WEST POINT/GHC LACT Meal, JENKS, J/COMPASS PROTEIN Meal, COPPINI - 8# SPECIAL DAIRY Mix, GULICK, L-LACT Meal (Bulk), TRIPLE J - PROTEIN/LACTATION, ROCK CREEK/GHC MILK Mineral, BETTENCOURT/GHC S.SIDE MK-MN, BETTENCOURT #1/GHC MILK MINR, V&C DAIRY/GHC LACT Meal, VEENSTRA, F/GHC LACT Meal, SMUTNY, A- BYPASS ML W/SMARTA, Recall # V-025-2007

 

CODE

 

The firm does not utilize a code - only shipping documentation with commodity and weights identified.

 

RECALLING FIRM/MANUFACTURER

 

Rangen, Inc, Buhl, ID, by letters on February 13 and 14, 2007. Firm initiated recall is complete.

 

REASON

 

Products manufactured from bulk feed containing blood meal that was cross contaminated with prohibited meat and bone meal and the labeling did not bear cautionary BSE statement.

 

VOLUME OF PRODUCT IN COMMERCE

 

9,997,976 lbs.

 

DISTRIBUTION

 

ID and NV

 

END OF ENFORCEMENT REPORT FOR MARCH 21, 2007

 


 

16 years post mad cow feed ban August 1997

 

2013

 

Sunday, December 15, 2013

 

FDA PART 589 -- SUBSTANCES PROHIBITED FROM USE IN ANIMAL FOOD OR FEED VIOLATIONS OFFICIAL ACTION INDICATED OIA UPDATE DECEMBER 2013 UPDATE

 


 

17 years post mad cow feed ban August 1997

 

Tuesday, December 23, 2014

 

FDA PART 589 -- SUBSTANCES PROHIBITED FROM USE IN ANIMAL FOOD OR FEED VIOLATIONS OFFICIAL ACTION INDICATED OAI UPDATE DECEMBER 2014 BSE TSE PRION

 


 

Sunday, June 14, 2015

 

Larry’s Custom Meats Inc. Recalls Beef Tongue Products That May Contain Specified Risk Materials BSE TSE Prion

 


 

*** Monday, October 26, 2015 ***

 

*** FDA PART 589 -- SUBSTANCES PROHIBITED FROM USE IN ANIMAL FOOD OR FEED VIOLATIONS OFFICIAL ACTION INDICATED OIA UPDATE October 2015 ***

 


 

the OIE BSE TSE Prion policy now, the BSE MRR, legalized the free trading of the TSE Prion disease, humans and animals have now become expendable. ...

 

‘’AS i said before, OIE should hang up there jock strap now, since it appears they will buckle every time a country makes some political hay about trade protocol, commodities and futures. IF they are not going to be science based, they should do everyone a favor and dissolve there organization.’’

 

IN A NUT SHELL ;

 

(Adopted by the International Committee of the OIE on 23 May 2006)

 

11. Information published by the OIE is derived from appropriate declarations made by the official Veterinary Services of Member Countries. The OIE is not responsible for inaccurate publication of country disease status based on inaccurate information or changes in epidemiological status or other significant events that were not promptly reported to the Central Bureau,

 


 

snip...see ;

 

Sunday, October 18, 2015

 

World Organisation for Animal Health (OIE) and the Institut Pasteur Cooperating on animal disease and zoonosis research

 


 

Thursday, December 17, 2015

 

Annual report of the Scientific Network on BSE-TSE 2015 EFSA-Q-2015-00738 10 December 2015

 


 

Friday, January 1, 2016

 

South Korea Lifts Ban on Beef, Veal Imports From Canada

 


 

US CONGRESS, another failed entity...tss

 

Tuesday, December 29, 2015

 

*** Congress repeals country-of-origin labeling rule for beef and pork

 


 

December 28, 2015 at 2:21am

 

*** Australian government assessing risk of importing beef from US, Japan and the Netherlands

 


 

Thursday, December 24, 2015

 

Infectious disease spread is fueled by international trade

 


 

*** you can find some history of the BSE cases in Canada and Klein’s BSE SSS policy comment here ;

 


 

Tuesday, August 12, 2014

 

MAD COW USDA TSE PRION COVER UP or JUST IGNORANCE, for the record AUGUST 2014

 


 

Saturday, December 12, 2015

 

*** BOVINE SPONGIFORM ENCEPHALOPATHY BSE TSE PRION REPORT DECEMBER 14, 2015

 


 

*** Needless conflict ***

 

Nature 485, 279–280 (17 May 2012) doi:10.1038/485279b

 

Published online 16 May 2012

 

Terry S. Singeltary Sr. said:

 

I kindly wish to submit the following please ;

 


 

Research Project: TRANSMISSION, DIFFERENTIATION, AND PATHOBIOLOGY OF TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHIES

 

Title: Transmission of scrapie prions to primate after an extended silent incubation period

 

Authors

 

item Comoy, Emmanuel - item Mikol, Jacqueline - item Luccantoni-Freire, Sophie - item Correia, Evelyne - item Lescoutra-Etchegaray, Nathalie - item Durand, Valérie - item Dehen, Capucine - item Andreoletti, Olivier - item Casalone, Cristina - item Richt, Juergen item Greenlee, Justin item Baron, Thierry - item Benestad, Sylvie - item Hills, Bob - item Brown, Paul - item Deslys, Jean-Philippe -

 

Submitted to: Scientific Reports Publication Type: Peer Reviewed Journal Publication Acceptance Date: May 28, 2015 Publication Date: June 30, 2015 Citation: Comoy, E.E., Mikol, J., Luccantoni-Freire, S., Correia, E., Lescoutra-Etchegaray, N., Durand, V., Dehen, C., Andreoletti, O., Casalone, C., Richt, J.A., Greenlee, J.J., Baron, T., Benestad, S., Brown, P., Deslys, J. 2015. Transmission of scrapie prions to primate after an extended silent incubation period. Scientific Reports. 5:11573.

 

Interpretive Summary:

 

The transmissible spongiform encephalopathies (also called prion diseases) are fatal neurodegenerative diseases that affect animals and humans. The agent of prion diseases is a misfolded form of the prion protein that is resistant to breakdown by the host cells. Since all mammals express prion protein on the surface of various cells such as neurons, all mammals are, in theory, capable of replicating prion diseases. One example of a prion disease, bovine spongiform encephalopathy (BSE; also called mad cow disease), has been shown to infect cattle, sheep, exotic undulates, cats, non-human primates, and humans when the new host is exposed to feeds or foods contaminated with the disease agent. The purpose of this study was to test whether non-human primates (cynomologous macaque) are susceptible to the agent of sheep scrapie. After an incubation period of approximately 10 years a macaque developed progressive clinical signs suggestive of neurologic disease. Upon postmortem examination and microscopic examination of tissues, there was a widespread distribution of lesions consistent with a transmissible spongiform encephalopathy. This information will have a scientific impact since it is the first study that demonstrates the transmission of scrapie to a non-human primate with a close genetic relationship to humans. This information is especially useful to regulatory officials and those involved with risk assessment of the potential transmission of animal prion diseases to humans.

 

Technical Abstract:

 

Classical bovine spongiform encephalopathy (c-BSE) is an animal prion disease that also causes variant Creutzfeldt-Jakob disease in humans. Over the past decades, c-BSE's zoonotic potential has been the driving force in establishing extensive protective measures for animal and human health. In complement to the recent demonstration that humanized mice are susceptible to scrapie, we report here the first observation of direct transmission of a natural classical scrapie isolate to a macaque after a 10-year incubation period. Neuropathologic examination revealed all of the features of a prion disease: spongiform change, neuronal loss, and accumulation of PrPres throughout the CNS.

 

***This observation strengthens the questioning of the harmlessness of scrapie to humans, at a time when protective measures for human and animal health are being dismantled and reduced as c-BSE is considered controlled and being eradicated. Our results underscore the importance of precautionary and protective measures and the necessity for long-term experimental transmission studies to assess the zoonotic potential of other animal prion strains.

 


 

*** Docket No. APHIS-2007-0127 Scrapie in Sheep and Goats Terry Singeltary Sr. Submission ***

 

Docket No. APHIS-2007-0127 Scrapie in Sheep and Goats

 

SUMMARY: We are reopening the comment period for our proposed rule that would revise completely the scrapie regulations, which concern the risk groups and categories established for individual animals and for flocks, the use of genetic testing as a means of assigning risk levels to animals, movement restrictions for animals found to be genetically less susceptible or resistant to scrapie, and recordkeeping requirements. This action will allow interested persons additional time to prepare and submit comments.

 

DATES: The comment period for the proposed rule published on September 10, 2015 (80 FR 54660-54692) is reopened. We will consider all comments that we receive on or before December 9, 2015. ...

 


 


 


 

COMMENT SUBMISSION TERRY S. SINGELTARY SR.

 

WITH regards to Docket No. APHIS-2007-0127 Scrapie in Sheep and Goats, I kindly submit the following ;

 

>>>The last major revision of the scrapie regulations occurred on August 21, 2001, when we published in theFederal Register(66 FR 43964, Docket No. 97-093-5) a final rule amending part 79 by imposing additional restrictions on the interstate movement of sheep and goats.<<<

 

Indeed, much science has changed about the Scrapie TSE prion, including more science linking Scrapie to humans. sadly, politics, industry, and trade, have not changed, and those usually trump sound science, as is the case with all Transmissible Spongiform Encephalopathy TSE Prion disease in livestock producing animals and the OIE. we can look no further at the legal trading of the Scrapie TSE prion both typical and atypical of all strains, and CWD all stains. With as much science of old, and now more new science to back this up, Scrapie of all types i.e. atypical and typical, BSE all strains, and CWD all strains, should be regulated in trade as BSE TSE PRION. In fact, I urge APHIS et al and the OIE, and all trading partners to take heed to the latest science on the TSE prion disease, all of them, and seriously reconsider the blatant disregards for human and animal health, all in the name of trade, with the continued relaxing of TSE Prion trade regulations through the ‘NEGLIGIBLE BSE RISK’ PROGRAM, which was set up to fail in the first place. If the world does not go back to the ‘BSE RISK ASSESSMENTS’, enhance, and or change that assessment process to include all TSE prion disease, i.e. ‘TSE RISK ASSESSMENT’, if we do not do this and if we continue this farce with OIE and the USDA et al, and the ‘NEGLIGIBLE BSE RISK’ PROGRAM, we will never eradicate the TSE prion aka mad cow type disease, they will continue to mutate and spread among species of human and animal origin, and they will continue to kill. ...

 

please see ;

 

O.05: Transmission of prions to primates after extended silent incubation periods: Implications for BSE and scrapie risk assessment in human populations

 

Emmanuel Comoy, Jacqueline Mikol, Valerie Durand, Sophie Luccantoni, Evelyne Correia, Nathalie Lescoutra, Capucine Dehen, and Jean-Philippe Deslys Atomic Energy Commission; Fontenay-aux-Roses, France

 

Prion diseases (PD) are the unique neurodegenerative proteinopathies reputed to be transmissible under field conditions since decades. The transmission of Bovine Spongiform Encephalopathy (BSE) to humans evidenced that an animal PD might be zoonotic under appropriate conditions. Contrarily, in the absence of obvious (epidemiological or experimental) elements supporting a transmission or genetic predispositions, PD, like the other proteinopathies, are reputed to occur spontaneously (atpical animal prion strains, sporadic CJD summing 80% of human prion cases). Non-human primate models provided the first evidences supporting the transmissibiity of human prion strains and the zoonotic potential of BSE. Among them, cynomolgus macaques brought major information for BSE risk assessment for human health (Chen, 2014), according to their phylogenetic proximity to humans and extended lifetime. We used this model to assess the zoonotic potential of other animal PD from bovine, ovine and cervid origins even after very long silent incubation periods.

 

*** We recently observed the direct transmission of a natural classical scrapie isolate to macaque after a 10-year silent incubation period,

 

***with features similar to some reported for human cases of sporadic CJD, albeit requiring fourfold long incubation than BSE. Scrapie, as recently evoked in humanized mice (Cassard, 2014),

 

***is the third potentially zoonotic PD (with BSE and L-type BSE),

 

***thus questioning the origin of human sporadic cases. We will present an updated panorama of our different transmission studies and discuss the implications of such extended incubation periods on risk assessment of animal PD for human health.

 

===============

 

***thus questioning the origin of human sporadic cases***

 

===============

 


 

snip...see ;

 

Monday, November 16, 2015

 

*** Docket No. APHIS-2007-0127 Scrapie in Sheep and Goats Terry Singeltary Sr. Submission ***

 


 


 

==========================================

 

***our findings suggest that possible transmission risk of H-type BSE to sheep and human. Bioassay will be required to determine whether the PMCA products are infectious to these animals.

 

==========================================

 

PRION 2015 CONFERENCE FT. COLLINS CWD RISK FACTORS TO HUMANS

 

*** LATE-BREAKING ABSTRACTS PRION 2015 CONFERENCE ***

 

O18

 

Zoonotic Potential of CWD Prions

 

Liuting Qing1, Ignazio Cali1,2, Jue Yuan1, Shenghai Huang3, Diane Kofskey1, Pierluigi Gambetti1, Wenquan Zou1, Qingzhong Kong1 1Case Western Reserve University, Cleveland, Ohio, USA, 2Second University of Naples, Naples, Italy, 3Encore Health Resources, Houston, Texas, USA

 

*** These results indicate that the CWD prion has the potential to infect human CNS and peripheral lymphoid tissues and that there might be asymptomatic human carriers of CWD infection.

 

==================

 

***These results indicate that the CWD prion has the potential to infect human CNS and peripheral lymphoid tissues and that there might be asymptomatic human carriers of CWD infection.***

 

==================

 

P.105: RT-QuIC models trans-species prion transmission

 

Kristen Davenport, Davin Henderson, Candace Mathiason, and Edward Hoover Prion Research Center; Colorado State University; Fort Collins, CO USA

 

Conversely, FSE maintained sufficient BSE characteristics to more efficiently convert bovine rPrP than feline rPrP. Additionally, human rPrP was competent for conversion by CWD and fCWD.

 

***This insinuates that, at the level of protein:protein interactions, the barrier preventing transmission of CWD to humans is less robust than previously estimated.

 

================

 

***This insinuates that, at the level of protein:protein interactions, the barrier preventing transmission of CWD to humans is less robust than previously estimated.***

 

================

 


 

REPORT OF THE MEETING OF THE OIE TERRESTRIAL ANIMAL HEALTH STANDARDS COMMISSION Paris, 19–28 February 2013

 

In response to a Member Country’s detailed justification for listing of chronic wasting disease of cervids (CWD) against the criteria of Article 1.2.2., the Code Commission recommended this disease be reconsidered for listing.

 


 

CWD TO HUMANS RISK FACTORS STILL IGNORED

 

REPORT OF THE MEETING OF THE OIE TERRESTRIAL ANIMAL HEALTH STANDARDS COMMISSION Paris, 17–26 September 2013

 

Item 5 Criteria for listing diseases (Chapter 1.2.)

 

Comments were received from Australia, EU, Japan, New Zealand, Switzerland, Thailand and AU-IBAR The Code Commission noted a Member Country’s comment suggesting that greater clarity was needed for the term ‘significant morbidity and mortality’. As noted in the February 2013 report, the Code Commission considered that the structured process of listing diseases, first by an expert group whose conclusions are documented and circulated for Member Countries’ review and comment, then consideration by the World Assembly of Delegates before final adoption, is sufficiently rigorous and transparent.

 


 

link updated ;

 

Monday, May 05, 2014

 

Member Country details for listing OIE CWD 2013 against the criteria of Article 1.2.2., the Code Commission recommends consideration for listing

 


 

*** Singeltary submission ;

 

*** Program Standards: Chronic Wasting Disease Herd Certification Program and Interstate Movement of Farmed or Captive Deer, Elk, and Moose

 

*** DOCUMENT ID: APHIS-2006-0118-0411 ***

 

see attachments PDF @ bottom of submission...tss

 


 


 

SCRAPIE TO HUMANS RISK FACTORS STILL IGNORED

 

***This information will have a scientific impact since it is the first study that demonstrates the transmission of scrapie to a non-human primate with a close genetic relationship to humans. This information is especially useful to regulatory officials and those involved with risk assessment of the potential transmission of animal prion diseases to humans.

 

***This observation strengthens the questioning of the harmlessness of scrapie to humans, at a time when protective measures for human and animal health are being dismantled and reduced as c-BSE is considered controlled and being eradicated. Our results underscore the importance of precautionary and protective measures and the necessity for long-term experimental transmission studies to assess the zoonotic potential of other animal prion strains.

 


 

Monday, November 16, 2015

 

*** Docket No. APHIS-2007-0127 Scrapie in Sheep and Goats Terry Singeltary Sr. Submission ***

 


 

98 | Veterinary Record | January 24, 2015

 

EDITORIAL

 

Scrapie: a particularly persistent pathogen

 

Cristina Acín

 

Resistant prions in the environment have been the sword of Damocles for scrapie control and eradication. Attempts to establish which physical and chemical agents could be applied to inactivate or moderate scrapie infectivity were initiated in the 1960s and 1970s,with the first study of this type focusing on the effect of heat treatment in reducing prion infectivity (Hunter and Millson 1964). Nowadays, most of the chemical procedures that aim to inactivate the prion protein are based on the method developed by Kimberlin and collaborators (1983). This procedure consists of treatment with 20,000 parts per million free chlorine solution, for a minimum of one hour, of all surfaces that need to be sterilised (in laboratories, lambing pens, slaughterhouses, and so on). Despite this, veterinarians and farmers may still ask a range of questions, such as ‘Is there an official procedure published somewhere?’ and ‘Is there an international organisation which recommends and defines the exact method of scrapie decontamination that must be applied?’

 

From a European perspective, it is difficult to find a treatment that could be applied, especially in relation to the disinfection of surfaces in lambing pens of affected flocks. A 999/2001 EU regulation on controlling spongiform encephalopathies (European Parliament and Council 2001) did not specify a particular decontamination measure to be used when an outbreak of scrapie is diagnosed. There is only a brief recommendation in Annex VII concerning the control and eradication of transmissible spongiform encephalopathies (TSE s).

 

Chapter B of the regulation explains the measures that must be applied if new caprine animals are to be introduced to a holding where a scrapie outbreak has previously been diagnosed. In that case, the statement indicates that caprine animals can be introduced ‘provided that a cleaning and disinfection of all animal housing on the premises has been carried out following destocking’.

 

Issues around cleaning and disinfection are common in prion prevention recommendations, but relevant authorities, veterinarians and farmers may have difficulties in finding the specific protocol which applies. The European Food and Safety Authority (EFSA ) published a detailed report about the efficacy of certain biocides, such as sodium hydroxide, sodium hypochlorite, guanidine and even a formulation of copper or iron metal ions in combination with hydrogen peroxide, against prions (EFSA 2009). The report was based on scientific evidence (Fichet and others 2004, Lemmer and others 2004, Gao and others 2006, Solassol and others 2006) but unfortunately the decontamination measures were not assessed under outbreak conditions.

 

The EFSA Panel on Biological Hazards recently published its conclusions on the scrapie situation in the EU after 10 years of monitoring and control of the disease in sheep and goats (EFSA 2014), and one of the most interesting findings was the Icelandic experience regarding the effect of disinfection in scrapie control. The Icelandic plan consisted of: culling scrapie-affected sheep or the whole flock in newly diagnosed outbreaks; deep cleaning and disinfection of stables, sheds, barns and equipment with high pressure washing followed by cleaning with 500 parts per million of hypochlorite; drying and treatment with 300 ppm of iodophor; and restocking was not permitted for at least two years. Even when all of these measures were implemented, scrapie recurred on several farms, indicating that the infectious agent survived for years in the environment, even as many as 16 years after restocking (Georgsson and others 2006).

 

In the rest of the countries considered in the EFSA (2014) report, recommendations for disinfection measures were not specifically defined at the government level. In the report, the only recommendation that is made for sheep is repopulation with sheep with scrapie-resistant genotypes. This reduces the risk of scrapie recurrence but it is difficult to know its effect on the infection.

 

Until the EFSA was established (in May 2003), scientific opinions about TSE s were provided by the Scientific Steering Committee (SSC) of the EC, whose advice regarding inactivation procedures focused on treating animal waste at high temperatures (150°C for three hours) and high pressure alkaline hydrolysis (SSC 2003). At the same time, the TSE Risk Management Subgroup of the Advisory Committee on Dangerous Pathogens (ACDP) in the UK published guidance on safe working and the prevention of TSE infection. Annex C of the ACDP report established that sodium hypochlorite was considered to be effective, but only if 20,000 ppm of available chlorine was present for at least one hour, which has practical limitations such as the release of chlorine gas, corrosion, incompatibility with formaldehyde, alcohols and acids, rapid inactivation of its active chemicals and the stability of dilutions (ACDP 2009).

 

In an international context, the World Organisation for Animal Health (OIE) does not recommend a specific disinfection protocol for prion agents in its Terrestrial Code or Manual. Chapter 4.13 of the Terrestrial Code, General recommendations on disinfection and disinsection (OIE 2014), focuses on foot-and-mouth disease virus, mycobacteria and Bacillus anthracis, but not on prion disinfection. Nevertheless, the last update published by the OIE on bovine spongiform encephalopathy (OIE 2012) indicates that few effective decontamination techniques are available to inactivate the agent on surfaces, and recommends the removal of all organic material and the use of sodium hydroxide, or a sodium hypochlorite solution containing 2 per cent available chlorine, for more than one hour at 20ºC.

 

The World Health Organization outlines guidelines for the control of TSE s, and also emphasises the importance of mechanically cleaning surfaces before disinfection with sodium hydroxide or sodium hypochlorite for one hour (WHO 1999).

 

Finally, the relevant agencies in both Canada and the USA suggest that the best treatments for surfaces potentially contaminated with prions are sodium hydroxide or sodium hypochlorite at 20,000 ppm. This is a 2 per cent solution, while most commercial household bleaches contain 5.25 per cent sodium hypochlorite. It is therefore recommended to dilute one part 5.25 per cent bleach with 1.5 parts water (CDC 2009, Canadian Food Inspection Agency 2013).

 

So what should we do about disinfection against prions? First, it is suggested that a single protocol be created by international authorities to homogenise inactivation procedures and enable their application in all scrapie-affected countries. Sodium hypochlorite with 20,000 ppm of available chlorine seems to be the procedure used in most countries, as noted in a paper summarised on p 99 of this issue of Veterinary Record (Hawkins and others 2015). But are we totally sure of its effectiveness as a preventive measure in a scrapie outbreak? Would an in-depth study of the recurrence of scrapie disease be needed?

 

What we can conclude is that, if we want to fight prion diseases, and specifically classical scrapie, we must focus on the accuracy of diagnosis, monitoring and surveillance; appropriate animal identification and control of movements; and, in the end, have homogeneous and suitable protocols to decontaminate and disinfect lambing barns, sheds and equipment available to veterinarians and farmers. Finally, further investigations into the resistance of prion proteins in the diversity of environmental surfaces are required.

 

References

 

snip...

 

98 | Veterinary Record | January 24, 2015

 


 

*** These results suggest that AA fibrils are relatively heat stable and that similar to prions, autoclaving at 135 °C is required to destroy the pathogenicity of AA fibrils.

 

*** These findings may contribute to the prevention of AA fibril transmission through food materials to different animals and especially to humans.

 

New studies on the heat resistance of hamster-adapted scrapie agent: Threshold survival after ashing at 600°C suggests an inorganic template of replication

 

The infectious agents responsible for transmissible spongiform encephalopathy (TSE) are notoriously resistant to most physical and chemical methods used for inactivating pathogens, including heat. It has long been recognized, for example, that boiling is ineffective and that higher temperatures are most efficient when combined with steam under pressure (i.e., autoclaving). As a means of decontamination, dry heat is used only at the extremely high temperatures achieved during incineration, usually in excess of 600°C. It has been assumed, without proof, that incineration totally inactivates the agents of TSE, whether of human or animal origin.

 


 

Prion Infected Meat-and-Bone Meal Is Still Infectious after Biodiesel Production

 

Histochemical analysis of hamster brains inoculated with the solid residue showed typical spongiform degeneration and vacuolation. Re-inoculation of these brains into a new cohort of hamsters led to onset of clinical scrapie symptoms within 75 days, suggesting that the specific infectivity of the prion protein was not changed during the biodiesel process. The biodiesel reaction cannot be considered a viable prion decontamination method for MBM, although we observed increased survival time of hamsters and reduced infectivity greater than 6 log orders in the solid MBM residue. Furthermore, results from our study compare for the first time prion detection by Western Blot versus an infectivity bioassay for analysis of biodiesel reaction products. We could show that biochemical analysis alone is insufficient for detection of prion infectivity after a biodiesel process.

 


 

Detection of protease-resistant cervid prion protein in water from a CWD-endemic area

 

The data presented here demonstrate that sPMCA can detect low levels of PrPCWD in the environment, corroborate previous biological and experimental data suggesting long term persistence of prions in the environment2,3 and imply that PrPCWD accumulation over time may contribute to transmission of CWD in areas where it has been endemic for decades. This work demonstrates the utility of sPMCA to evaluate other environmental water sources for PrPCWD, including smaller bodies of water such as vernal pools and wallows, where large numbers of cervids congregate and into which prions from infected animals may be shed and concentrated to infectious levels.

 


 

A Quantitative Assessment of the Amount of Prion Diverted to Category 1 Materials and Wastewater During Processing

 

Keywords:Abattoir;bovine spongiform encephalopathy;QRA;scrapie;TSE

 

In this article the development and parameterization of a quantitative assessment is described that estimates the amount of TSE infectivity that is present in a whole animal carcass (bovine spongiform encephalopathy [BSE] for cattle and classical/atypical scrapie for sheep and lambs) and the amounts that subsequently fall to the floor during processing at facilities that handle specified risk material (SRM). BSE in cattle was found to contain the most oral doses, with a mean of 9864 BO ID50s (310, 38840) in a whole carcass compared to a mean of 1851 OO ID50s (600, 4070) and 614 OO ID50s (155, 1509) for a sheep infected with classical and atypical scrapie, respectively. Lambs contained the least infectivity with a mean of 251 OO ID50s (83, 548) for classical scrapie and 1 OO ID50s (0.2, 2) for atypical scrapie. The highest amounts of infectivity falling to the floor and entering the drains from slaughtering a whole carcass at SRM facilities were found to be from cattle infected with BSE at rendering and large incineration facilities with 7.4 BO ID50s (0.1, 29), intermediate plants and small incinerators with a mean of 4.5 BO ID50s (0.1, 18), and collection centers, 3.6 BO ID50s (0.1, 14). The lowest amounts entering drains are from lambs infected with classical and atypical scrapie at intermediate plants and atypical scrapie at collection centers with a mean of 3 × 10−7 OO ID50s (2 × 10−8, 1 × 10−6) per carcass. The results of this model provide key inputs for the model in the companion paper published here.

 


 

*** Infectious agent of sheep scrapie may persist in the environment for at least 16 years ***

 

Gudmundur Georgsson1, Sigurdur Sigurdarson2 and Paul Brown3

 


 

PL1

 

Using in vitro prion replication for high sensitive detection of prions and prionlike proteins and for understanding mechanisms of transmission.

 

Claudio Soto

 

Mitchell Center for Alzheimer's diseases and related Brain disorders, Department of Neurology, University of Texas Medical School at Houston.

 

Prion and prion-like proteins are misfolded protein aggregates with the ability to selfpropagate to spread disease between cells, organs and in some cases across individuals. I n T r a n s m i s s i b l e s p o n g i f o r m encephalopathies (TSEs), prions are mostly composed by a misfolded form of the prion protein (PrPSc), which propagates by transmitting its misfolding to the normal prion protein (PrPC). The availability of a procedure to replicate prions in the laboratory may be important to study the mechanism of prion and prion-like spreading and to develop high sensitive detection of small quantities of misfolded proteins in biological fluids, tissues and environmental samples. Protein Misfolding Cyclic Amplification (PMCA) is a simple, fast and efficient methodology to mimic prion replication in the test tube. PMCA is a platform technology that may enable amplification of any prion-like misfolded protein aggregating through a seeding/nucleation process. In TSEs, PMCA is able to detect the equivalent of one single molecule of infectious PrPSc and propagate prions that maintain high infectivity, strain properties and species specificity. Using PMCA we have been able to detect PrPSc in blood and urine of experimentally infected animals and humans affected by vCJD with high sensitivity and specificity. Recently, we have expanded the principles of PMCA to amplify amyloid-beta (Aβ) and alphasynuclein (α-syn) aggregates implicated in Alzheimer's and Parkinson's diseases, respectively. Experiments are ongoing to study the utility of this technology to detect Aβ and α-syn aggregates in samples of CSF and blood from patients affected by these diseases.

 

=========================

 

***Recently, we have been using PMCA to study the role of environmental prion contamination on the horizontal spreading of TSEs. These experiments have focused on the study of the interaction of prions with plants and environmentally relevant surfaces. Our results show that plants (both leaves and roots) bind tightly to prions present in brain extracts and excreta (urine and feces) and retain even small quantities of PrPSc for long periods of time. Strikingly, ingestion of prioncontaminated leaves and roots produced disease with a 100% attack rate and an incubation period not substantially longer than feeding animals directly with scrapie brain homogenate. Furthermore, plants can uptake prions from contaminated soil and transport them to different parts of the plant tissue (stem and leaves). Similarly, prions bind tightly to a variety of environmentally relevant surfaces, including stones, wood, metals, plastic, glass, cement, etc. Prion contaminated surfaces efficiently transmit prion disease when these materials were directly injected into the brain of animals and strikingly when the contaminated surfaces were just placed in the animal cage. These findings demonstrate that environmental materials can efficiently bind infectious prions and act as carriers of infectivity, suggesting that they may play an important role in the horizontal transmission of the disease.

 

========================

 

Since its invention 13 years ago, PMCA has helped to answer fundamental questions of prion propagation and has broad applications in research areas including the food industry, blood bank safety and human and veterinary disease diagnosis.

 


 

Wednesday, December 16, 2015

 

Objects in contact with classical scrapie sheep act as a reservoir for scrapie transmission

 

Objects in contact with classical scrapie sheep act as a reservoir for scrapie transmission

 

Timm Konold1*, Stephen A. C. Hawkins2, Lisa C. Thurston3, Ben C. Maddison4, Kevin C. Gough5, Anthony Duarte1 and Hugh A. Simmons1

 

1 Animal Sciences Unit, Animal and Plant Health Agency Weybridge, Addlestone, UK, 2 Pathology Department, Animal and Plant Health Agency Weybridge, Addlestone, UK, 3 Surveillance and Laboratory Services, Animal and Plant Health Agency Penrith, Penrith, UK, 4 ADAS UK, School of Veterinary Medicine and Science, University of Nottingham, Sutton Bonington, UK, 5 School of Veterinary Medicine and Science, University of Nottingham, Sutton Bonington, UK

 

Classical scrapie is an environmentally transmissible prion disease of sheep and goats. Prions can persist and remain potentially infectious in the environment for many years and thus pose a risk of infecting animals after re-stocking. In vitro studies using serial protein misfolding cyclic amplification (sPMCA) have suggested that objects on a scrapie affected sheep farm could contribute to disease transmission. This in vivo study aimed to determine the role of field furniture (water troughs, feeding troughs, fencing, and other objects that sheep may rub against) used by a scrapie-infected sheep flock as a vector for disease transmission to scrapie-free lambs with the prion protein genotype VRQ/VRQ, which is associated with high susceptibility to classical scrapie. When the field furniture was placed in clean accommodation, sheep became infected when exposed to either a water trough (four out of five) or to objects used for rubbing (four out of seven). This field furniture had been used by the scrapie-infected flock 8 weeks earlier and had previously been shown to harbor scrapie prions by sPMCA. Sheep also became infected (20 out of 23) through exposure to contaminated field furniture placed within pasture not used by scrapie-infected sheep for 40 months, even though swabs from this furniture tested negative by PMCA. This infection rate decreased (1 out of 12) on the same paddock after replacement with clean field furniture. Twelve grazing sheep exposed to field furniture not in contact with scrapie-infected sheep for 18 months remained scrapie free. The findings of this study highlight the role of field furniture used by scrapie-infected sheep to act as a reservoir for disease re-introduction although infectivity declines considerably if the field furniture has not been in contact with scrapie-infected sheep for several months. PMCA may not be as sensitive as VRQ/VRQ sheep to test for environmental contamination.

 

snip...

 

Discussion

 

Classical scrapie is an environmentally transmissible disease because it has been reported in naïve, supposedly previously unexposed sheep placed in pastures formerly occupied by scrapie-infected sheep (4, 19, 20). Although the vector for disease transmission is not known, soil is likely to be an important reservoir for prions (2) where – based on studies in rodents – prions can adhere to minerals as a biologically active form (21) and remain infectious for more than 2 years (22). Similarly, chronic wasting disease (CWD) has re-occurred in mule deer housed in paddocks used by infected deer 2 years earlier, which was assumed to be through foraging and soil consumption (23).

 

Our study suggested that the risk of acquiring scrapie infection was greater through exposure to contaminated wooden, plastic, and metal surfaces via water or food troughs, fencing, and hurdles than through grazing. Drinking from a water trough used by the scrapie flock was sufficient to cause infection in sheep in a clean building. Exposure to fences and other objects used for rubbing also led to infection, which supported the hypothesis that skin may be a vector for disease transmission (9). The risk of these objects to cause infection was further demonstrated when 87% of 23 sheep presented with PrPSc in lymphoid tissue after grazing on one of the paddocks, which contained metal hurdles, a metal lamb creep and a water trough in contact with the scrapie flock up to 8 weeks earlier, whereas no infection had been demonstrated previously in sheep grazing on this paddock, when equipped with new fencing and field furniture. When the contaminated furniture and fencing were removed, the infection rate dropped significantly to 8% of 12 sheep, with soil of the paddock as the most likely source of infection caused by shedding of prions from the scrapie-infected sheep in this paddock up to a week earlier.

 

This study also indicated that the level of contamination of field furniture sufficient to cause infection was dependent on two factors: stage of incubation period and time of last use by scrapie-infected sheep. Drinking from a water trough that had been used by scrapie sheep in the predominantly pre-clinical phase did not appear to cause infection, whereas infection was shown in sheep drinking from the water trough used by scrapie sheep in the later stage of the disease. It is possible that contamination occurred through shedding of prions in saliva, which may have contaminated the surface of the water trough and subsequently the water when it was refilled. Contamination appeared to be sufficient to cause infection only if the trough was in contact with sheep that included clinical cases. Indeed, there is an increased risk of bodily fluid infectivity with disease progression in scrapie (24) and CWD (25) based on PrPSc detection by sPMCA. Although ultraviolet light and heat under natural conditions do not inactivate prions (26), furniture in contact with the scrapie flock, which was assumed to be sufficiently contaminated to cause infection, did not act as vector for disease if not used for 18 months, which suggest that the weathering process alone was sufficient to inactivate prions.

 

PrPSc detection by sPMCA is increasingly used as a surrogate for infectivity measurements by bioassay in sheep or mice. In this reported study, however, the levels of PrPSc present in the environment were below the limit of detection of the sPMCA method, yet were still sufficient to cause infection of in-contact animals. In the present study, the outdoor objects were removed from the infected flock 8 weeks prior to sampling and were positive by sPMCA at very low levels (2 out of 37 reactions). As this sPMCA assay also yielded 2 positive reactions out of 139 in samples from the scrapie-free farm, the sPMCA assay could not detect PrPSc on any of the objects above the background of the assay. False positive reactions with sPMCA at a low frequency associated with de novo formation of infectious prions have been reported (27, 28). This is in contrast to our previous study where we demonstrated that outdoor objects that had been in contact with the scrapie-infected flock up to 20 days prior to sampling harbored PrPSc that was detectable by sPMCA analysis [4 out of 15 reactions (12)] and was significantly more positive by the assay compared to analogous samples from the scrapie-free farm. This discrepancy could be due to the use of a different sPMCA substrate between the studies that may alter the efficiency of amplification of the environmental PrPSc. In addition, the present study had a longer timeframe between the objects being in contact with the infected flock and sampling, which may affect the levels of extractable PrPSc. Alternatively, there may be potentially patchy contamination of this furniture with PrPSc, which may have been missed by swabbing. The failure of sPMCA to detect CWD-associated PrP in saliva from clinically affected deer despite confirmation of infectivity in saliva-inoculated transgenic mice was associated with as yet unidentified inhibitors in saliva (29), and it is possible that the sensitivity of sPMCA is affected by other substances in the tested material. In addition, sampling of amplifiable PrPSc and subsequent detection by sPMCA may be more difficult from furniture exposed to weather, which is supported by the observation that PrPSc was detected by sPMCA more frequently in indoor than outdoor furniture (12). A recent experimental study has demonstrated that repeated cycles of drying and wetting of prion-contaminated soil, equivalent to what is expected under natural weathering conditions, could reduce PMCA amplification efficiency and extend the incubation period in hamsters inoculated with soil samples (30). This seems to apply also to this study even though the reduction in infectivity was more dramatic in the sPMCA assays than in the sheep model. Sheep were not kept until clinical end-point, which would have enabled us to compare incubation periods, but the lack of infection in sheep exposed to furniture that had not been in contact with scrapie sheep for a longer time period supports the hypothesis that prion degradation and subsequent loss of infectivity occurs even under natural conditions.

 

In conclusion, the results in the current study indicate that removal of furniture that had been in contact with scrapie-infected animals should be recommended, particularly since cleaning and decontamination may not effectively remove scrapie infectivity (31), even though infectivity declines considerably if the pasture and the field furniture have not been in contact with scrapie-infected sheep for several months. As sPMCA failed to detect PrPSc in furniture that was subjected to weathering, even though exposure led to infection in sheep, this method may not always be reliable in predicting the risk of scrapie infection through environmental contamination. These results suggest that the VRQ/VRQ sheep model may be more sensitive than sPMCA for the detection of environmentally associated scrapie, and suggest that extremely low levels of scrapie contamination are able to cause infection in susceptible sheep genotypes.

 

Keywords: classical scrapie, prion, transmissible spongiform encephalopathy, sheep, field furniture, reservoir, serial protein misfolding cyclic amplification

 


 

Wednesday, December 16, 2015

 

*** Objects in contact with classical scrapie sheep act as a reservoir for scrapie transmission

 


 

Monday, January 4, 2016

 

Long live the OIE, or time to close the doors on a failed entity?

 


 

Saturday, December 12, 2015

 

CHRONIC WASTING DISEASE CWD TSE PRION REPORT DECEMBER 14, 2015

 


 

TEXAS MONTHLY CHRONIC WASTING DISEASE CWD JANUARY 2016 DEER BREEDERS STILL DON'T GET IT $

 

Chronic Wasting Unease

 

The emergence of a deadly disease has wildlife officials and deer breeders eyeing each other suspiciously.

 


 

Subject: Bayesian Modeling of Prion Disease Dynamics in Mule Deer Using Population Monitoring and Capture-Recapture Data

 

To date, we are unaware of a study that documents a decrease in CWD prevalence over time in mule deer, white-tailed deer or elk. We briefly consider three plausible explanations for our findings: a) that natural oscillations occur in CWD outbreaks; b) that the outbreak has peaked and is declining to a lower endemic level; or c) that previous management actions were more successful at suppressing the outbreak than originally believed.

 

Sharp & Pastor [41] illustrated that CWD outbreaks may play out as a series of reoccurring epidemics characterized by either stable limit cycles or oscillations that may dampen or amplify as a function of deer density. If this is the case, we would expect today’s declining deer population to feedback on conditions–lowering transmission rates leading to reduced CWD effects and a growing population. Increasing abundance would support higher transmission rates, deer decline, and oscillations of CWD prevalence and deer. Alternatively, Almberg et al. [21] (see also [22–24,41,42]) suggested that CWD outbreaks could reach endemic equilibrium characterized by coexistence of a smaller deer population and CWD. Under these scenarios, population prevalence would reach a lower, constant level after a period of high prevalence and deer decline.

 

Although neither of the foregoing scenarios can be dismissed completely, invoking them ignores the extensive management of this deer population that occurred in the years between the two time points we chose as the basis for our analyses. Management aimed to reduce CWD transmission between 2000 and 2005, which included a combination of (crude and unpopular) focal culling and a broader increase in female harvest, decreased overall deer abundance by about 25%. Analyses carried out shortly after suggested that reductions in deer density had made little impact on CWD prevalence [10]. However, our current findings suggest that these management actions may indeed have attenuated the outbreak. Observed dynamics over the last decade closely approximate those predicted from models by Wild et al. [42] that included a substantial amount of selective predation on CWD-infected individuals. That harvest could be a source of selective mortality is supported by an early notion that CWD-infected deer might be more vulnerable to harvest [43], just as infected deer also appear to be more vulnerable to vehicle collisions and predation [20,33,44]. This offers the possibility that hunting could be used as a more tightly controlled substitute for predation in studies of system responses with CWD and perhaps other similar diseases.

 

The protracted time-scale of the CWD outbreak is much longer than the timespan of our research, which limits our ability to identify the true explanation of our findings. Nonetheless, our research suggests that, at least for the foreseeable future (e.g., decades), mule deer populations sharing the overall survival and infection probabilities estimated from our analyses may persist but likely will not thrive where CWD becomes established as an endemic infectious disease.

 


 

‘’Nonetheless, our research suggests that, at least for the foreseeable future (e.g., decades), mule deer populations sharing the overall survival and infection probabilities estimated from our analyses may persist but likely will not thrive where CWD becomes established as an endemic infectious disease. ‘’

 

*** Bayesian Modeling of Prion Disease Dynamics in Mule Deer Using Population Monitoring and Capture-Recapture Data

 

‘’Mountain lions prey selectively on CWD infected deer [33] and CWD could result in an abundance of vulnerable prey, thereby enhancing mountain lion survival and reproduction [20].’’

 

please see ;

 

‘’preliminary results suggesting that bobcats (Lynx rufus) may be susceptible to white-tailed deer (Odocoileus virginianus) chronic wasting disease agent.’’

 

references on Feline Spongiform Encephalopathy FSE toward the bottom, see ;

 

Assessing Transmissible Spongiform Encephalopathy Species Barriers with an In Vitro Prion Protein Conversion Assay

 

Friday, January 01, 2016

 

Bayesian Modeling of Prion Disease Dynamics in Mule Deer Using Population Monitoring and Capture-Recapture Data

 


 

Saturday, December 12, 2015

 

CHRONIC WASTING DISEASE CWD TSE PRION REPORT DECEMBER 14, 2015

 


 

Wednesday, December 30, 2015

 

Michigan Deer suspected positive for CWD found in Watertown Township; Jan. 12 public meeting set

 


 

TEXAS MONTHLY CHRONIC WASTING DISEASE CWD JANUARY 2016 DEER BREEDERS STILL DON'T GET IT $

 

Chronic Wasting Unease

 

The emergence of a deadly disease has wildlife officials and deer breeders eyeing each other suspiciously.

 


 

Wednesday, December 16, 2015

 

Objects in contact with classical scrapie sheep act as a reservoir for scrapie transmission

 


 

Saturday, December 12, 2015

 

CREUTZFELDT JAKOB DISEASE CJD TSE PRION REPORT DECEMBER 14, 2015

 


 

MOM

 

Thursday, December 24, 2015

 

Revisiting the Heidenhain Variant of Creutzfeldt-Jakob Disease: Evidence for Prion Type Variability Influencing Clinical Course and Laboratory Findings

 

Article type: Research Article

 


 

Evidence for human transmission of amyloid-β pathology and cerebral amyloid angiopathy

 


 

07 02:27 AM

 

Terry S. Singeltary Sr. said:

 

re-Evidence for human transmission of amyloid-? pathology and cerebral amyloid angiopathy

 

Nature 525, 247?250 (10 September 2015) doi:10.1038/nature15369 Received 26 April 2015 Accepted 14 August 2015 Published online 09 September 2015 Updated online 11 September 2015 Erratum (October, 2015)

 


 

*** I would kindly like to comment on the Nature Paper, the Lancet reply, and the newspaper articles.

 

snip...see full text ;

 


 

Subject: 1992 IN CONFIDENCE TRANSMISSION OF ALZHEIMER TYPE PLAQUES TO PRIMATES POSSIBILITY ON A TRANSMISSIBLE PRION REMAINS OPEN

 

BSE101/1 0136

 

IN CONFIDENCE

 

CMO

 

From: . Dr J S Metiers DCMO

 

4 November 1992

 

TRANSMISSION OF ALZHEIMER TYPE PLAQUES TO PRIMATES

 

1. Thank you for showing me Diana Dunstan's letter. I am glad that MRC have recognised the public sensitivity of these findings and intend to report them in their proper context. 'This hopefully will avoid misunderstanding and possible distortion by the media to portray the results as having more greater significance than the findings so far justify.

 

2. Using a highly unusual route of transmission (intra-cerebral injection) the researchers have demonstrated the transmission of a pathological process from two cases one of severe Alzheimer's disease the other of Gerstmann-Straussler disease to marmosets. However they have not demonstrated the transmission of either clinical condition as the "animals were behaving normally when killed". As the report emphasises the unanswered question is whether the disease condition would have revealed itself if the marmosets had lived longer. They are planning further research to see if the conditions, as opposed to the partial pathological process, is transmissible.

 

what are the implications for public health?

 

3. The route 'of transmission is very specific and in the natural state of things highly unusual. However it could be argued that the results reveal a potential risk, in that brain tissue from these two patients has been shown to transmit a pathological process. Should therefore brain tissue from such cases be regarded as potentially infective? Pathologists, morticians, neuro surgeons and those assisting at neuro surgical procedures and others coming into contact with "raw" human brain tissue could in theory be at risk. However, on a priori grounds given the highly specific route of transmission in these experiments that risk must be negligible if the usual precautions for handling brain tissue are observed.

 

1

 

92/11.4/1.1

 

BSE101/1 0137

 

4. The other dimension to consider is the public reaction. To some extent the GSS case demonstrates little more than the transmission of BSE to a pig by intra-cerebral injection. If other prion diseases can be transmitted in this way it is little surprise that some pathological findings observed in GSS were also transmissible to a marmoset. But the transmission of features of Alzheimer's pathology is a different matter, given the much greater frequency of this disease and raises the unanswered question whether some cases are the result of a transmissible prion. The only tenable public line will be that "more research is required’’ before that hypothesis could be evaluated. The possibility on a transmissible prion remains open. In the meantime MRC needs carefully to consider the range and sequence of studies needed to follow through from the preliminary observations in these two cases. Not a particularly comfortable message, but until we know more about the causation of Alzheimer's disease the total reassurance is not practical.

 

J S METTERS Room 509 Richmond House Pager No: 081-884 3344 Callsign: DOH 832 llllYc!eS 2 92/11.4/1.2

 


 

>>> The only tenable public line will be that "more research is required’’ <<<

 

>>> possibility on a transmissible prion remains open<<<

 

O.K., so it’s about 23 years later, so somebody please tell me, when is "more research is required’’ enough time for evaluation ?

 

Self-Propagative Replication of Ab Oligomers Suggests Potential Transmissibility in Alzheimer Disease

 

Received July 24, 2014; Accepted September 16, 2014; Published November 3, 2014

 


 

*** Singeltary comment PLoS ***

 

Alzheimer’s disease and Transmissible Spongiform Encephalopathy prion disease, Iatrogenic, what if ?

 

Posted by flounder on 05 Nov 2014 at 21:27 GMT

 


 

Terry S. Singeltary Sr.


P.S.


ANIMAL HEALTH REPORT 2006 (BSE h-BASE ALABAMA) BLOG URL CHANGE

 

Wednesday, March 26, 2008

 

MAD COW DISEASE terminology UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE

 


 

Thursday, January 3, 2008

 

ANIMAL HEALTH REPORT 2006 (BSE h-BASE EVENT IN ALABAMA, Scrapie, and CWD)

 


 

***  NEW URL STARTING HERE ;

 
Thursday, January 14, 2016

 

EMERGING ANIMAL DISEASES Actions Needed to Better Position USDA to Address Future Risks Report to the Chairman, Committee on Energy and Commerce, House of Representatives December 2015 GAO-16-132

 

GAO

 


 

 

Terry S. Singeltary Sr.

Wednesday, March 26, 2008

MAD COW DISEASE terminology UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE

Wednesday, March 26, 2008

MAD COW DISEASE terminology UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE Sunday, March 16, 2008

MAD COW DISEASE terminology UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE


Greetings,

I thought i might try and sort things out about this a bit. Some folks seem to be a bit confused,(confusious included has been confused a time or two to be sure). but i think some clarification needs to be done. you can interpret it the way you want. i have my opinions on why i interpret the science one way, you may have yours. here goes ;

WE first heard of the atypical called BASE Bovine Amyloidotic Spongiform Encephalopathy (Italy), and it was said then that the molecular signature of this previously undescribed bovine PrPSc was similar to that encountered in a distinct subtype of sporadic Creutzfeldt-Jakob disease. The Italian BASE Bovine Amyloidotic Spongiform Encephalopathy termed that due to the 'amyloid plaques'.

THIS is where i start to have problems with the term. if you will recall, the first ten nvCJD in young adolescents, 'amyloid plaques' were used then to differentiate between the sporadic CJDs and nvCJD, UNTIL the 'amyloid plaques' stared showing up in some sporadic CJDs. now (10%) amyloid deposits, called prion protein (PrP) amyloid plaques, may be observed in sporadic CJD.

ALSO, with the BASE, you will find that some want to hypothesize that the BASE is just BSE in older cattle.

well, if that was the case, then would not sporadic CJD be just nvCJD in old people?

ALSO, it was said that nvCJD was only in the young. this too was part of a diagnostic criteria to differentiate between the nvCJD and sporadic CJDs, until sCJD started showing up in young adolescents.

ALSO, it was said that only the nvCJD have long incubation period, this too was part of diagnostic criteria to differentiate between the nvCJD and sporadic CJDs, until the long incubation started showing up in some sporadic CJDs.

ALSO, it was said that on the nvCJD victims had psychological mental symptoms, not the sporadic CJDs, that too until the psychological and mental symptoms started showing up in some of the sporadic CJDs.

FOR these reasons, I cannot accept that the difference in bands and mass (heavier or lighter), are the meaning of another different strain differentiating between UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE.

I think i might be partly to blame for the confusion, because sometimes i will use BASE, and sometimes i will use atypical BSE, h or l. same with the nvCJD, i still catch myself using that term, as opposed to the newest terminology of vCJD.

kind regards, terry



http://downercattle.blogspot.com/2008/03/mad-cow-disease-typical-vs-atypical.html



http://downercattle.blogspot.com/



SEE FULL TEXT WITH SOURCES


Sunday, March 16, 2008


MAD COW DISEASE terminology UK c-BSE (typical), atypical BSE H or L, and or Italian L-BASE



http://bse-atypical.blogspot.com/2008/03/mad-cow-disease-terminology-uk-c-bse.html




SEE UPDATE MAY 2009


Monday, May 11, 2009 Rare BSE mutation raises concerns over risks to public health



http://bse-atypical.blogspot.com/2009/05/rare-bse-mutation-raises-concerns-over.html




Sunday, May 10, 2009


Identification and characterization of bovine spongiform encephalopathy cases diagnosed and not diagnosed in the United States



http://bse-atypical.blogspot.com/2009/05/identification-and-characterization-of.html




TSS

Thursday, January 3, 2008

ANIMAL HEALTH REPORT 2006 (BSE h-BASE EVENT IN ALABAMA, Scrapie, and CWD)

ANIMAL HEALTH REPORT 2006 (BSE h-BASE EVENT IN ALABAMA, Scrapie, and CWD)


snip...


BSE Case in Alabama

On March 15, 2006, USDA–APHIS confirmed that a sample from an Alabama cow tested positive for BSE. The cow was euthanized and buried on the farm and did not enter the animal feed or human food supply.APHIS and the U.S. Department of Health and Human Services’ Food and Drug Administration (FDA) completed their investigations in collaboration with the Alabama Department of Agriculture and Industries. The animal tested positive on the World Animal Health Organization (OIE)-recognized scrapie-associated fibrils immunoblot test, often referred to as the Western blot, and by immunohistochemistry. Tests were conducted at the USDA–Agricultural Research Service’s National Animal Disease Center and APHIS’ National Veterinary Services Laboratories (NVSL) in Ames, IA.USDA’s investigations indicated that the positive animal, the index animal, was a red crossbreed. The cow was nonambulatory on the farm and was examined and treated by a local, private veterinarian. The following day, the cow remained nonambulatory. The veterinarian euthanized the animal and collected a sample, which was submitted for BSE testing. The animal was then buried on the farm.The age of the affected cow was determined through dentition to be more than 10 years at the time of death; therefore, she was born prior to the FDA’s ban on feeding recycled ruminant protein to other ruminants. FDA implemented the ban in 1997 to help minimize the risk that a cow may consume feed contaminated with the agent thought to cause BSE.APHIS and Alabama State officials investigated 36 farms and 5 auction houses and conducted DNA testing on herds that may have included relatives of the index animal. APHIS and State investigators were unable to find any related animals except for the two most recent calves of the index animal. The most recent calf was located at the same farm as the index animal; the second calf died in 2005. No other animals of interest were located. The living calf of the BSE-positive animal is currently being held at the NVSL for observation.APHIS’ investigation did not reveal the BSE-positive animal’s herd of origin. Experience worldwide has shown that it is highly unusual to find BSE in multiple animals in a herd or in an affected animal’s offspring.The FDA conducted an investigation into local feed mills that may have supplied feed to the index animal after the 1997 feed ban was implemented. This investigation showed that adequate controls were in place in feed facilities in the immediate geographic area of the index farm and that local feed mills that handle prohibited materials were in compliance with FDA’s feed ban.

snip...

BSE Surveillance—When veterinarians examine cattle and find central nervous system (CNS) signs, such as changes in temperament, abnormal posture, and ataxia, BSE is one of the differential diagnoses of concern. APHIS has conducted surveillance for BSE since 1990. From June 2004 through August 2006, APHIS conducted an enhanced surveillance effort. It was designed to estimate the level of BSE present in the national herd and provide input for designing a long-term surveillance plan.Using data from surveillance efforts over the past 7 years—including the period of enhanced surveillance—APHIS completed an estimate of the prevalence of BSE in the United States. This analysis concluded that BSE is likely to occur in this country at extremely low levels, less than 1 case per million adult cattle, and that the most likely number of cases is between 4 and 7 infected animals out of 42 million adult cattle.In August 2006, USDA began transitioning to ongoing surveillance that is more commensurate with the extremely low level of risk in the United States yet continues to exceed surveillance guidelines set by the World Organization for Animal Health (OIE).Ongoing surveillance in the BSE program will sample roughly 40,000 animals each year from the cattle populations where the disease is most likely

to be found. The targeted population for ongoing surveillance focuses on cattle exhibiting signs of CNS disorders or any other signs that may be associated with BSE, including emaciation or injury. Dead cattle, as well as nonambulatory animals, will also be targeted. Healthy slaughter animals are not included in the sampling because the likelihood of detecting BSE in them has been shown to be extremely low. Therefore, this population includes three of the four surveillance streams as recommended by OIE.Data collected from the 40,000 samples will exceed the 7-year cumulative number of points to qualify as Type A surveillance per Article 3.8.4 of the OIE Code. Further, this level of sampling allows the United States to assess any change in the BSE status of U.S. cattle, and identify any significant rise in BSE prevalence in this country.

snip...


Eradication ProgramsVS

eradication programs include scrapie in sheep and goats, tuberculosis in cattle and cervids, pseudorabies and brucellosis in swine, and brucellosis in cattle and bison.Scrapie in Sheep and GoatsDisease and Program History—Scrapie was first discovered in the United States in 1947 in a Michigan flock that, for several years, had imported sheep of British origin from Canada. Since 1952, VS has worked to control scrapie in the United States. As a result of increasing industry and public concern about transmissible spongiform encephalopathies (TSEs) and the discovery of new TSE diagnostic and control methods, VS initiated an accelerated scrapie eradication program in 2000.Current Program—The primary aspects of the scrapie eradication program are animal identification, surveillance, tracing of positive and exposed animals, testing of sheep and goats in exposed flocks, cleanup of infected flocks, and certification of flocks.Animal Identification—Identification of breeding sheep and culled breeding sheep is mandatory when ownership changes. The only sheep that do not have to be identified are those less than 18 months old that are moving in slaughter channels. As of October 2, 2006, 118,668 premises with sheep and/or goats were recorded in the scrapie national database. (In this database, a premises that contains both sheep and goats might be listed twice, once for each species.) Of these premises, 96,755 have requested and received official eartags (tags approved for use by the Animal and Plant Health Inspection Service [APHIS] in the official scrapie eradication program) (table 6).Regulatory Scrapie Slaughter Surveillance (RSSS)—The RSSS program, initiated on April 1, 2003, is the primary surveillance method for scrapie in the United States. RSSS identifies scrapie-infected flocks through targeted slaughter surveillance of sheep and goat populations that have been recognized as having higher-than-average scrapie prevalence. These are

TABLE 6:

Scrapie national database—sheep and/or goat premises counts
Sept. 30, 2004Sept. 30, 2005Sept. 30, 2006Total90,32203,58011 8,668
Requested official tags64,04073,80796,755
defined as mature black- or mottle-faced sheep and
any mature sheep or goats showing clinical signs
that could be associated with scrapie, such as poor
body condition, wool loss, or gait abnormalities.
Other than the targeted black-faced sheep and suspect
animals, the RSSS program samples only animals
with some form of identification (e.g., United
States Department of Agriculture [USDA]-approved
eartags, electronic ID, backtags, and tattoos or lot
identification). Sampling animals with identification
allows for tracing positive animals back to the farm
of origin.

During fiscal year (FY) 2006, as part of the RSSS
program, 37,111 sheep and goat samples, collected
from 72 slaughter plants in 22 States, were tested for
scrapie using immunohistochemistry on brain and/or
lymph node (table 7). Of the 37,076 sheep sampled,
51 percent were mottle-faced, 38 percent were
black-faced, and 11 percent were white-faced. Of the
70 sheep diagnosed as positive for scrapie, 62 were
black-faced and 8 were mottle-faced. Of the 35 goats
sampled as part of the RSSS program in FY 2006,
32 were tested and diagnosed as negative for scrapie;
3 samples were unable to be tested.

Under the scrapie program, an animal with
positive test results is traced back to its flock of
origin, and the flock is placed under movement
restrictions until a flock cleanup plan has been
completed. High-risk animals that had been moved
from these flocks before they were placed under
movement restrictions also are traced and tested.
Testing Summary—In response to regulatory
investigations of disease, APHIS’ field Veterinary
Medical Officers collect samples from flocks for
scrapie testing. Such cases are known as regulatory
field cases. In addition to the 37,111 samples tested
under the RSSS program in FY 2006, 5,262 additional
tests were conducted for scrapie—either by thirdeyelid
testing or necropsy.

Case and Infected Flock Summary—In FY 2006,
116 newly identified infected flocks were reported,
and 350 scrapie cases were confirmed and reported
by the National Veterinary Services Laboratories
(NVSL) (tables 8 and 9). A scrapie case is defined
as an animal for which a diagnosis of scrapie has
been made by the NVSL using a USDA-approved test
(typically immunohistochemistry on the obex or
a peripheral lymph node). During FY 2006, three
scrapie cases were reported in goats. Figure 13
presents the geographic location of U.S. mature ewe
populations (National Agricultural Statistics Service
2002 Census) relative to flocks found to be positive
for scrapie through RSSS sampling or another
regulatory or surveillance method (denoted by
NVSL-positive flocks).

TABLE 7:

Regulatory scrapie slaughter surveillance,
by fiscal year
FY 2004 FY 2005 FY 2006
Number of plants 34 78 72
Number of States 6 24 22
Number of samples
tested
25, 90 34,9 2* 37,
* Number changed from 2005 Animal Health Report to reflect
updated data.

TABLE 8:

Flocks newly infected with scrapie
2004 2005 2006
00 65 6

TABLE 9:

Scrapie cases, FY 2003 through FY 2006
Test or examination
FY
2003
FY
2004
FY
2005
FY
2006
(Number of cases)
Necropsy 3 5 374 46 243
Regulatory third eyelid 32 20 3 37
Regulatory Scrapie
Slaughter Surveillance
23 86 06 70
Total 370 480 598 350
1 Includes part of FY 2003 (April 1–September 30, 2003)
42

2006 United States Animal Health Report

Scrapie susceptibility in sheep in the United States has been associated with two codons that encode for amino acids in the PrP protein. These codons are at positions 136 and 171, the latter of which is thought to be the major determinant of scrapie susceptibility in the United States. For all the scrapie-positive sheep with known genotypes in FY 2006, 99.3 percent were QQ at codon 171. Of these, 92.6 percent were AA at codon 136, 6.4 percent were AV at codon 136, and 1.0 percent were VV at codon 136. Of the remaining 0.7 percent that were not QQ at codon 171, all were AVQR at codons 136 and 171.Scrapie Flock Certification Program (SFCP)—The SFCP is a cooperative effort among producers, State and Federal animal health agencies, and industry representatives. Through the SFCP, a flock becomes certified if, during a 5-year monitoring period, no sheep in the flock are diagnosed with scrapie, no clinical evidence of scrapie is found in the flock, and there are no additions of female animals from flocks of lower status to the flock. The program categories are described in the following paragraphs.Complete Monitored Category—A flock in this category is approved to participate in the program. There are two status levels for flocks in this category:Enrolled flock: A flock entering the program is assigned enrolled status and is a “complete monitored
enrolled flock.”Certified flock: An enrolled flock that has met
program standards for 5 consecutive years advances to certified status, meaning that it is unlikely to contain any sheep infected with scrapie.



FigureIGURE 13: Distribution of mature ewe populations, by county, compared to scrapie-positive animals (October 2002–December 2006).U.S. map showing the distribution of mature ewes, by county, compared to scrapie-positive animals, for October 2002 through December 2006. All counties are colored in document estimated number ewes 4 categories plus “unknown.” Circles different diameters and one two colors indicate where animals were found based on tests from National Veterinary Services Laboratories or Regulatory Scrapie Slaughter Surveillance program.43 Chapter 4: Animal Disease Eradication Programs and Control and Certification Programs


Selective Monitored Category—This category, though open to any flock, was designed for producers of slaughter lambs to allow for scrapie surveillance in large production flocks. Only male animals over 1 year of age must have official identification. Producers agree to submit for scrapie diagnosis a portion of the mature animals that are culled or die; the number of animals to submit is based on the flock’s size. Additionally, an accredited veterinarian must inspect all cull ewes for clinical signs of scrapie before slaughter. Selective status is maintained indefinitely as long as the flock meets the category requirements.Trends in Plan Enrollment—Enrollment in the SFCP has increased since 2002. As of September 30, 2006, 2,027 flocks were participating, and of these, 297 were certified flocks (table 10). Enrollments have slowed, which might be attributable to an increased reliance on genotype testing to reduce the risk of introducing scrapie.Challenges—Efforts will continue to expand surveillance into underrepresented areas and to increase the traceability of sheep and goats presented for sampling. Additionally, work will continue on upgrading the scrapie national database, improving field data collection by refining sample collection and submission, and streamlining data entry and analysis.

snip...

Chronic Wasting Disease (CWD) in CervidsDisease and Program History—First recognized in 1967 as a clinical “wasting” syndrome in mule deer at a wildlife research facility in northern Colorado, CWD was identified as a TSE in 1978. There is no known relationship between CWD, which occurs in cervids, and any other TSE of animals or humans.In the mid-1980s, CWD was detected in free-ranging deer and elk in contiguous areas of northeastern Colorado and southeastern Wyoming. In May 1999, CWD was found in free-ranging deer in the southwestern corner of Nebraska (adjacent to Colorado and Wyoming) and later in other areas in western and central Nebraska. Since 2002, CWD has also been detected in wild deer, elk, or both in south-central Wisconsin, southwestern South Dakota, the western slope of the Rocky Mountains in Colorado, southern New Mexico, northern Illinois, eastern and central Utah, central New York, the eastern arm of West Virginia, and northwestern Kansas. The first infected free-ranging moose was detected in Colorado in 2005.The first CWD-positive farmed elk herd in the United States was detected in 1997 in South Dakota. Through December 31, 2006, 31 additional CWD‑-positive farmed elk herds and 9 CWD-positive farmed deer herds have been found in 9 States, for a cumulative total of 41 infected farmed cervid herds.

Current Program—APHIS–VS and State CWD surveillance in farmed animals began in late 1997 and has increased each year since. VS pays laboratory costs for all surveillance testing of farmed cervids. Responses to onfarm CWD-positive cases include depopulation with indemnity or quarantine. Additionally, VS conducts traceforward and trace-
back epidemiologic investigations.A proposed rule for a CWD herd-certification program for farmed-cervid operations was published for comment in the Federal Register on December 24, 2003. Program goals are to control and eventually eradicate CWD from farmed cervid herds. The program would certify herds that demonstrate 5 years of CWD surveillance with no evidence of disease. The proposed program requirements include fencing, identification, inventory, and surveillance. The rule is intended to limit interstate movement of farmed cervids to herds enrolled in the herd-certification program. State programs meeting or exceeding Federal standards will be included in the Federal program.The final rule for this program was published on July 21, 2006. Subsequently, three organizations representing State agencies (Association of Fish and Wildlife Agencies, National Assembly of State Animal Health Officials, and United States Animal Health Association [USAHA]) filed petitions challenging certain interstate-movement provisions in the final rule and requesting a stay in the effective date. APHIS determined that the issues identified in the petitions merited further discussion and published a delay in implementation of the rule on September 8, 2006. On November 3, 2006, the petitions were published for public comment. APHIS will evaluate the comments to determine if changes in the rule are necessary so that it can be implemented as the cooperative State–Federal–industry program it is intended to be.VS began supporting CWD surveillance in wildlife in 1997. Since the national “Plan for Assisting States, Federal Agencies, and Tribes in Managing Chronic Wasting Disease in Wild and Captive Cervids” was adopted in June 2002, VS has cooperated with the Association of Fish and Wildlife Agencies to promote uniform, nationwide surveillance while allowing flexibility to meet individual State situations and needs.Since beginning to receive line-item funding for CWD in FY 2003, APHIS–VS has been providing assistance to State wildlife agencies and tribes through cooperative agreements to address the disease in free-ranging deer, elk, and now moose. This funding covered surveillance testing for some 90,000 hunter-killed and targeted animals in the 2002–03 and the 2003–04 hunting seasons and more than 122,000 in 2004–05. More than 95,000 tests were projected for 2005–06. All 50 States participated in the first 2 years of the program, 47 States requested and received funding in FY 2005, and 49 participated in FY 2006. Funding is distributed through a tiered system based on risk of disease developed in consultation with the Association of Fish and Wildlife Agencies. In addition to individual tribal assistance, an agreement with the Native American Fish and Wildlife Society funds five regional CWD tribal biologists to assist tribes with CWD activities.Disease Status—In FY 2006, 14,913 farmed cervids were tested for CWD as compared to more than 15,000 animals in FY 2005 and FY 2004 and more than 12,000 in FY 2003. From 1997 through 2006, CWD had been found in 32 farmed elk herds and 9 farmed deer herds in 9 States

(table 15).Of the 41 positive herds identified as of December 31, 2006, 5 (4 in Colorado and 1 in TABLE 15: Number of farmed cervid herds with animals positive for chronic wasting disease, by State, 1997–2006State1997–200420052006Total (1997–2006)Colorado1 22—4Kansas——Minnesota2—3Montana——Nebraska4—5New York—2—2Oklahoma——South Dakota7——7Wisconsin6—7Total34641 53

Chapter 4: Animal Disease Eradication Programs and Control and Certification Programs


Wisconsin) remained under State quarantine and 35 had been depopulated. The quarantine was lifted from one herd that underwent rigorous surveillance for more than 5 years with no further evidence of disease.Challenges—The key challenges in managing CWD result from the fact that cervids fall under multiple jurisdictions. In 2002, at the request of Congress, an interagency group was convened to develop a management plan to assist States, Federal agencies, and Native American tribes in managing CWD in captive and wild herds. Currently, this plan is implemented by State and Federal agencies, as budgets permit.Additional challenges are related to the difficulties associated with testing wild cervids. High sample throughput and more rapid test technology were needed to meet the needs of wildlife agencies. By expanding its contract group of State and university laboratories, NVSL now has 26 laboratories approved to conduct CWD testing. In addition, VS’ Center for Veterinary Biologics has approved four CWD antigen test kits based on enzyme-linked immunosorbent assay (ELISA), allowing faster testing and greater throughput for surveillance testing of wild cervids.The lack of a live-animal test for CWD is also a major challenge for CWD management in farmed and captive cervids. Currently rectal biopsy is being evaluated as a CWD management tool for farmed and captive cervids.


snip...full text ;


http://www.aphis.usda.gov/publications/animal_health/content/printable_version/06_AHReport_508.pdf

>>>Experience worldwide has shown that it is highly unusual to find BSE in multiple animals in a herd or in an affected animal’s offspring.The FDA conducted an investigation into local feed mills that may have supplied feed to the index animal after the 1997 feed ban was implemented. This investigation showed that adequate controls were in place in feed facilities in the immediate geographic area of the index farm and that local feed mills that handle prohibited materials were in compliance with FDA’s feed ban.<<< href="http://www.fda.gov/bbs/topics/ENFORCE/2006/ENF00964.html">http://www.fda.gov/bbs/topics/ENFORCE/2006/ENF00964.html


Subject: MAD COW FEED RECALL AL AND FL VOLUME OF PRODUCT IN COMMERCE 125 TONS

Products manufactured from 02/01/2005 until 06/06/2006

Date: August 6, 2006 at 6:16 pm PST

PRODUCT

a) CO-OP 32% Sinking Catfish, Recall # V-100-6;
b) Performance Sheep Pell W/Decox/A/N, medicated,
net wt. 50 lbs, Recall # V-101-6;
c) Pro 40% Swine Conc Meal -- 50 lb, Recall # V-102-6;
d) CO-OP 32% Sinking Catfish Food Medicated,
Recall # V-103-6;
e) "Big Jim's" BBB Deer Ration, Big Buck Blend,
Recall # V-104-6;
f) CO-OP 40% Hog Supplement Medicated Pelleted,
Tylosin 100 grams/ton, 50 lb. bag, Recall # V-105-6;
g) Pig Starter Pell II, 18% W/MCDX Medicated 282020,
Carbadox -- 0.0055%, Recall # V-106-6;
h) CO-OP STARTER-GROWER CRUMBLES, Complete
Feed for Chickens from Hatch to 20 Weeks, Medicated,
Bacitracin Methylene Disalicylate, 25 and 50 Lbs,
Recall # V-107-6;
i) CO-OP LAYING PELLETS, Complete Feed for Laying
Chickens, Recall # 108-6;
j) CO-OP LAYING CRUMBLES, Recall # V-109-6;
k) CO-OP QUAIL FLIGHT CONDITIONER MEDICATED,
net wt 50 Lbs, Recall # V-110-6;
l) CO-OP QUAIL STARTER MEDICATED, Net Wt. 50 Lbs,
Recall # V-111-6;
m) CO-OP QUAIL GROWER MEDICATED, 50 Lbs,
Recall # V-112-6

CODE
Product manufactured from 02/01/2005 until 06/06/2006

RECALLING FIRM/MANUFACTURER
Alabama Farmers Cooperative, Inc., Decatur, AL, by telephone, fax, email and
visit on June 9, 2006. FDA initiated recall is complete.

REASON
Animal and fish feeds which were possibly contaminated with ruminant based
protein not labeled as "Do not feed to ruminants".

VOLUME OF PRODUCT IN COMMERCE
125 tons

DISTRIBUTION
AL and FL


END OF ENFORCEMENT REPORT FOR AUGUST 2, 2006

###


http://www.fda.gov/bbs/topics/enforce/2006/ENF00963.html


PRODUCT

a) PRO-LAK, bulk weight, Protein Concentrate for Lactating Dairy Animals,
Recall # V-079-6;
b) ProAmino II, FOR PREFRESH AND LACTATING COWS, net weight 50lb (22.6 kg),
Recall # V-080-6;
c) PRO-PAK, MARINE & ANIMAL PROTEIN CONCENTRATE FOR USE IN ANIMAL
FEED, Recall # V-081-6;
d) Feather Meal, Recall # V-082-6
CODE
a) Bulk
b) None
c) Bulk
d) Bulk

RECALLING FIRM/MANUFACTURER
H. J. Baker & Bro., Inc., Albertville, AL, by telephone on June 15, 2006 and
by press release on June 16, 2006. Firm initiated recall is ongoing.

REASON
Possible contamination of animal feeds with ruminent derived meat and bone
meal.

VOLUME OF PRODUCT IN COMMERCE
10,878.06 tons

DISTRIBUTION
Nationwide

END OF ENFORCEMENT REPORT FOR July 12, 2006

###


http://www.fda.gov/bbs/topics/enforce/2006/ENF00960.html


NOW, lets look at the statistics of the BARBs and same herd BSE cohorts ;


Review of the Evidence for the Occurrence of ‘BARB’ BSE Cases in Cattle


c. Of the 93 cases, all were born in different herds except for 5 pairs (more
than expected by chance) reared in the same herd (age differences between animals in
the pairs were 12, <1, href="http://www.defra.gov.uk/animalh/bse/pdf/hillreport.pdf">http://www.defra.gov.uk/animalh/bse/pdf/hillreport.pdf


ITEM 6 – BARB CASE CLUSTERS

39. Professor John Wilesmith (Defra) updated the committee on the

BSE cases born after the 1996 reinforced mammalian meat and

bone meal ban in the UK (BARB cases). Around 116 BARB cases

had been identified in Great Britain up to 22 November 2005,

mostly through active surveillance. BARB cases had decreased in

successive birth cohorts, from 44 in the 1996/1997 cohort to none

to date in the 2000/2001 cohort. However, 3 BARB cases had

been identified in the 2001/2002 cohort. Backcalculation of the

prevalence of BARB cases indicated a drop from 130 infected

animals per million (95% confidence interval 90-190) in the

1996/1997 cohort to 30 infected animals per million (95%

confidence interval 10-60) in the 1999/2000 cohort. A shift in the

geographical distribution of BSE cases, from the concentration of

pre-1996 BSE cases in Eastern England to a more uniform

14

© SEAC 2005

distribution of BARB cases, had occurred. However, it appeared

that certain post-1996 cohorts had a higher exposure to BSE in

certain areas for limited periods. Several clusters of BARB cases

within herds had been identified (5 pairs, 2 triplets and 1

quadruplet).

40. A triplet of BARB cases in South West Wales had been

investigated in detail. The triplet comprised 2 cases born in

September and October 2001 and a third in May 2002. The

animals born in 2001 were reared outdoors from the spring of 2002

but the animal born in 2002 had been reared indoors. Further

investigation of feeding practices revealed that a new feed bin for

the adult dairy herd had been installed in September 1998. In July

2002 the feed bin was emptied, but not cleaned, and relocated. All

3 BARB cases received feed from the relocated bin. This finding

suggested the hypothesis that the feed bin installed in September

1998 was filled initially with contaminated feed, that remnants of

this feed fell to the bottom of the bin during its relocation, and thus

young animals in the 2001/2002 birth cohort were exposed to

feedstuffs produced in 1998. No adult cattle had been infected

because of the reduced susceptibility to BSE with increasing age.

41. Further investigation of multiple case herds had found no

association of BARB clusters with the closure of feed mills.

42. Professor Wilesmith concluded that there is evidence of a decline

in risk of infection for successive birth cohorts of cattle. The BARB

epidemic is unlikely to be sustained by animals born after 31 July

2000. Feed bins could represent a continued source of occasional

infection and advice to farmers is being formulated to reduce this

risk. There is no evidence for an indigenous source of infection for

the BARB cases.

43. Members considered it encouraging that no other factor, apart from

feed contamination, had been identified as a possible cause of

BARB cases to date. Members commented that this study

suggests that only a small amount of contaminated feed may be

required for infection and that BSE infectivity can survive in the

environment for several years. Professor Wilesmith agreed and

noted that infection caused by small doses of infectious material

was consistent with other studies, and it would appear there is little

dilution of infectivity, if present, in the rendering system.

Additionally it appeared that the infectious agent had survived for 4

years in the feed bin.

44. The Chair thanked Professor Wilesmith for his presentation.


snip...


http://www.seac.gov.uk/minutes/final90.pdf



(May 16, 2007)
TAFS1 Position Paper on Atypical scrapie and Atypical BSE

snip...

Does it represent a risk to human health?

􀂾 It is too early to tell whether or not it represents a risk to humans. For the moment it is
assumed to be a danger, and is treated like BSE. Results of experimental transmission
to primates remain unpublished. Some scientists suggest that similarities between the
molecular features of H-type BSE and some prion diseases of humans may indicate
that they are related. Care must be exercised in interpreting such preliminary data(8)
specifically with regard to suggestions of a cause and effect.

􀂾 Transmissibility to cattle has been confirmed, but remains currently unpublished as the
study is incomplete. It may therefore be possible to investigate further, by oral
challenge, whether or not the infectious agent is distributed around the body in a
different way from BSE, possibly infecting tissues that are not considered-infectious
in BSE. This may have implications for risk management and public health.

http://www.tafsforum.org/position_papers/TAFS_POSITION_PAPER_ON_ATYPICAL_SCRAPIE_AND_%20ATYPICAL_BSE_070516.pdf


In FY 2007, 331 scrapie cases have been confirmed and reported by the National Veterinary Services Laboratories (NVSL), including 59* Regulatory Scrapie Slaughter Surveillance (RSSS) cases (Figure 5 and Slide 16). In FY 2007, two field cases, one validation case, and two RSSS cases were consistent with Nor-98 scrapie. The Nor98-like cases originated from flocks in California, Minnesota, Colorado, Wyoming and Indiana respectively. Nineteen cases of scrapie in goats have been reported since 1990 (Figure 6). The last goat case was reported in September 2007.


snip...


see full report here ;


http://www.aphis.usda.gov/animal_health/animal_diseases/scrapie/downloads/yearly_report.pps

P03.141

Aspects of the Cerebellar Neuropathology in Nor98

Gavier-Widén, D1; Benestad, SL2; Ottander, L1; Westergren, E11National Veterinary Insitute, Sweden; 2National Veterinary Institute, Norway

Nor98 is a prion disease of old sheep and goats. This atypical form of scrapie was first described in Norway in 1998. Several features of Nor98 were shown to be different from classical scrapie including the distribution of disease associated prion protein (PrPd) accumulation in the brain. The cerebellum is generally the most affected brain area in Nor98. The study here presented aimed at adding information on the neuropathology in the cerebellum of Nor98 naturally affected sheep of various genotypes in Sweden and Norway. A panel of histochemical and immunohistochemical (IHC) stainings such as IHC for PrPd, synaptophysin, glial fibrillary acidic protein,amyloid, and cell markers for phagocytic cells were conducted. The type of histologicallesions and tissue reactions were evaluated. The types of PrPd deposition were characterized. The cerebellar cortex was regularly affected, even though there was avariation in the severity of the lesions from case to case. Neuropil vacuolation was more marked in the molecular layer, but affected also the granular cell layer. There wasa loss of granule cells. Punctate deposition of PrPd was characteristic. It was morphologically and in distribution identical with that of synaptophysin, suggesting that PrPd accumulates in the synaptic structures. PrPd was also observed in the granule cell layer and in the white matter. The pathology features of Nor98 in the cerebellum of the affected sheep showed similarities with those of sporadic Creutzfeldt-Jakob disease in humans.


http://www.prion2007.com/pdf/Prion%20Book%20of%20Abstracts.pdf



NOR-98 ATYPICAL SCRAPIE USA UPDATE AS AT OCT 2007


typical scrapie transmits to primates by there NON-FORCED ORAL CONSUMPTION ;

76/10.12/4.6

http://www.bseinquiry.gov.uk/files/yb/1976/10/12004001.pdf


http://www.ncbi.nlm.nih.gov/sites/entrez?Db=pubmed&Cmd=ShowDetailView&TermToSearch=6997404&ordinalpos=1&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_RVAbstractPlus


see full text ;


http://nor-98.blogspot.com/


USA MAD COW CASES IN ALABAMA AND TEXAS


***PLEASE NOTE***


USA BASE CASE, (ATYPICAL BSE), AND OR TSE (whatever they are calling it
today), please note that both the ALABAMA COW, AND THE TEXAS COW, both were
''H-TYPE'', personal communication Detwiler et al Wednesday, August 22, 2007
11:52 PM. ...TSS


http://lists.ifas.ufl.edu/cgi-bin/wa.exe?A2=ind0708&L=sanet-mg&T=0&P=19779


http://lists.ifas.ufl.edu/cgi-bin/wa.exe?A2=ind0709&L=sanet-mg&T=0&F=&S=&P=19744


SEAC 99th meeting on Friday 14th December 2007

http://seac992007.blogspot.com/


BSE BASE MAD COW TESTING TEXAS, USA, AND CANADA, A REVIEW OF SORTS

http://madcowtesting.blogspot.com/


MADCOW USDA the untold story

http://madcowusda.blogspot.com/


BSE OIE USDA

http://madcowtesting.blogspot.com/2008/01/bse-oie-usda.html


CREUTZFELDT JAKOB DISEASE MAD COW BASE UPDATE USA

http://cjdmadcowbaseoct2007.blogspot.com/


SCRAPIE USA

http://scrapie-usa.blogspot.com/


NOR-98 ATYPICAL SCRAPIE CASES USA

http://nor-98.blogspot.com/


Transmissible Mink Encephalopathy TME

http://transmissible-mink-encephalopathy.blogspot.com/


CHRONIC WASTING DISEASE

http://chronic-wasting-disease.blogspot.com/


Monitoring the occurrence of emerging forms of Creutzfeldt-Jakob disease in
the United States

http://cjdusa.blogspot.com/


CJD QUESTIONNAIRE

http://cjdquestionnaire.blogspot.com/


TSEAC MEETINGS

http://tseac.blogspot.com/


I only ponder how many sporadic CJDs in the USA are type 2 PrPSc?

http://www.neurology.org/cgi/eletters/60/2/176#535


THE PATHOLOGICAL PROTEIN
Hardcover, 304 pages plus photos and illustrations.
ISBN 0-387-95508-9 June 2003
BY Philip Yam

CHAPTER 14 LAYING ODDS

Answering critics like Terry Singeltary, who feels that the U.S. under-counts CJD, Schonberger conceded that the current surveillance system has errors but stated that most of the errors will be confined to the older population.

http://www.thepathologicalprotein.com/


doi:10.1016/S1473-3099(03)00715-1Copyright © 2003 Published by Elsevier Ltd.

Newsdesk

Tracking spongiform encephalopathies in North America

Xavier Bosch

Available online 29 July 2003.
Volume 3, Issue 8, August 2003, Page 463

"My name is Terry S Singeltary Sr, and I live in Bacliff, Texas. I lost my mom to hvCJD (Heidenhain variant CJD) and have been searching for answers ever since. What I have found is that we have not been told the truth. CWD in deer and elk is a small portion of a much bigger problem." ...

http://www.thelancet.com/journals/laninf/article/PIIS1473309903007151/fulltext

http://download.thelancet.com/pdfs/journals/1473-3099/PIIS1473309903007151.pdf


Diagnosis and Reporting of Creutzfeldt-Jakob Disease

Singeltary, Sr et al. JAMA.2001; 285: 733-734.

http://jama.ama-assn.org/http://www.neurology.org/cgi/eletters/60/2/176#535


Like lambs to the slaughter
31 March 2001
Debora MacKenzie
Magazine issue 2284


FOUR years ago, Terry Singeltary watched his mother die horribly from a degenerative brain disease. Doctors told him it was Alzheimer's, but Singeltary was suspicious. The diagnosis didn't fit her violent symptoms, and he demanded an autopsy. It showed she had died of sporadic Creutzfeldt-Jakob disease. Most doctors believe that sCJD is caused by a prion protein deforming by chance into a killer. But Singeltary thinks otherwise. He is one of a number of campaigners who say that some sCJD, like the variant CJD related to BSE, is caused by eating meat from infected animals. Their suspicions have focused on sheep carrying scrapie, a BSE-like disease that is wide spread in flocks across Europe and North America. Now scientists in France have stumbled across new evidence that adds weight to the campaigners' fears. To their complete surprise, the researchers found that one strain of scrapie causes the same brain damage in mice as sCJD. "This means we cannot rule out that at least some sCJD may be caused by some strains of scrapie," says team member Jean-Philippe Deslys of the French Atomic Energy Commission's medical research laboratory in Fontenay-aux-Roses, south-west of Paris. Hans Kretschmar of the University of Göttingen, who coordinates CJD surveillance in Germany, is so concerned by the findings that he now wants to trawl back through past sCJD cases to see if any might have been caused by eating infected mutton or lamb. ...

http://www.newscientist.com/article/mg16922840.300-like-lambs-to-the-slaughter.html


DER SPIEGEL (9/2001) - 24.02.2001 (9397 Zeichen)USA: Loch in der MauerDie BSE-Angst erreicht Amerika: Trotz strikter Auflagen gelangte in Texasverbotenes Tiermehl ins Rinderfutter - die Kontrollen der Aufsichtsbehördensind lax. Link auf diesen Artikel im Archiv:
http://service.spiegel.de/digas/find?DID=18578755"

Its as full of holes as Swiss Cheese" says Terry Singeltary of the FDA regulations. ...

http://service.spiegel.de/digas/servlet/find/DID=18578755


Thu Dec 6, 2007 11:38

FDA IN CRISIS MODE, AMERICAN LIVES AT RISK

http://www.cidrap.umn.edu/cidrap/content/fs/food-disease/news/dec0407fda.html


FDA SCIENCE AND MISSION AT RISK

http://www.fda.gov/ohrms/dockets/ac/07/briefing/2007-4329b_02_01_FDA%20Report%20on%20Science%20and%20Technology.pdf


2 January 2000
British Medical Journal

U.S. Scientist should be concerned with a CJD epidemic in the U.S., as well

http://www.bmj.com/cgi/eletters/320/7226/8/b#6117


15 November 1999
British Medical Journal

vCJD in the USA * BSE in U.S.

http://www.bmj.com/cgi/eletters/319/7220/1312/b#5406


BSE (Mad Cow) Update: Do Reports of sCJD Clusters Matter?

snip... see full text ;

http://cjdtexas.blogspot.com/


[In submitting these data, Terry S. Singeltary Sr. draws attention to the steady increase in the "type unknown" category, which, according to their definition, comprises cases in which vCJD could be excluded. The total of 26 cases for the current year (2007) is disturbing, possibly symptomatic of the circulation of novel agents. Characterization of these agents should be given a high priority. - Mod.CP]

http://www.promedmail.org/pls/askus/f?p=2400:1001:6833194127530602005::NO::F2400_P1001_BACK_PAGE,F2400_P1001_PUB_MAIL_ID:1010,39963


*** UPDATE MAY 2009


Monday, May 11, 2009 Rare BSE mutation raises concerns over risks to public health


http://bse-atypical.blogspot.com/2009/05/rare-bse-mutation-raises-concerns-over.html



Terry S. Singeltary Sr.
P.O. Box 42
Bacliff, Texas USA 77518