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Location: BACLIFF, Texas, United States

My mother was murdered by what I call corporate and political homicide i.e. FOR PROFIT! she died from a rare phenotype of CJD i.e. the Heidenhain Variant of Creutzfeldt Jakob Disease i.e. sporadic, simply meaning from unknown route and source. I have simply been trying to validate her death DOD 12/14/97 with the truth. There is a route, and there is a source. There are many here in the USA. WE must make CJD and all human TSE, of all age groups 'reportable' Nationally and Internationally, with a written CJD questionnaire asking real questions pertaining to route and source of this agent. Friendly fire has the potential to play a huge role in the continued transmission of this agent via the medical, dental, and surgical arena. We must not flounder any longer. ...TSS

Friday, June 03, 2011

Estimation of variant Creutzfeldt-Jakob disease infectivity titers in human blood

Estimation of variant Creutzfeldt-Jakob disease infectivity titers in human blood

Luisa Gregori, Hong Yang, Steven AndersonArticle first published online: 3 JUN 2011

DOI: 10.1111/j.1537-2995.2011.03199.x

Gregori, L., Yang, H. and Anderson, S. (2011), Estimation of variant Creutzfeldt-Jakob disease infectivity titers in human blood. Transfusion, 51: no. doi: 10.1111/j.1537-2995.2011.03199.x

Author Information From the Division of Emerging and Transfusion-Transmitted Diseases, Office of Blood Research and Review, Rockville, Maryland; and the Office of Biostatistics and Epidemiology, Center for Biologics Evaluation and Research, Food and Drug Administration, Rockville, Maryland. *Correspondence: Luisa Gregori, DETTD/OBRR/CBER/FDA, 1401 Rockville Pike, FDA HFM-313, Rockville, MD 20852; e-mail: luisa.gregori@fda.hhs.gov.

This work was funded by the US Food and Drug Administration.

The findings and conclusions in this article have not been formally disseminated by the Food and Drug Administration and should not be construed to represent any Agency determination or policy.

Publication History Article first published online: 3 JUN 2011 Received for publication January 4, 2011; revision received April 7, 2011, and accepted April 10, 2011.

BACKGROUND: Blood of individuals with variant Creutzfeldt-Jakob disease (vCJD) is infectious but the titer is unknown. Current estimates of possible vCJD infectivity titers in blood have largely relied on an assumption that the titers of vCJD agent in human blood are likely to be similar to those in blood of rodents infected with model transmissible spongiform encephalopathy agents, assayed by intracerebral inoculations of rodents of the same species.

STUDY DESIGN AND METHODS: We analyzed published descriptions of experimental transfusion-transmitted (TT) bovine spongiform encephalopathy and scrapie in sheep and reports of TTvCJD in humans, applying statistical approaches to estimate the probable number of intravenous infectious doses (IDiv) per unit of transfused blood (IDiv/unit). For humans, IDiv/unit of nonleukoreduced red blood cells (NLR-RBCs) were estimated by two statistical models.

RESULTS: Sheep blood collected at or near onset of clinical illness contained a mean of 0.80 IDiv/unit. Estimates of infectivity in NLR-RBCs from donors incubating vCJD indicated a probable mean infectivity of 0.29 IDiv/unit (Model 1) and 0.75 IDiv/unit (Model 2). The analysis predicted a mean of 21 vCJD-infected recipients expected in a cohort transfused with vCJD-implicated NLR-RBCs in the United Kingdom.

CONCLUSION: Our analysis suggested that, while less than one IDiv is likely to be present in a given unit of NLR-RBCs collected from a donor incubating vCJD, there is a high probability of TT infection among recipients of vCJD-implicated blood components. The analysis supports continuing measures currently recommended to reduce the risk of TTvCJD.

http://onlinelibrary.wiley.com/doi/10.1111/j.1537-2995.2011.03199.x/abstract


FC5.1.1

Transmission Results in Squirrel Monkeys Inoculated with Human sCJD, vCJD, and GSS Blood Specimens: the Baxter Study

Brown, P1; Gibson, S2; Williams, L3; Ironside, J4; Will, R4; Kreil, T5; Abee, C3 1Fondation Alliance BioSecure, France; 2University of South Alabama, USA; 3University of Texas MD Anderson Cancer Center, USA; 4Western General Hospital, UK; 5Baxter BioSience, Austria

Background: Rodent and sheep models of Transmissible Spongiform Encephalopathy (TSE) have documented blood infectivity in both the pre-clinical and clinical phases of disease. Results in a (presumably more appropriate) non-human primate model have not been reported.

Objective: To determine if blood components (red cells, white cells, platelets, and plasma) from various forms of human TSE are infectious.

Methods: Blood components were inoculated intra-cerebrally (0.1 ml) and intravenously (0.5 ml) into squirrel monkeys from 2 patients with sporadic Creutzfeldt- Jakob disease (sCJD) and 3 patients with variant Creutzfeldt-Jakob disease (vCJD). Additional monkeys were inoculated with buffy coat or plasma samples from chimpanzees infected with either sCJD or Gerstmann-Sträussler-Scheinker disease (GSS). Animals were monitored for a period of 5 years, and all dying or sacrificed animals had post-mortem neuropathological examinations and Western blots to determine the presence or absence of the misfolded prion protein (PrPTSE).

Results: No transmissions occurred in any of the animals inoculated with blood components from patients with sporadic or variant CJD. All donor chimpanzees (sCJD and GSS) became symptomatic within 6 weeks of their pre-clinical phase plasmapheresis, several months earlier than the expected onset of illness. One monkey inoculated with purified leukocytes from a pre-clinical GSS chimpanzee developed disease after 36 months.

Conclusion: No infectivity was found in small volumes of blood components from 4 patients with sporadic CJD and 3 patients with variant CJD. ***However, a single transmission from a chimpanzee-passaged strain of GSS shows that infectivity may be present in leukocytes, and the shock of general anaesthesia and plasmspheresis appears to have triggered the onset of illness in pre-clinical donor chimpanzees.



http://www.prion2010.org/bilder/prion_2010_program_latest_w_posters_4_.pdf?139&PHPSESSID=a30a38202cfec579000b77af81be3099







Saturday, September 5, 2009

TSEAC MEETING FEBRUARY 12, 2004 THE BAXTER STUDY GSS

snip...

But the first thing is our own study, and as I mentioned, it's a Baxter primate study, and those are the major participants. And the goal was twofold, and here is the first one: to see whether CJD, either sporadic or familial -- actually it turns out to be the familial CJD is incorrect. It really should be the Fukuoka strain of Gerstmann-Straussler-Scheinker disease. So it's really GSS instead of familial CJD -- when passaged through chimps into squirrel monkeys using purified blood components, very pure blood components.

So this addresses the question that was raised just recently about whether or not red cell infectivity that's been found in rodents is really in the red cells or is it contaminated.

We prepared these samples with exquisite care, and they are ultra-ultra-ultra purified. There's virtually no contamination of any of the components that we looked at ? platelets, red cells, plasma, white cells -- with any other component.

These are a sort of new set of slides, and what I've tried to do is make them less complicated and more clear, but I'm afraid I haven't included the build. So you'll just have to try and follow what I explain with this little red pointer.

There were three initial patients. Two of them had sporadic CJD. One of them had Gerstmann-Straussler-Scheinker syndrome. Brain tissue from each individual patient was inoculated intracerebrally into a pair of chimpanzees. All right?

From those chimps, either plasma or ultra purified -- in fact, everything is ultra-purified. I'll just talk about purified plasma, purified white cells -- were inoculated intracerebrally and intravenously to get the maximum amount of infective load into a pair of squirrel monkeys.

The same thing was done for each of these three sets. This monkey died from non-CJD causes at 34 months post inoculation.

Let me go back for a second. I didn't point out the fact that these were not sacrificed at this point. These chimpanzees were apheresed at 27 weeks when they were still asymptomatic. In this instance, we apheresed them terminally when they were symptomatic.

And before I forget, I want to mention just a little sidelight of this. Chimpanzees in our experience -- and I think we may be the only people that have ever inoculated chimpanzees, and that's no longer a possibility, so this was 20, 30 years ago -- the shortest incubation period of any chimpanzee that we have ever seen with direct intracerebral inoculation is 13 months.

So we chose 27 weeks, which is about seven months, and incidentally typically the incubation period is more like 16 or 18 months. The shortest was 13 months. We chose the 27th week, which is about six and a half months, thinking that this would be about halfway through the incubation period, which we wanted to check for the presence or absence of infectivity.

But within four weeks after the apheresis, which was conducted under general anesthesia for three or four hours apiece, every single one of the six chimpanzees became symptomatic. That is another experiment that I would love to conclude, perhaps because this is simply not heard of, and it very much smells like we triggered clinical illness. We didn't trigger the disease, but it certainly looks like we triggered symptomatic disease at a point that was much earlier than one would have possibly expected.

Maybe it will never be done because it would probably open the floodgates of litigation. There's no end of little things that you can find out from CJD patients after the fact. For example, the neighbor's dog comes over, barks at a patient, makes him fall down, and three weeks later he gets CJD. So you have a lawsuit against the neighbor.

I mean, this is not an unheard of matter, but I do think that physical stress in the form of anesthesia and four hours of whatever goes on with anesthesia, low blood pressure, sometimes a little hypoxemia looks like it's a bad thing.

So here we have the 31st week. All of the chimps are symptomatic, and here what we did was in order to make the most use of the fewest monkeys, which is always a problem in primate research, we took these same three patients and these six chimps. Only now we pooled these components; that is to say, we pooled the plasma from all six chimps. We pooled ultra-purified white cells from all six chimps because here we wanted to see whether or not we could distinguish a difference between intracerebral route of infection and intravenous route of infection.

With respect to platelets and red blood cells, we did not follow that. We inoculated both intracerebral and intravenously, as we had done earlier because nobody has any information on whether or not platelets and red cells are infectious, and so we wanted again to get the maximum.

This is an IV versus IC goal. This one, again, is just getting the maximum load in to see whether there is, in fact, any infectivity in pure platelets, in pure red cells.

And of all of the above, the only transmission of disease related to the inoculation was in a squirrel monkey that received pure leukocytes from the presymptomatic apheresis. So that goes some way to address the question as to whether or not it's a matter of contamination. To date the red cells have not been -- the monkeys that receive red cells have not been observed for more than a year because that was a later experiment.

So we still can't say about red cells, but we're about four and a half years down the road now, and we have a single transmission from purified leukocytes, nothing from plasma and nothing from platelets.

That was the first part of the experiment. The second part was undertaken with the cooperation of Bob Will and others supplying material to us. These were a couple of human, sporadic cases of CJD and three variant cases of CJD from which we obtained buffy coat and plasma separated in a normal way. That is, these are not purified components.

The two cases of sporadic CJD, the plasma was pooled from both patients. The buffy coat was pooled from both patients, and then inoculated intracerebrally and intravenously into three squirrel monkeys each. This is a non-CJD death five years after inoculation. The other animals are still alive.

For variant CJD we decided not to pool. It was more important to eliminate the possibility that there was just a little bit of infectivity in one patient that would have been diluted to extinction, if you like, by mixing them if it were to so occur with two patients, for example, who did not have infectivity. So each one of these was done individually, but the principle was the same: plasma and buffy coat for each patient was inoculated into either two or three squirrel monkeys. This is, again, a non-CJD related death.

In addition to that, we inoculated rain as a positive control from the two sporadic disease cases of human -- from the two human sporadic cases at ten to the minus one and ten to the minus three dilutions. We have done this many, many times in the past with other sporadic patients. So we knew what to expect, and we got exactly what we did expect, namely, after an incubation period not quite two years, all four monkeys developed disease at this dilution and at the minus three dilution, not a whole lot of difference between the two.

Now, these are the crucial monkeys because each one of these monkeys every three to four months was bled and the blood transfused into a new healthy monkey, but the same monkey all the time. So this monkey, for example, would have received in the course of 21 months about six different transfusions of blood from this monkey into this monkey, similarly with this pair, this pair, and this pair. So you can call these buddies. This is sort of the term that was used. These monkeys are still alive.

In the same way, the three human variant CJD specimens, brain, were inoculated into four monkeys, and again, each one of these monkeys has been repeatedly bled at three to four month intervals and that blood transfused into a squirrel monkey, the same one each time. Ideally we would love to have taken bleeding at three months and inoculated a monkey and then let him go, watch him, and then done the same thing at six months. It would have increased the number of monkeys eightfold and just unacceptably expensive. So we did the best we could.

That, again, is a non-CJD death, as is this.

This was of interest mainly to show that the titer of infectivity in brain from variant CJD is just about the same as it from sporadic. We didn't do a minus five and a minus seven in sporadic because we have an enormous experience already with sporadic disease in squirrel monkeys, and we know that this is exactly what happens. It disappears at about ten to the minus five. So the brain titer in monkeys receiving human vCJD is identical to the brain titer in monkeys that have been inoculated with sporadic CJD.

That's the experiment. All of the monkeys in aqua are still alive. They are approaching a five-year observation period, and I think the termination of this experiment will now need to be discussed very seriously in view of a probable six-year incubation period in the U.K. case. The original plan was to terminate the experiment after five years of observation with the understanding that ideally you would keep these animals for their entire life span, which is what we used to do when had unlimited space, money, and facilities. We can't do that anymore.

It's not cheap, but I think in view of the U.K. case, it will be very important to think very seriously about allowing at least these buddies and the buddies from the sporadic CJD to go on for several more years because although you might think that the U.K. case has made experimental work redundant, in point of fact, anything that bears on the risk of this disease in humans is worthwhile knowing, and one of the things we don't know is frequency of infection. We don't know whether this case in the U.K. is going to be unique and never happen again or whether all 13 or 14 patients have received blood components are ultimately going to die. Let's hope not.

The French primate study is primarily directed now by Corinne Lasmezas. As you know, the late Dominique Dromont was the original, originally initiated this work, and they have very active primate laboratory in France, and I'm only going to show two very simple slides to summarize what they did.

The first one is simply to show you the basis of their statement that the IV route of infection looks to be pretty efficient because we all know that the intracerebral route of infection is the most efficient, and if you look at this where they inoculated the same infective load either intracerebrally or intravenously, the incubation periods were not substantially different, which suggests but doesn't prove, but doesn't prove that the route of infection is pretty efficient.

Lower doses of brain material given IV did extend the incubation period and presumably it's because of the usual dose response phenomenon that you see in any infectious disease.

With a whopping dose of brain orally, the incubation period was even lower. Again, just one more example of inefficiency of the route of infection and the necessity to use more infective material to get transmissions.

And they also have blood inoculated IV which is on test, and the final slide or at least the penultimate slide shows you what they have on test and the time of observation, that taken human vCJD and like us inoculated buffy coat, they've also inoculated whole blood which we did not do.

So to a great extent their studies are complementary to ours and makes it all worthwhile.

We have about -- oh, I don't know -- a one to two-year lead time on the French, but they're still getting into pretty good observation periods. Here's three-plus years.

They have variant CJD adapted to the macaque. That is to say this one was passaged in macaque monkeys, the cynomolgus, and they did the same thing. Again, we're talking about a study here in which like ours there are no transmissions. I mean, we have that one transmission from leukocytes, and that's it.

Here is a BSE adapted to the macaque. Whole blood, and then they chose to inoculate leukodepleted whole blood, in both instances IV. Here they are out to five years without a transmission.

And then finally oral dosing of the macaque, which had been infected with -- which was infected with BSE, but a macaque passaged BSE, whole blood buffy coat and plasma, all by the IC route, and they're out to three years.

So with the single exception of the leukocyte transmission from our chimp that was inoculated with a sporadic case of CJD or -- excuse me -- with a GSS, Gerstmann-Straussler, in neither our study nor the French study, which are not yet completed have we yet seen a transmission.

And I will just close with a little cartoon that appeared in the Washington Post that I modified slightly lest you get too wound up with these questions of the risk from blood. This should be a "corrective."

(Laughter.)

DR. BROWN: Thanks.

Questions?

CHAIRPERSON PRIOLA: Yes. Any questions for Dr. Brown? Dr. Linden.

DR. LINDEN: I just want to make sure I understand your study design correctly. When you mention the monkeys that have the IV and IC inoculations, the individual monkeys had both or --

DR. BROWN: Yes, yes, yes. That's exactly right.

DR. LINDEN: So an individual monkey had both of those as opposed to some monkeys had one and some had the other?

DR. BROWN: Correct, correct. Where IC and IV are put down together was IC plus IV into a given monkey.

DR. LINDEN: Into a given monkey. Okay.

And the IC inoculations, where were those given?

DR. BROWN: Right parietal cortex, Southern Alabama.

(Laughter.)

DR. BROWN: Oh, it can't be that clear. Yeah, here, Pierluigi.

CHAIRPERSON PRIOLA: Dr. Epstein.

DR. BROWN: Pierluigi always damns me with feint praise. He always says that's a very interesting study, but. I'm waiting for that, Pierluigi.

I think Jay Epstein --

DR. GAMBETTI: I will say that there's an interesting study and will say, but I just --

(Laughter.)

DR. GAMBETTI: -- I just point of review. You talk about a point of information. You say that -- you mention GSS, I guess, and the what, Fukuowa (phonetic) --

DR. BROWN: Yes, Fukuoka 1.

DR. GAMBETTI: Fukuowa, and is that from the 102, if I remember correctly, of the --

DR. BROWN: Yes, that is correct.

DR. GAMBETTI: Because that is the only one that also --

DR. BROWN: No, it's not 102. It's 101. It's the standard. It's a classical GSS. Oh, excuse me. You're right. One, oh, two is classical GSS. It's been so long since I've done genetics. You're right.

DR. GAMBETTI: Because that is the only one I know, I think, that I can remember that has both the seven kv fragment that is characteristic of GSS, but also the PrPsc 2730. So in a sense, it can be stretching a little bit compared to the sporadic CJD.

DR. BROWN: Yeah, I think that's right. That's why I want to be sure that I made you aware on the very first slide that that was not accurate, that it truly was GSS.

There's a GSS strain that has been adapted to mice, and it's a hot strain, and therefore, it may not be translatable to sporadic disease, correct. All we can say for sure is that it is a human TSE, and it is not variant. I think that's about it.

DR. GAMBETTI: I agree, but this is also not perhaps the best --

DR. BROWN: No, it is not the best. We understand --

DR. GAMBETTI: -- of GSS either.

DR. BROWN: Yeah. If we had to do it over again, we'd look around for a -- well, I don't know. We'd probably do it the same way because we have two sporadics already on test they haven't transmitted, and so you can take your pick of what you want to pay attention to.

Jay?

DR. EPSTEIN: Yes, Paul. Could you just comment? If I understood you correctly, when you did the pooled apheresis plasma from the six chimps when they were symptomatic at 31 weeks, you also put leukocytes into squirrel monkeys in that case separately IV and IC, but in that instance you have not seen an infection come down in squirrel monkey, and the question is whether it's puzzling that you got transmission from the 27-week asymptomatic sampling, whereas you did not see transmission from the 31-week sampling in symptomatic animals.

DR. BROWN: Yes, I think there are two or three possible explanations, and I don't know if any of them are important. The pre-symptomatic animal was almost symptomatic as it turned out so that we were pretty close to the period at which symptoms would being, and whether you can, you know, make much money on saying one was incubation period and the other was symptomatic in this particular case because both bleedings were so close together. That's one possibility.

The other possibility is we're dealing with a very irregular phenomenon and you're not surprised at all by surprises, so to speak so that a single animal, you could see it almost anywhere.

The third is that we, in fact, did just what I suggested we didn't want to do for the preclinical, namely, by pooling we got under the threshold. See?

You can again take that for what it's worth. It is a possible explanation, and again, until we know what the levels of infectivity are and whether by pooling we get under the threshold of transmission, we simply cannot make pronouncements.

CHAIRPERSON PRIOLA: Dr. DeArmond.

DR. DeARMOND: Yeah, it was very interesting data, but the --

(Laughter.)

DR. BROWN: I just love it. Go ahead.

DR. DeARMOND: Two comments. The first one was that the GSS cases, as I remember from reading your publications -- I think Gibbs was involved with them -- when you transmitted the GSS into animals, into monkeys, perhaps I think it was chimps, the transmission was more typical of CJD rather than GSS. There were no amyloid plaques. It was vacuolar degeneration so that you may be transmitting a peculiar form, as I criticized once in Bali and then you jumped all over me about.

DR. BROWN: I may do it again.

DR. DeARMOND: Calling me a bigot and some other few things like that.

(Laughter.)

DR. BROWN: Surely not. I wouldn't have said that.

DR. DeARMOND: So there could be something strange about that particular --

DR. BROWN: Yeah. I think you and Pierluigi are on the same page here. This may be an unusual strain from a number of points of view.

DR. DeARMOND: The other question though has to do with species barrier because the data you're showing is kind of very reassuring to us that it's hard to transmit from blood, but the data from the sheep and from the hamsters and some of the work, I think, that has been done by others, that it's easy in some other animals to transmit, hamster to hamster, mouse to mouse.

Could you comment on the --

DR. BROWN: That's exactly why we went to primates. That's exactly it, because a primate is closer to a human than a mouse is, and that's just common sense.

And so to try and get a little closer to the human situation and not totally depend on rodents for transferrable data, that is why you would use a primate. Otherwise you wouldn't use them. They're too expensive and they cause grief to animal care study people and protocol makers and the whole thing.

Primate studies are a real pain.

DR. DeARMOND: But right now it's inconclusive and you need more time on it.

DR. BROWN: I believe that's true. I think if we cut it off at six years you could still say it was inconclusive, and cutting it off at all will be to some degree inconclusive, and that's just the way it is.

DR. DeARMOND: So what has to be done? Who do you have to convince, or who do we all have to convince to keep that going?

DR. BROWN: Thomas?

Without trying to be flip at all, the people that would be the first people to try to convince would be the funders of the original study. If that fails, and it might for purely practical reasons of finance, then we will have to look elsewhere because I really don't want to see those animals sacrificed, not those eight buddies. Those are crucial animals, and they don't cost a whole lot to maintain. You can maintain eight -- well, they cost a lot from my point of view, but 15 to $20,000 a year would keep them going year after year.

CHAIRPERSON PRIOLA: Dr. Johnson.

DR. JOHNSON: Yeah, Paul, I'm intrigued as you are by the shortening of the incubation period. Have you in all of the other years of handling these animals when they were transfused, when they were flown out to Louisiana at night -- a lot of the stressful things have happened to some of these chimps. Have you ever noticed that before or is this a new observation?

DR. BROWN: Brand new.

MR. JOHNSON: Brand new. Okay.

CHAIRPERSON PRIOLA: Bob, did you want to say something? Dr. Rohwer.

DR. ROHWER: The Frederick fire, wasn't that correlated with a lot of --

DR. BROWN: Not that I k now of, but you may --

DR. ROHWER: Well, that occurred shortly after I came to NIH, and what I remember is that there were a whole bunch of conversions that occurred within the few months following the fire. That was fire that occurred adjacent to the NINDS facility, but in order to protect it, they moved the monkeys out onto the tarmac because they weren't sure it wouldn't burn as well.

DR. BROWN: Well, if you're right, then it's not brand new, but I mean, I'm not sure how we'll ever know because if I call Carlton and ask him, I'm not sure but what I would trust the answer that he gives me, short of records.

You know, Carlot is a very enthusiastic person, and he might say, "Oh, yeah, my God, the whole floor died within three days," but I would want to verify that.

On the other hand, it may be verifiable. There possibly are records that are still extant.

DR. ROHWER: Actually I thought I heard the story from you.

(Laughter.)

DR. BROWN: You didn't because it's brand new for me. I mean, either that or I'm on the way

(Laughter.)

CHAIRPERSON PRIOLA: Dr. Bracey.

DR. BRACEY: I was wondering if some of the variability in terms of the intravenous infection route may be related to intraspecies barriers, that is, the genetic differences, the way the cells, the white leukocytes are processed, whether or not microchimerism is established, et cetera.

DR. BROWN: I don't think that processing is at fault, but the question, the point that you raise is a very good one, and needless to say, we have material with which we can analyze genetically all of the animals, and should it turn out that we get, for example, -- I don't know -- a transmission in one variant monkey and no transmissions in another and a transmission in three sporadic monkeys, we will at that point genetically analyze every single animal that has been used in this study, but we wanted to wait until we could see what would be most useful to analyze.

but the material is there, and if need be, we'll do it.

CHAIRPERSON PRIOLA: Okay. Thank you very much, Dr. Brown.

I think we'll move on to the open public hearing section of the morning.

snip...

http://www.fda.gov/ohrms/dockets/ac/04/transcripts/4019t1.DOC



snip...



see full text ;


http://tseac.blogspot.com/2009/09/tseac-meeting-february-12-2004-baxter.html




Tuesday, May 17, 2011


blood supply Creutzfeldt-Jakob Disease 16 May 2011 : Column 61W Commons Hansard

Creutzfeldt-Jakob Disease


http://vcjdtransfusion.blogspot.com/2011/05/blood-supply-creutzfeldt-jakob-disease.html




http://vcjdtransfusion.blogspot.com/





Saturday, May 14, 2011

USA Blood products, collected from a donor who was at risk for vCJD, were distributed Nationally and Internationally MAY 11, 2011

http://vcjdtransfusion.blogspot.com/2011/05/usa-blood-products-collected-from-donor.html


Wednesday, February 2, 2011

Detection of prion infection in variant Creutzfeldt-Jakob disease: a blood-based assay

http://transmissiblespongiformencephalopathy.blogspot.com/2011/02/detection-of-prion-infection-in-variant.html


Monday, February 7, 2011

FDA's Currently-Recommended Policies to Reduce the Possible Risk of Transmission of CJD and vCJD by Blood and Blood Products 2011 ???

http://tseac.blogspot.com/2011/02/fdas-currently-recommended-policies-to.html


Thursday, August 12, 2010

USA Blood products, collected from a donor who was at risk for vCJD, were distributed July-August 2010

http://creutzfeldt-jakob-disease.blogspot.com/2010/08/usa-blood-products-collected-from-donor.html


Sunday, August 01, 2010

Blood product, collected from a donors possibly at increased risk for vCJD only, was distributed USA JULY 2010

http://vcjdtransfusion.blogspot.com/2010/08/blood-product-collected-from-donors.html





Tuesday, September 14, 2010


Transmissible Spongiform Encephalopathies Advisory Committee; Notice of Meeting October 28 and 29, 2010 (COMMENT SUBMISSION)


http://tseac.blogspot.com/2010/09/transmissible-spongiform_14.html




Sunday, May 10, 2009

Meeting of the Transmissible Spongiform Encephalopathies Committee On June 12, 2009 (Singeltary submission)

TO : william.freas@fda.hhs.gov

May 8, 2009

Greetings again Dr. Freas, TSEAC et al,

I would kindly, once again, wish to comment at this meeting about the urgent actions that need to be taken asap, to the Meeting of the Transmissible Spongiform Encephalopathies Committee On June 12, 2009. Due to my disability from my neck injury, I will not be attending this meeting either, however I hope for my submission to be read and submitted. ...

IN reply to ;

http://tseac.blogspot.com/2009/05/meeting-of-transmissible-spongiform.html


From: Terry S. Singeltary Sr.

To: FREAS@CBER.FDA.GOV

Cc: william.freas@fda.hhs.gov ; rosanna.harvey@fda.hhs.gov

Sent: Friday, December 01, 2006 2:59 PM

Subject: Re: TSE advisory committee for the meeting December 15, 2006 [TSS SUBMISSION

snip...

ONE FINAL COMMENT PLEASE, (i know this is long Dr. Freas but please bear with me)

THE USA is in a most unique situation, one of unknown circumstances with human and animal TSE. THE USA has the most documented TSE in different species to date, with substrains growing in those species (BSE/BASE in cattle and CWD in deer and elk, there is evidence here with different strains), and we know that sheep scrapie has over 20 strains of the typical scrapie with atypical scrapie documented and also BSE is very likely to have passed to sheep. all of which have been rendered and fed back to animals for human and animal consumption, a frightening scenario. WE do not know the outcome, and to play with human life around the globe with the very likely TSE tainted blood from the USA, in my opinion is like playing Russian roulette, of long duration, with potential long and enduring consequences, of which once done, cannot be undone.

These are the facts as i have come to know through daily and extensive research of TSE over 9 years, since 12/14/97. I do not pretend to have all the answers, but i do know to continue to believe in the ukbsenvcjd only theory of transmission to humans of only this one strain from only this one TSE from only this one part of the globe, will only lead to further failures, and needless exposure to humans from all strains of TSE, and possibly many more needless deaths from TSE via a multitude of proven routes and sources via many studies with primates and rodents and other species. ...

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

snip... 48 pages...

http://www.regulations.gov/fdmspublic/ContentViewer?objectId=09000064801f3413&disposition=attachment&contentType=msw8



APHIS-2006-0041-0006 TSE advisory committee for the meeting December 15, 2006

(this starts out in part III, then part II, and part I and the beginning is at the bottom. ...tss)

http://www.regulations.gov/fdmspublic/ContentViewer?objectId=09000064801f3413&disposition=attachment&contentType=msw8


Owens, Julie

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

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

To: FSIS Regulations

Comments

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

Page 1 of 98

8/3/2006

Greetings FSIS,

I would kindly like to comment on the following ;


http://www.fsis.usda.gov/OPPDE/Comments/2006-0011/2006-0011-1.pdf


http://www.scribd.com/doc/1490709/USDA-200600111


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

http://www.fsis.usda.gov/OPPDE/Comments/2006-0011/2006-0011-1.pdf


suppressed peer review of Harvard study October 31, 2002

http://www.fsis.usda.gov/oa/topics/BSE_Peer_Review.pdf


Harvard Risk Assessment of Bovine Spongiform Encephalopathy Update, October 31, 2005

INTRODUCTION

The United States Department of Agriculture’s Food Safety and Inspection Service (FSIS) held a public meeting on July 25, 2006 in Washington, D.C. to present findings from the Harvard Risk Assessment of Bovine Spongiform Encephalopathy Update, October 31, 2005 (report and model located on the FSIS website:

http://www.fsis.usda.gov/Science/Risk_Assessments/index.asp).


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:

http://www.fsis.usda.gov/PDF/BSE_Risk_Assess_Response_Public_Comments.pdf



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

From: Terry S. Singeltary Sr. [mailto:flounder@wt.net]

Sent: Tuesday, February 18, 2003 12:45 PM

To: Freas, William

Cc: Langford, Sheila

Subject: Re: re-vCJD/blood and meeting of Feb. 20, 2003

Greetings FDA,

Asante/Collinge et al, that BSE transmission to the 129-methionine

genotype can lead to an alternate phenotype that is indistinguishable

from type 2 PrPSc, the commonest _sporadic_ CJD;

http://www.fda.gov/ohrms/dockets/ac/03/slides/3923s1_OPH.htm



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, 200l 3:03 PM freas ...

http://www.fda.gov/ohrms/dockets/ac/01/slides/3681s2_09.pdf



Tuesday, February 8, 2011

U.S.A. 50 STATE BSE MAD COW CONFERENCE CALL Jan. 9, 2001

http://tseac.blogspot.com/2011/02/usa-50-state-bse-mad-cow-conference.html



Monday, May 30, 2011

CEPs for gelatin and impact of the revised EU Note for Guidance on the TSE risk EMEA/410/01 Rev.3) will come into force in July 2011

http://transmissiblespongiformencephalopathy.blogspot.com/2011/05/ceps-for-gelatin-and-impact-of-revised.html



Friday, May 13,

2011 EFSA Joint Scientific Opinion on any possible epidemiological or molecular association between TSEs in animals and humans

http://transmissiblespongiformencephalopathy.blogspot.com/2011/05/efsa-joint-scientific-opinion-on-any.html


Tuesday, May 24, 2011 2:24 PM

O.I.E. Terrestrial Animal Health Standards Commission and prion (TSE) disease reporting 2011

http://transmissiblespongiformencephalopathy.blogspot.com/2011/05/oie-terrestrial-animal-health-standards.html


Topics in Current Chemistry, 2011, 1-28, DOI: 10.1007/128_2011_161

Atypical Prion Diseases in Humans and Animals

Michael A. Tranulis, Sylvie L. Benestad, Thierry Baron and Hans Kretzschmar

Abstract

Although prion diseases, such as Creutzfeldt–Jakob disease (CJD) in humans and scrapie in sheep, have long been recognized, our understanding of their epidemiology and pathogenesis is still in its early stages. Progress is hampered by the lengthy incubation periods and the lack of effective ways of monitoring and characterizing these agents. Protease-resistant conformers of the prion protein (PrP), known as the “scrapie form” (PrPSc), are used as disease markers, and for taxonomic purposes, in correlation with clinical, pathological, and genetic data. In humans, prion diseases can arise sporadically (sCJD) or genetically (gCJD and others), caused by mutations in the PrP-gene (PRNP), or as a foodborne infection, with the agent of bovine spongiform encephalopathy (BSE) causing variant CJD (vCJD). Person-to-person spread of human prion disease has only been known to occur following cannibalism (kuru disease in Papua New Guinea) or through medical or surgical treatment (iatrogenic CJD, iCJD). In contrast, scrapie in small ruminants and chronic wasting disease (CWD) in cervids behave as infectious diseases within these species. Recently, however, so-called atypical forms of prion diseases have been discovered in sheep (atypical/Nor98 scrapie) and in cattle, BSE-H and BSE-L. These maladies resemble sporadic or genetic human prion diseases and might be their animal equivalents. This hypothesis also raises the significant public health question of possible epidemiological links between these diseases and their counterparts in humans.

Keywords Animal - Atypical - Atypical/Nor98 scrapie - BSE-H - BSE-L - Human - Prion disease - Prion strain - Prion type

http://resources.metapress.com/pdf-preview.axd?code=f433r34h34ugg617&size=largest



Monday, May 23, 2011

Atypical Prion Diseases in Humans and Animals 2011

Top Curr Chem (2011)

DOI: 10.1007/128_2011_161

# Springer-Verlag Berlin Heidelberg 2011

http://bse-atypical.blogspot.com/2011/05/atypical-prion-diseases-in-humans-and.html




Wednesday, March 31, 2010

Atypical BSE in Cattle

To date the OIE/WAHO assumes that the human and animal health standards set out in the BSE chapter for classical BSE (C-Type) applies to all forms of BSE which include the H-type and L-type atypical forms. This assumption is scientifically not completely justified and accumulating evidence suggests that this may in fact not be the case. Molecular characterization and the spatial distribution pattern of histopathologic lesions and immunohistochemistry (IHC) signals are used to identify and characterize atypical BSE. Both the L-type and H-type atypical cases display significant differences in the conformation and spatial accumulation of the disease associated prion protein (PrPSc) in brains of afflicted cattle. Transmission studies in bovine transgenic and wild type mouse models support that the atypical BSE types might be unique strains because they have different incubation times and lesion profiles when compared to C-type BSE.

When L-type BSE was inoculated into ovine transgenic mice and Syrian hamster the resulting molecular fingerprint had changed, either in the first or a subsequent passage, from L-type into C-type BSE. In addition, non-human primates are specifically susceptible for atypical BSE as demonstrated by an approximately 50% shortened incubation time for L-type BSE as compared to C-type. Considering the current scientific information available, it cannot be assumed that these different BSE types pose the same human health risks as C-type BSE or that these risks are mitigated by the same protective measures.

This study will contribute to a correct definition of specified risk material (SRM) in atypical BSE. The incumbent of this position will develop new and transfer existing, ultra-sensitive methods for the detection of atypical BSE in tissue of experimentally infected cattle.

http://www.prionetcanada.ca/detail.aspx?menu=5&dt=293380&app=93&cat1=387&tp=20&lk=no&cat2





Thursday, August 12, 2010

Seven main threats for the future linked to prions

First threat

The TSE road map defining the evolution of European policy for protection against prion diseases is based on a certain numbers of hypotheses some of which may turn out to be erroneous. In particular, a form of BSE (called atypical Bovine Spongiform Encephalopathy), recently identified by systematic testing in aged cattle without clinical signs, may be the origin of classical BSE and thus potentially constitute a reservoir, which may be impossible to eradicate if a sporadic origin is confirmed.

***Also, a link is suspected between atypical BSE and some apparently sporadic cases of Creutzfeldt-Jakob disease in humans. These atypical BSE cases constitute an unforeseen first threat that could sharply modify the European approach to prion diseases.

Second threat

snip...

http://www.neuroprion.org/en/np-neuroprion.html


http://prionpathy.blogspot.com/2010/08/seven-main-threats-for-future-linked-to.html


http://prionpathy.blogspot.com/



Rural and Regional Affairs and Transport References Committee

The possible impacts and consequences for public health, trade and agriculture of the Government’s decision to relax import restrictions on beef Final report June 2010

2.65 At its hearing on 14 May 2010, the committee heard evidence from Dr Alan Fahey who has recently submitted a thesis on the clinical neuropsychiatric, epidemiological and diagnostic features of Creutzfeldt-Jakob disease.48 Dr Fahey told the committee of his concerns regarding the lengthy incubation period for transmissible spongiform encephalopathies, the inadequacy of current tests and the limited nature of our current understanding of this group of diseases.49

2.66 Dr Fahey also told the committee that in the last two years a link has been established between forms of atypical CJD and atypical BSE. Dr Fahey said that: They now believe that those atypical BSEs overseas are in fact causing sporadic Creutzfeldt-Jakob disease. They were not sure if it was due to mad sheep disease or a different form. If you look in the textbooks it looks like this is just arising by itself. But in my research I have a summary of a document which states that there has never been any proof that sporadic Creutzfeldt-Jakob disease has arisen de novo—has arisen of itself. There is no proof of that. The recent research is that in fact it is due to atypical forms of mad cow disease which have been found across Europe, have been found in America and have been found in Asia. These atypical forms of mad cow disease typically have even longer incubation periods than the classical mad cow disease.50

http://www.aph.gov.au/senate/committee/rrat_ctte/mad_cows/report/report.pdf


Wednesday, January 19, 2011

EFSA and ECDC review scientific evidence on possible links between TSEs in animals and humans Webnachricht 19 Januar 2011

http://transmissiblespongiformencephalopathy.blogspot.com/2011/01/efsa-and-ecdc-review-scientific.html


Tuesday, January 18, 2011

Agent strain variation in human prion disease: insights from a molecular and pathological review of the National Institutes of Health series of experimentally transmitted disease

http://transmissiblespongiformencephalopathy.blogspot.com/2011/01/agent-strain-variation-in-human-prion.html


something that disturbs me very much, iatrogenic prion TSE exposure and accumulation there from all of the above ???


Tuesday, March 29, 2011

TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHY EXPOSURE SPREADING VIA HOSPITALS AND SURGICAL PROCEDURES AROUND THE GLOBE

http://transmissiblespongiformencephalopathy.blogspot.com/2011/03/transmissible-spongiform-encephalopathy.html


Saturday, March 5, 2011

MAD COW ATYPICAL CJD PRION TSE CASES WITH CLASSIFICATIONS PENDING ON THE RISE IN NORTH AMERICA

http://transmissiblespongiformencephalopathy.blogspot.com/2011/03/mad-cow-atypical-cjd-prion-tse-cases.html


Tuesday, April 26, 2011

sporadic CJD RISING Text and figures of the latest annual report of the NCJDRSU covering the period 1990-2009 (published 11th March 2011)

http://creutzfeldt-jakob-disease.blogspot.com/2011/04/sporadic-cjd-rising-text-and-figures-of.html


PRION MAD COW UDPATE NORTH AMERICA 2011

Sunday, April 3, 2011

PRION 2011 NEWWORLD MONTREAL CANADA MAY 16 - 19

http://transmissiblespongiformencephalopathy.blogspot.com/2011/04/prion-2011-newworld-montreal-canada-may.html


Tuesday, April 5, 2011

Action Plan National Program 103 Animal Health 2012-2017 PRIONS AND TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHY

Action Plan National Program 103 Animal Health 2012-2017

http://transmissiblespongiformencephalopathy.blogspot.com/2011/04/action-plan-national-program-103-animal.html


Greetings,

WITH more and more atypical Transmissible Spongiform Encephalopathy cases showing up in more and more species here in North America, and the enormous monumental amount of banned mad cow protein in commerce since the infamous partial and voluntary mad cow feed ban inked on paper, with tons and tons crossing back and forth between the USA, Canada, and Mexico, it just does not surprise me of all these "PENDING CLASSIFICATIONS" of human TSE in Canada, and the USA. UK c-BSE transmitted to humans became nvCJD. WE now have atypical strains of BSE in cattle. Mission Texas experiments long ago showed that transmitted USA sheep scrapie to USA bovine, produced a TSE much different than the UK typical c-BSE. SO why would human TSE in the USA look like UK human TSE ? The corruption is mind boggling. The UK saw a suspicious TSE in humans, and science linked it to cattle. North America is awash with human and animal TSE, CJD is rising in young and old, with the same pathology and same symptoms, and none of it is related to the other. isn't that nice. who, what, bestowed such miracles upon North America $

Archive Number 20100405.1091 Published Date 05-APR-2010

Subject PRO/AH/EDR> Prion disease update 1010 (04)

snip...

[Terry S. Singeltary Sr. has added the following comment:

"According to the World Health Organisation, the future public health threat of vCJD in the UK and Europe and potentially the rest of the world is of concern and currently unquantifiable. However, the possibility of a significant and geographically diverse vCJD epidemic occurring over the next few decades cannot be dismissed.

The key word here is diverse. What does diverse mean? If USA scrapie transmitted to USA bovine does not produce pathology as the UK c-BSE, then why would CJD from there look like UK vCJD?"



http://www.promedmail.org/pls/apex/f?p=2400:1001:568933508083034::NO::F2400_P1001_BACK_PAGE,F2400_P1001_PUB_MAIL_ID:1000,82101



CANADA CJD UPDATE 2011


CJD Deaths Reported by CJDSS1, 1994-20112 As of January 31, 2011

3. Final classification of 49 cases from 2009, 2010, 2011 is pending.

snip...

http://www.phac-aspc.gc.ca/hcai-iamss/cjd-mcj/cjdss-ssmcj/pdf/stats_0111-eng.pdf



USA 2011

USA

National Prion Disease Pathology Surveillance Center

Cases Examined1

(November 1, 2010)

Year Total Referrals2 Prion Disease Sporadic Familial Iatrogenic vCJD

1996 & earlier 51 33 28 5 0 0

1997 114 68 59 9 0 0

1998 87 51 43 7 1 0

1999 121 73 65 8 0 0

2000 146 103 89 14 0 0

2001 209 119 109 10 0 0

2002 248 149 125 22 2 0

2003 274 176 137 39 0 0

2004 325 186 164 21 0 13

2005 344 194 157 36 1 0

2006 383 197 166 29 0 24

2007 377 214 187 27 0 0

2008 394 231 205 25 0 0

2009 425 258 215 43 0 0

2010 333 213 158 33 0 0

TOTAL 38315 22656 1907 328 4 3

1 Listed based on the year of death or, if not available, on year of referral;

2 Cases with suspected prion disease for which brain tissue and/or blood (in familial cases) were submitted;

3 Disease acquired in the United Kingdom;

4 Disease was acquired in the United Kingdom in one case and in Saudi Arabia in the other case;

5 Includes 18 cases in which the diagnosis is pending, and 18 inconclusive cases;

6 Includes 23 (22 from 2010) cases with type determination pending in which the diagnosis of vCJD has been excluded.

http://www.cjdsurveillance.com/pdf/case-table.pdf


Please notice where sporadic CJD cases in 1996 went from 28 cases, to 215 cases in 2009, the highest recorded year to date. sporadic CJD is on a steady rise, and has been since 1996.

I also urge you to again notice these disturbing factors in lines 5 and 6 ;

5 Includes 18 cases in which the diagnosis is pending, and 18 inconclusive cases;

6 Includes 23 (22 from 2010) cases with type determination pending in which the diagnosis of vCJD has been excluded.



========end=====tss=====2011


Monday, August 9, 2010

National Prion Disease Pathology Surveillance Center Cases Examined (July 31, 2010)

(please watch and listen to the video and the scientist speaking about atypical BSE and sporadic CJD and listen to Professor Aguzzi)

http://prionunitusaupdate2008.blogspot.com/2010/08/national-prion-disease-pathology.html



DID EVERYONE THAT LOST A LOVED ONE FILL OUT THEIR CJD QUESIONNAIRE FROM THE CDC AND OR THE CJD FOUNDATION ???


Friday, November 30, 2007

CJD QUESTIONNAIRE USA CWRU AND CJD FOUNDATION

http://cjdquestionnaire.blogspot.com/2007/11/cjd-questionnaire.html


http://cjdquestionnaire.blogspot.com/



The statistical incidence of CJD cases in the United States has been revised to reflect that there is one case per 9000 in adults age 55 and older. Eighty-five percent of the cases are sporadic, meaning there is no known cause at present.


http://www.cjdfoundation.org/fact.html


http://cjdusa.blogspot.com/



http://transmissiblespongiformencephalopathy.blogspot.com/


PLEASE REMEMBER ;

AS implied in the Inset 25 we must not _ASSUME_ that transmission of BSE to other species will invariably present pathology typical of a scrapie-like disease.

snip.

http://web.archive.org/web/20010305222642/www.bseinquiry.gov.uk/files/yb/1991/01/04004001.pdf



OR nvCJD. ......could look like anyone or all of the sporadic CJD's. ...TSS



Friday, April 15, 2011

PRION TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHY PROJECTS, RESEARCH FUNDING, BSE VOLUNTARY TESTING UPDATE IN NORTH AMERICA 2011

http://prionunitusaupdate2008.blogspot.com/2011/04/prion-transmissible-spongiform.html


Wednesday, March 9, 2011

27 U.S. Senators want to force feed Japan Highly Potential North America Mad Cow Beef TSE PRION CJD March 8, 2011

President Barack Obama The White House

1600 Pennsylvania Avenue, W Washington, DC 20500

Dear President Obama:

http://transmissiblespongiformencephalopathy.blogspot.com/2011/03/27-us-senators-want-to-force-feed-japan.html


Thursday, May 26, 2011

Travel History, Hunting, and Venison Consumption Related to Prion Disease Exposure, 2006-2007 FoodNet Population Survey

Journal of the American Dietetic Association Volume 111, Issue 6 , Pages 858-863, June 2011.

http://transmissiblespongiformencephalopathy.blogspot.com/2011/05/travel-history-hunting-and-venison.html


WHAT about funding in the USA for 2010 on prion disease. a big fat zero dollars $ 0.0 $


PRION TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHY RESEARCH FUNDING U.S.A.

COMPARE TO USA PRION FUNDING 2011

"which includes the ___elimination___ of Prion activities ($5,473,000),"

All Other Emerging and Zoonotic Infectious Diseases CDC‘s FY 2012 request of $52,658,000 for all other emerging and zoonotic infectious disease activities is a decrease of $13,607,000 below the FY 2010 level, which includes the elimination of Prion activities ($5,473,000), a reduction for other cross-cutting infectious disease activities, and administrative savings. These funds support a range of critical emerging and zoonotic infectious disease programs such Lyme Disease, Chronic Fatigue Syndrome, and Special Pathogens, as well as other activities described below.

http://www.cdc.gov/fmo/topic/Budget%20Information/appropriations_budget_form_pdf/FY2012_CDC_CJ_Final.pdf



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

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