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How well do institutional review boards work at protecting patient’s rights?

3 Feb

One factor that struck me in the interview that Brian Deer gave recently was the fact that until rather recently, he would have had no method to obtain the ethics committee (in the US institutional review board or IRB) information on Andrew Wakefield’s research. The IRB was internal to the hospital. Without the Freedom of Information Act, he may never have gotten access to these records.

He [Andrew Wakefield] could never have expected when he was doing this research that all of a sudden his funding would be exposed to scrutiny, and also the Ethics Committee. In America called Institutional Review Boards. Bodies of doctors, scientists, others associated with medical centers which give permission for research to take place. The paperwork of that body of the Royal Free Hospital also moved into the public domain by the Freedom of Information Act. I think I was the first person ever to get hold of these kinds of papers.

Andrew Wakefield clearly didn’t take ethics approval seriously. He started his program before the ethics approvals were in place. When asked to explain why he took blood at a birthday party without ethics approval, his explanation was that he didn’t think that ethics approval was needed for people who were not NHS patients.

Q Did not that difficulty, which, as I say, appears to have been encountered by researchers other than yourself, indicate to you that there were ethical considerations about undertaking this procedure on normal children?
A Yes. The ethical considerations that I considered were clearly that there was full informed parental and child consent. As I have said, my understanding at that time was that ethics committees existed for the protection of NHS patients.

In another infamous example, David and Mark Geier received approval for research from an IRB. The IRB was had David and Mark Geier, Mrs. Geier and other interested parties as members. This would not have come to light without another Freedom of Information Act (US) request. If I recall correctly, the IRB was instituted after the research began as well.

I know that these are pretty egregious examples but I am left wondering–how many researchers consider ethical approval to be just an annoyance? Just some rubber stamp they need in order to do their research? I hope the number is small. I hope that in the day of FOIA requests, institutions and researchers take this seriously.

How the Lancet reviewed the 1998 Wakefield Lancet paper

28 Jan

A recent discussion here on LeftBrainRightBrain involved the peer review process and, in specific, how the 1998 Lancet paper by Wakefield and coworkers was reviewed. As I prepared a response I saw that (a) the response was getting long and (b) this gives a discussion of the peer review process in general, which could be of interest to some readers. So I decided to blog yet again about Mr. Wakefield. So, with apologies to those who have tired of Andrew Wakefied:

Here is Richard Horton being questioned about the general process of peer review of papers for The Lancet (from Day 16 of the GMC hearing). Note that it was typical for 3 referees to be engaged. It has been reported that the Wakefield Lancet paper used 6 reviewers. If so, it is very interesting. Why would the Lancet have gone after extra reviewers?

Lower down, you will find a discussion of the process involved in the Wakefield et al. Lancet paper.

Q Once that process is complete, they have seen the paper and written reports on it, what happens next?
A Those reports back in 1997 would have been sent in my mail, collated by the editor and, when all the reports were available, then he or she would present the paper plus the peer review comments at the Thursday afternoon editorial meeting and the debate would ensue.

Q Is it customary for people who have reviewed the paper to say critical things as well as positive things?
A Extremely, yes, very much so.

Q How do you handle those as far as the authors of the paper are concerned?
A We have two separate components. They say things that they are happy to be transmitted to the authors and they also provide confidential comments that they say they report to the editors, which often presents us with a tricky situation because they are frequently very polite to authors and somewhat less polite when they are discussing a paper in front of us privately.

Q On those parts that they are happy to have relayed to the authors, do you discuss any criticisms that have been made?
A On the Thursday afternoon meetings?

Q Or at all?
A We certainly debate all the pros and cons of the paper at the manuscript meeting and make a decision then whether we are going to reject the paper, seek further opinion or open negotiations with the authors.

Q Will there be, at that state, any general discussion about other matters which might be relevant to publication?
A Certainly we will be discussing whether the paper has aspects of it that might cause controversy and should be considered in judging a paper, whether there are any conflicts of interest that should be taken into account in considering the paper or any other aspects of the work that might have cause for concern.

Q At the end of that meeting, do you then make a final decision as to whether you are going to reject the paper or admit it for publication?
A Three options: either to reject, to open negotiations or to seek further opinion.

Q Can you tell us what open negotiations means?
A That means that if there are questions raised by one or more of the peer reviewers that we think require explanation or further elucidation in a revised manuscript by the authors, then we will go back to the authors and say please can you take a look at your paper, in the light of these reviewers’ comments, and make the necessary adjustments. They hopefully will take account of those questions, submit a revised version of the paper and then we go back into a Thursday afternoon discussion to decide whether that is acceptable or not.

Q The third option you said was to seek a further opinion. Is that over and above the peer reviews you have already had done?
A Yes, that is right. Particularly I would say now that is quite a common option but back in 1997 it was less common.

And here is a discussion of the Wakefield et al. 1998 Lancet paper:

Q Do you have any recollection or are you assuming that it would have been the norm as far as the number of others who were concerned?
A Yes, it would have been the norm to have sent it to three external advisers and a statistical reviewer.

Q Do you have any recollection of the nature of the reviews that were received?
A From what I can recall, there were two aspects that were most important. The first was that all of the reviewers remarked on the original nature of the description of the syndrome and felt that this was something that merited consideration for a general medical journal but there was concern about the reporting of the parents’ testimony relating to a possible temporal link with MMR vaccine.

Q We have the log book for when the paper was first discussed. I think it is right, I should say, so the Panel is clear, the actual reviews are no longer available?
A I am afraid that is so.

Q We do have the log book. If you look in the same volume, page 637, we see, in the middle of the page, the left-hand number is a manuscript number, is that correct?
A Correct. That would have meant it was submitted in November, so the first two digits reflect the month, then the next set of digits the simple sequence with which it was entered up by our office.

Q We are about ten figures down at 11096 “new GI syndrome in children”, is that correct?
A Correct, and JB refers to John Bignall under “Ed”.

Q What is the last column?
A The last column is about the decision about the paper. You can see we received two papers: one describing a new G I syndrome in children, and then a second attempting to define the cause of that syndrome. Both papers were taken through peer review by Dr Bignall. The first one, PP means put points, so a set of manuscript reviewer points were put to the authors, and the second paper was rejected after peer review.

Q As far as the title “A new G I syndrome in children” was that of any legal relevance, the title you have given it there?
A This has been a source of much discussion in the past eight or nine years. Many people have focused on the fact or asked the question was The Lancet in some way supporting the linking of MMR vaccination with this syndrome. From our point of view, when we first received the paper, the parental testimony was actually incidental. The central thrust of the paper was this new syndrome. This is not an uncommon kind of report. If you read any text book of epidemiology, the very first description of any new syndrome often comes with either a case report or a case series. If you go back and look in history at, for example, the first reports of HIV and Aids, the first reports of variant CJD, they all began with a simple case series very much like this one. Then it is quite typical for the investigators to ask, and it is their obligation to ask, the families or the patients “Do you have any thoughts yourself about any behaviours or activities you might have done that might have precipitated this syndrome?” For example, if you go back and look at the first reported series of Aids or variant CJD you see questions like that raised and the answers are very speculative. In this case, again, the answers were very speculative. Eight of the 12 families put potential temporal link with MMR vaccination was made. That was very much supplemental to the major theme of the paper which was this new syndrome.

Q Before I turn you to another page, I just wanted to complete things. As far as the second paper, which you rejected, was concerned, did that come from the same research group?
A It did come from the same research group although I cannot recall, and I do not have a record, of exactly what the authorship of that paper was. I do not recollect.

Q Can you help us as to its nature at all?
A From what I can remember, this was a laboratory study trying to identify what the possible cause of the new syndrome was. From what I can remember, this was an attempt to try to isolate a component of the MMR vaccine with this syndrome.

Q Without that paper, the paper with which we are concerned, the 11096 paper made only the temporal link, is that correct, with the MMR vaccine?
A That is exactly right. Not only did it only make the temporal link but it was made very clear in that paper that such a temporal link was not a proof of association, moreover that there was no published evidence to support any association between the vaccine and the new syndrome.

Q If you turn back to the paper, page 783 and go on to 787, the discussion session, we see, in the left-hand column:

“We did not prove an association between measles, mumps and rubella vaccine and the syndrome described. Virological studies are underway that may help to resolve this issue.

If there is a causal link between measles, mumps and rubella vaccine and this syndrome, a rising incidence might be anticipated after the introduction of this vaccine in the UK in 1988. Published evidence is inadequate to show whether there is a change in incidence or a link with measles, mumps and rubella vaccine.”

Then it goes on to the possibilities of a pre-disposition. Do you recall if that paper was, so far as you can remember, in the original submission, the paper originally submitted?
A Those sentences? I certainly remember that “we did not prove an association”, that sentence, was in the final accepted manuscript, yes.

Q When the paper was submitted to you and considered at the manuscript meeting and logged as we have seen with PP beside it, were various amendments then made to the paper in agreement with the authors?
A Yes, that is absolutely routine practice in peer review. Often quite substantial change to papers are made.

Q Then ultimately a decision has to be taken as to whether to publish with those amendments in place, is that correct?
A Correct.

Q If we go back to page 645 we see, the fourth entry down on that page, 11096, now called “new syndrome in children”, is that correct?
A Correct.

Q We see the editor initials JB and then “accepted as ER”, although it is cut off, is that right?
A Yes. ER stands for early report.

Q Rather than asking you to explain that, I would like to go back to look at a description which is given in a editorial which deals with writing for The Lancet, page 615, on the left-hand side, half-way down the page:

“Early reports may simply be preliminary, the first results from a study, whereas subsequent analysis is planned, for example, of an incidental interesting observation from a study set up with another purpose or they may be early in the sense of being well short of changing clinical practice. These papers will tend to be shorter than articles.”

Does that broadly sum up what is meant by early report?
A Yes. What we were trying to do then – and I should say we have dropped the section Early Reports in more recent years – was to offer the opportunity for researchers to identify something at a very early stage before we were absolutely cast solid certain that what was being reported was totally factual. It gave the opportunity for new ideas, for innovation, to be included in the medical literature which we thought was an extremely important function of a medical journal.

Q This report was categorised as an early report and indeed it appears at the top of the actual paper. Can you help us as to which category it fell into? We see here two categories: the first results from a study where a subsequent analysis is planned, or an incidental interesting observation from a study set up with another purpose. Did you have any need to analyse?
A You are very generous in crediting our categorisation in precise terms. The way we felt about early reports was: is this a preliminary observation; is this raising something that is completely original that requires more in-depth investigation to confirm whether it is absolutely true or not. What we were trying to do in instructions to authors, because you can never cover every eventuality in written guidelines, the closest it would come to would be may be early in the sense of being well short of changing clinical practice.

Q I think it is right that when it was actually published it was published with a commentary.
A Yes. There were several mechanisms that we tried to focus on for making sure that when this paper was published it would not cause an adverse public health impact: one was obviously the statement that was obvious already in the paper about no proof of causation or association; a second was making sure that this paper was identified as an early report; but third, and possibly most importantly, we wanted to have external respected experts in measles eradication and control to offer their view. For us the comments that we published was vital in trying to set the context, which was essentially look at this paper with an open mind but please remember that measles vaccination has saved many hundreds of thousands of children’s lives and in considering this first report do not let it have an adverse effect on measles vaccination.

Q Can I ask you, first of all, how common was it at that the time for you to commission this commentary? You commissioned this commentary, is that correct?
A Yes.

Q How common was it for you to commission a commentary to go with a paper that was being published?
A Not uncommon if we were concerned about the interpretation of a paper but much less common than it is today. I would say today in almost every case a research paper will have a comment running with it.

Q Is the comment sought from somebody wholly independent from The Lancet and the researchers?
A Independent of The Lancet certainly. It is very hard sometimes to have people who are completely independent of the investigators. They are often experts in the field and fields, even globally, are often quite small. They will almost certainly be aware of the research or be aware of the investigators. They may even know the investigators very well professionally but we hope they will give an independent judgment about the quality and meaning of the paper, yes.

Q Your commissioning of it in the context of this paper. You have told us that as far as you were concerned, the reference to the link with MMR was relatively tentatively expressed. Did you nonetheless have concerns about the impact it might have?
A We did have concerns. These concerns were raised by the reviewers of the paper and they were also raised by my colleagues and myself in discussion of the paper on a Thursday afternoon. It was clear that if we were going to move ahead and publish this paper, we had two options: either we erased or asked the authors to erase the parental testimony about the possible temporal association with MMR vaccine or, if we were going to publish, we keep that in, but we give as much context as we possibly can.

Q If we could look at the commentary at page 788, it was commissioned from Robert Chen and Frank DeStefano, who work at the Vaccine Safety and Development Activity National Immunisation Program in Atlanta, Georgia. Is that correct?
A Correct. I think just to clarify, the Centre for Disease Control and Prevention is an internationally recognised centre for public health, based, as it is, in the United States, but with very strong global recognition.

Q If you do not mind bearing with me for a moment, just so the Panel can see what this is about – I am not going to read the whole of this, but if we can just run through it – we can see it says:

“Although immunisations rank among the most important public health measures, no vaccine is perfectly safe. Because vaccines are given to millions of healthy people, usually infants, extremely high standards for vaccine safety are demanded. It is therefore important to examine, critically and with an open mind, the report by Andrew Wakefield and colleagues of several children whose chronic bowel and behavioural abnormalities were linked by their parents and physicians to measles, mumps and rubella (MMR) vaccination.”

Then it sets out the various ways that adverse events of a vaccine can be said to be caused:

“ .. if it is associated with a specific laboratory finding and a specific clinical syndrome or both. Alternatively, a clinical or epidemiological study is needed to find out whether the rate of a given syndrome in vaccinated individuals exceeds that expected among unvaccinated controls. Such studies require acquisition of data in an unbiased way. Because of the inherent methodological limitations of epidemiological studies, biological plausibility, consistency, strength and specificity of association must also be considered in inferring causation. How well then do the features of the association reported by Wakefield and colleagues fit with causality?”

Then they point out:

“First, hundreds of millions of people worldwide … have received measles-containing vaccine without developing either chronic bowel or behavioural problems sine the mid-1960s. This finding provides important negative evidence as well as an appropriate framework for the assessment of [the paper].”

It goes on:

“Is the syndrome reported today clinically unique? Ileal lymphoid hyperplasia is non-specific. Autism was known well before MMR vaccine became available. Are there unique laboratory features, including detection of vaccine viruses in clinical specimens where they would not be expected? Although Wakefield has reported the detection of these viruses in patients with inflammatory bowel disease (IBD), other investigators, using more sensitive and specific assays, have not been able to reproduce these findings.”

Then it refers to a negative report which was actually in the same copy of The Lancet. It goes on:

“There is no report of detection of vaccine viruses in the bowel, brain or other tissue of the patients … ”

Then they look at the epidemiological questions:

“Is there selection bias? The Wakefield report is based on cases referred to a group known to be specially interested in studying the relation of MMR vaccine with IBD, rather than a population-based study. A first dose of MMR is given to about 600,000 children every year in the UK, most during the second year of life, the time when autism first becomes manifest. Not surprisingly, therefore, some cases will follow MMR vaccination. Biased case-ascertainment, as in this study, will exaggerate the association.”

Then it says:

“Was there recall bias. It is usually difficult to date precisely the onset of a syndrome such as autism. Parents and others may attempt to relate its onset to an unusual event such as coincidental postvaccinal reaction. The clearest example of such an association was the link between infantile spasms and pertussis vaccine;”

That is, the whooping cough vaccine –

“ … the vaccine tends to unmask rather than cause the syndrome.

There are other reasons for doubt about the association reported by Wakefield and colleagues. They suggest that MMR immunisation may lead to IBD, which results in malabsorption, consequent neurological damage, and ‘autism’. However, behavioural changes preceded bowel symptoms in almost all their reported cases.”

They go on to say:

“Vaccine-safety concerns gain prominence whenever the incidence of vaccine-preventable diseases falls to negligible levels and when the number of vaccine adverse events, whether true reactions or those coincidental to the vaccination but falsely attributed to it … rises as a consequence of high vaccine coverage. False attribution usually occurs because many developmental abnormalities first manifest in the early years of life, which is also when several vaccines – which can cause crying, fever, and, occasionally, febrile seizures – are given.”

Then it underlines the need for effective and credible systems for the detection of vaccine associated adverse events and it ends, you may think, rather prophetically, by saying:

“Without such a system, vaccine-safety concerns such as that reported by Wakefield and colleagues may snowball into societal tragedies when the media and the public confuse association with causality and shun immunisation. This painful history was shared by the UK (among others) over pertussis in the 1970s after another similar case series was widely publicised, and it is likely to be repeated all too easily over MMR. This would be tragic because passion would then conquer reason and the facts again in the UK.”

You published that commentary in those terms, Dr Horton. Did you feel that that was a responsible way forward, given the concerns which you have expressed?
A At the time, most certainly we did.

Q As far as you were concerned, did it highlight the criticisms which could be made in relation to the paper which you were publishing?
A It highlighted the criticisms that, as I recall, were made at the peer review stage, the concerns about possible bias. It highlighted what we were most anxious about, which was any adverse effect which might follow on MMR vaccination, but it also, fairly, we thought at the time, said, “Treat this study with an open mind.”

Q Did the paper in fact result in a very significant amount of correspondence to The Lancet?
A I think you might say that!

Q You say it in that tone of voice. Tones of voice do not always come over in the transcript. Are you suggesting that it was exceptional?
A Well, remember the context. The context was that when the paper was published, it was not published in a medical journal; it was launched, I think would be an appropriate word, at a press conference where other statements were made which were radically different from the statements made in the paper.

Q As far as the press conference is concerned, I think it is right that you did not attend. Is that correct?
A That is correct.

Q But Dr Bignall, the editor directly involved, did attend.
A That is correct.

Q You obviously cannot tell us anything about the press conference, because you were not present, but what I would like you to deal with is this. Did The Lancet have anything to do with the arranging of that?
A No, it did not, sadly.

Q How usual is it as an occurrence for there to be a press briefing or conference prior to the publication of a scientific paper?
A It is not common, but it is increasingly so, because often institutions, funding bodies and authors themselves want to make a splash of their paper to get more publicity for it, especially if it has something important to say. That can be for wholly good reasons. If there is a concern about the efficacy of a treatment or the adverse effect of a treatment, then it is very important that that gets wide publicity.

Q We have in the bundle an example of some of the correspondence which was generated. If you go to page 818, please – I am not going to take you through all that correspondence, Dr Horton, because I am going to invite the Panel to take some time at the end of your evidence to read the documents which we are producing – but just dealing with it very briefly, from page 818, this is the March edition of The Lancet, the paper having been published in February, we see the first letter, for instance, from the Programme on Immunisation of the World Health Organisation, the second one is from the Department of Public Health at Barnsley Health Authority. Then we have a letter which seems to come from a personal address and then at page 819 one from the Scottish Centre for Infection and Environmental Health. Going over to page 820, one from the Institute of Child Health. Would it be fair for me to summarise it by saying that those letters were mainly concerned with concerns as to the public health implications of the paper?
A Oh, absolutely.

Q We see underneath that on page 821 a reply by Dr Wakefield. Again, would it be the norm for you to give publication room to the author of a paper, if that paper has been the subject of significant criticism?
A Yes, indeed. We would consider it a fair way to conduct the debate that there would be responses, but in the same issue allow the original author to respond or in this case, as you can see, the authors divided in their responses.

Q We see, as you say, one from Dr Wakefield and then one from Professor Murch,
Dr Thomson and Professor Walker-Smith. At the end, we see also your own reply:

“The Lancet has been quick to criticise scientific and journalistic exuberance about the release of data that might unduly aggravate public concern. By contrast with these past episodes and with the implied criticism in the letters we publish this week, the paper by Andrew Wakefield and colleagues is an example of how researchers, editors and those concerned with the public’s health can work together to present new evidence in a scientifically balanced and careful way. Wakefield et al informed the UK Department of Health of their findings in 1997 and supplied them with a final copy of their Lancet paper in advance of publication.”

You then say, “(Wakefield A.J, personal communication)” So this arose as a result of information which Dr Wakefield gave to you. Is that right?
A That is right, yes.

Q You say, “There are at least four parts to this story.”
A I should just say, I do not have the second page of that. It goes on.

Q I think that is the end of your reply in relation to the correspondence.
A I think I probably would have gone on to explain what the four parts of the story were. Otherwise it would have been an extremely negligent reply on my part.

NIMH Teams Up to Study ASD Rates in Somali-American Children

21 Jan

There has been a fair amount of discussion in the media and online about the possibility of an autism cluster amongst the Somali-American population in Minneapolis, Minnesota. A report came out last year, Autism Spectrum Disorders Among Preschool Children Participating in the Minneapolis Public Schools Early Childhood Special Education Programs, presenting data on the administrative prevalence of autism in the public schools. They found that, indeed, a higher fraction of Somali-American children were in the autism programs than children of other racial/ethnic backgrounds.

They analyzed the data in a number of ways, but here is one results table:

The administrative prevalence is about 1% in this analysis, which is significantly higher than that for the other subgroups. Many have commented that the Somali-American administrative prevalence is about the same as that for older children in the general population within the Minnesota public school system. This raises the question as to whether the prevalence is actually higher amongst Somali-Americans, or whether it could be that Somali-Americans are identified earlier.

Rather than wait a few years for that question to sort itself out, NIMH, Autism Speaks and the Centers for Disease Control are teaming up to study the situation. They will use the same methodology as used for the CDC’s autism prevalence figures: the Autism and Developmental Disabilities Monitoring (ADDM) Network methods. The ADDM uses a review of medical and educational records, not a direct examination of the children involved. But, this is an established methodology.

Here is the post from the NIMH. (copied in full because, well, it’s the government and therefore public domain):

Members of a Federal Advisory Group on Autism Mobilize in Response to a Mother’s Plea

NIMH, along with three other NIH Institutes, will be supporting a joint effort with the Centers for Disease Control and Prevention (CDC) and Autism Speaks, a private advocacy organization, to investigate reports of elevated prevalence of autism spectrum disorders (ASD) among children born to Somali immigrants living in Minneapolis, Minn.

At the October 2010 meeting of the Interagency Autism Coordinating Committee (IACC), Idil Abdull, a Somali parent and founder of the Somali American Autism Foundation, described the disproportionate numbers of Somali-American children enrolled in preschool ASD special education programs—up to seven times higher than their non-Somali peers, according to a 2009 report by the Minnesota Department of Health. Committee members, which include NIH, CDC, and Autism Speaks, responded immediately by identifying ongoing research that may be expanded to help answer why such a disparity appears to exist, as well as to determine the service needs of children with ASD in Minneapolis and their families.

“This shared effort demonstrates how members of the IACC can respond quickly and cooperatively to an issue brought to the Committee by the public. An increased prevalence of ASD among this specific Somali population would represent both a scientific opportunity and an urgent public health need,” stated Thomas R. Insel, M.D., NIMH Director and chair of the IACC.

With plans to start in early 2011, the three partnering organizations will provide support to the Minnesota Department of Health to collect prevalence data according to the CDC’s established surveillance methods, as used by the Autism and Developmental Disabilities Monitoring (ADDM) Network.

The IACC is a Federal advisory committee that coordinates all efforts within the Department of Health and Human Services concerning ASD. In addition to NIMH, the NIH Institutes supporting this research initiative are:

* Eunice Kennedy Shriver National Institute of Child Health & Human Development
* National Institute of Environmental Health Sciences
* National Institute on Minority Health and Health Disparities

Rebooting the brain helps stop the ring of tinnitus in rats

21 Jan

This is post on the NIH website. It isn’t autism related, but I found the concept very interesting. The idea is that tinnitus (think ringing in the ears an approximation) might be treated. Tinnitus a sensory problem resulting from nerve damage or sensory cell damage. The idea that this could be treated or overcome is something that is quite interesting (at least to me).

Here is the post from the NIH:

Rebooting the brain helps stop the ring of tinnitus in rats

NIH-funded researchers were able to eliminate tinnitus in a group of rats by stimulating a nerve in the neck while simultaneously playing a variety of sound tones over an extended period of time, says a study published today in the advance online publication of the journal Nature. The hallmark of tinnitus is often a persistent ringing in the ears that is annoying for some, debilitating for others, and currently incurable. Similar to pressing a reset button in the brain, this new therapy was found to help retrain the part of the brain that interprets sound so that errant neurons reverted back to their original state and the ringing disappeared. The research was conducted by scientists from the University of Texas at Dallas and MicroTransponder Inc., in Dallas.

“Current treatments for tinnitus generally involve masking the sound or learning to ignore it,” said James F. Battey, Jr., M.D., Ph.D., director of the National Institute on Deafness and Other Communication Disorders (NIDCD), which funded a large part of the research. “If we can find a way to turn off the noise, we’ll be able to improve life substantially for the nearly 23 million American adults who suffer from this disorder.”

Tinnitus is a symptom some people experience as a result of hearing loss. When sensory cells in the inner ear are damaged, such as from loud noise, the resulting hearing loss changes some of the signals sent from the ear to the brain. For reasons that are not fully understood, some people will develop tinnitus as a result.

“We believe the part of the brain that processes sounds — the auditory cortex — delegates too many neurons to some frequencies, and things begin to go awry,” said Michael Kilgard, Ph.D., associate professor of behavior and brain sciences at UT-Dallas, and a co-principal investigator on the study. “Because there are too many neurons processing the same frequencies, they are firing much stronger than they should be.”

In addition, the neurons fire in sync with one another and they also fire more frequently when it is quiet. According to Dr. Kilgard, it’s these changing brain patterns that produce tinnitus, which is usually a high-pitched tone in one or both ears, but it may also be heard as clicking, roaring, or a whooshing sound.

Dr. Kilgard, along with co-principal investigator Navzer Engineer, M.D., Ph.D., of MicroTransponder, Inc., and others on the research team first sought to induce changes in the auditory cortex of a group of rats by pairing stimulation of the vagus nerve, a large nerve that runs from the head and neck to the abdomen, with the playing of a single tone. When the vagus nerve is stimulated, it releases acetylcholine, norepinephrine, and other chemicals that help encourage changes in the brain. They wanted to find out if they could induce more brain cells to become responsive to that tone over a period of time.

For 20 days, 300 times a day, researchers played a high-pitched tone, at 9 kilohertz (kHz), to eight rats. At the same time that the tone was played, an electrode delivered a very small electrical pulse to the vagus nerve. The researchers found that the number of neurons tuned to the 9 kHz frequency had jumped by 79 percent in comparison to the control rats.

In a second group of rats, they randomly played two different tones — one at 4 kHz and the other at 19 kHz — but stimulated the vagus nerve only for the higher tone. Neurons tuned to the higher frequency increased by 70 percent while neurons tuned to the 4 kHz tone actually decreased in number, indicating that the tone alone was not enough to initiate the change. It had to be accompanied by vagus nerve stimulation (VNS).

Next, the researchers tested whether tinnitus could be reversed in noise-exposed rats by increasing the numbers of neurons tuned to frequencies other than the tinnitus frequency. A group of the noise-exposed rats with tinnitus received VNS that was paired with different tones surrounding the tinnitus frequency 300 times a day for about three weeks. Rats in the control group received VNS with no tones, tones with no VNS, or no therapy. For both groups, measurements were taken four weeks after noise exposure, then 10 days after therapy began, and one day, one week, and three weeks after therapy ended.

Rats that received the VNS paired with tones showed promising results for each time point after therapy began, including midway through therapy, indicating that the ringing had stopped for the treated rats. Conversely, the data from control rats indicated their tinnitus had continued throughout the testing period. What’s more, the researchers followed two treated and two control rats for an additional two months and found that the treated rats maintained this benefit for 3.5 months after noise exposure, while the controls continued to be impaired.

The researchers also evaluated neural responses in the auditory cortex in these same rats and found that neurons in the treated rats had returned to their normal levels, where they remained. This indicated that the tinnitus had disappeared. However, the control group levels continued to be distorted, indicating that the tinnitus persisted. Overall, the researchers found that the VNS treatment paired with tones had not only reorganized the neurons to respond to their original frequencies, but it also made the brain responses sharper, decreased excitability, and decreased synchronization of auditory cortex neurons.

“The key is that, unlike previous treatments, we’re not masking the tinnitus, we’re not hiding the tinnitus. We are retuning the brain from a state where it generates tinnitus to a state that does not generate tinnitus. We are eliminating the source of the tinnitus,” said Dr. Kilgard.

VNS is currently being used to treat roughly 50,000 people with epilepsy or depression, and MicroTransponder hopes to conduct clinical studies using VNS with paired tones in tinnitus patients.

“The clinical protocol is being finalized now and a pilot study in tinnitus patients will be conducted in Europe in the near future,” said Dr. Engineer, vice president of preclinical affairs at MicroTransponder. “The support of the NIDCD has been essential to allow our research team to continue our work in this important area of tinnitus research.” MicroTransponder is a neuroscience-based medical device company that is working to develop treatments for a variety of neurological diseases, including tinnitus, chronic pain, and anxiety.

In the meantime, the researchers are currently working to fine-tune the procedure to better understand such details as the most effective number of paired frequencies to use for treatment; how long the treatment should last; and whether the treatment would work equally well for new tinnitus cases in comparison to long-term cases.

Other sponsors of the work include the James S. McDonnell Foundation, St. Louis, Mo.; Norman Hackerman Advanced Research Program, Austin, Texas; Texas Emerging Technology Fund, Austin, Texas; and MicroTransponder, Inc.

For more information about tinnitus, see http://www.nidcd.nih.gov/health/hearing/tinnitus.htm.

Chatting with Seth Mnookin

18 Jan

I don’t want to call what follows an interview as:

a) I’m not that grand
b) It was more friendly than that

So what follows was a meandering email chat Seth and I had about the release of The Panic Virus (Amazon UK, US and CA) and the content in it.

KL: You mention in the book that one reason for writing it was that as a new dad you were keen to explore the issue of vaccination in relation to autism. Do you feel that you’ve come away from the writing process with a greater personal (as a dad) idea(s) of what the vax/anti-vax opposing beliefs are?

SM: Actually, I started the book before I was a father…and before my wife was pregnant. I think it was one of the reasons I was so curious about the topic: I hadn’t experienced the debate on a personal level and so I found it hard to understand how different people I respected could disagree so strongly about the facts.

I’m not sure whether this is a result of the writing/research process or of my becoming a dad, but I feel like I have an understanding of where both sides are coming from–and why they get so frustrated. I can’t pretend to know what my reaction would be if I believed that vaccines had harmed my child.

KL: Do you feel you share the sense of frustration that ‘pro-vaccine’ people have now the book is completed?

SM: That’s a hard question to answer. Overall the situation is extremely frustrating. I feel frustration that the issue has been so poorly covered by the media, and I think our handling of the story has as much as (or more than) anything else to do with where we’ve ended up. I’m also frustrated by the handful of self-anointed experts, like Bob Sears, who give the impression that heeding their (or parents’/patients’) instincts are the proper way to go about dealing with medical decisions.

But I think one of the things that makes this such an intractable issue is that there are not a lot of opportunities for people on opposing sides to sit down and have an actual, human-to-human conversation — at this point emotions are so pitched and the stakes are so high (or feel so high) that a sort of bunker mentality has set in. I was lucky: I cam to this without a horse in the race, as it were, so I was able to have what I think were open and honest conversations with people that I know disagree strenuously with the conclusions I ultimately arrived at.

KL: Thats an interesting thought. At what point in writing the book did you think ‘I know I’ve reached my own conclusions’?

SM: I don’t think there was one point at which I felt like I’d made up my mind about the issues that came up because it didn’t feel to me that there was any one single issue. It’s part of what I found interesting and bewildering about this whole thing. I went to an AutismOne conference in Chicago, and after watching a presentation by Mark and David Geier, I knew I had some real concerns about their approach to treatment. There were some other presentations I saw that I knew from the outset were just factually incorrect, and there were claims about government conspiracies to poison children that I found to be…well, I guess unconvincing is a good word to use.

But I certainly didn’t feel like I knew enough at that point to say whether some of the other treatments that came up had validity, and I didn’t feel like I could say with any confidence whether some of the theories regarding causality had any grounding in fact. There’s a lot of very complicated science involved, so when David Kirby stood in front of an auditorium and talked about mitochondrial disease and genetic susceptibility, I hadn’t done enough research at that time to know whether what he was saying made sense or not.

I did find the all-or-nothing quality to the debate to be disturbing. At AutismOne, it was made very clear to me that I’d be judged in absolutes: If I expressed skepticism about the Geiers, the assumption was that I didn’t think anything else that was being discussed at the conference had any type of validity.

I was open about this when I spoke with people. If I was interviewing someone and the Geiers came up — and I don’t mean to pick on them, but they’re a good example of this because they’re such prominent figures — I’d say that I found their approach to science unconvincing.

I think that there is, among some people at least, a feeling that it’d be better for everyone involved if that with-me-or-against-me attitude wasn’t quite so prevalent. I spoke with Jane Johnson about Andrew Wakefield’s departure from Thoughtful House after the GMC decision was released early last year. I really like Jane — she’s smart and thoughtful and very generous with her time and every time I spoke with her she made me think about things in new ways. And when I asked her why Wakefield had left she didn’t say that it had anything to do with the contents of the GMC ruling, which I really respected: There was not really any new information in the report. Instead, she said that he had become too much of a lightening rod and that Thoughtful House wanted to do more work with Texas medical authorities. I don’t want to misquote her, and these aren’t her words, but she essentially went on to say, This doesn’t all need to be about vaccines. There’s lots of other work to be done here that has nothing to do with vaccines. That’s an attitude I wish more people had.

KL: I know you didn’t set out to write a book about *autism* as such but it seems to attract authors – do you think you’ll always maintain a passing interest in the autism/vaccine issue now?

SM: I think I’ll maintain more than a passing interest in the issue. It’s hard to learn about it – and certainly hard to write about it – without become passionately involved in it, so it’s hard to imagine my not continuing to have some connection to a lot of these issues moving forward.

Increase in NIH autism projects over the past decade

18 Jan

We hear repeatedly how research interest in autism has climbed in the past decade. I was looking through the NIH database of autism research projects and I decided to check on the number of projects that the NIH has funded by year.

Here are those data: research projects by fiscal year. In the past 10 years, the number of projects funded per year has increased by about 3x or 4x.

Quantity isn’t the same thing as quality by a long shot. But I do find this very encouraging.

The NIMH Center for Collaborative Genetic Studies

17 Jan

I follow the Director’s blog at the National Institute of Mental Health (NIMH). A recent post is titled Looking forward to 2011

You probably won’t be surprised that I did a search for “autism” in the text. I only found one hit:

Genomics and Other High Throughput Technologies

What happened with computers in the last decade – faster, cheaper, better – is happening with technologies to sequence the human genome today. Once cost prohibitive, the price of DNA sequencing has dropped drastically in the past several years. Soon, whole genome sequencing will become the norm in research. With such precise methodology, this will be the year for discovering many new genetic variants associated with mental disorders. To expedite our discoveries, it will be key to share high quality data produced by these sequencing efforts and to build the computational resources to analyze the impending avalanche of data. The NIMH Center for Collaborative Genetic Studies has become the world’s largest repository for DNA samples from individuals with mental disorders and their families. In 2011, with samples from this repository, along with consortia developed with investigators around the globe, we should get our first comprehensive view of the genomic risk for autism, schizophrenia, and bipolar disorder.

emphasis added.

It’s an interesting hit. First, the director of NIMH is in a position to know what research is in the pipeline. If he says 2011 should give us our first “comprehensive view” of the genomic risk, I’m willing to bet that something will come out this year. More importantly, I was unaware of the Center for Collaborative Genetic Studies.

Leave aside the genetics part of this for the moment and just take a look through the site. It is a great idea. Making data from multiple investigations available to other researchers.

Here’s the “scientific mission”:

Scientific Mission

Given the major public health implications of identifying genes that contribute to the susceptibility for severe brain disorders, the National Institute of Mental Health (NIMH) has funded a Human Genetics Initiative. The goal of this Initiative is to study individuals affected with schizophrenia, bipolar disorder, or Alzheimer’s disease and their relatives, in order to establish a national resource of clinical/diagnostic information and immortalized cell lines for DNA extraction. These data and biomaterials are distributed to qualified investigators in the wider scientific community, for use in research on the genetic basis of these disorders. The NIMH Human Genetics Initiative is supported by the Office of Human Genetics & Genomic Resources in NIMH’s Division of Neuroscience & Basic Behavioral Science (DNBBS).

Progress in scientific understanding is best achieved by the free and open exchange of knowledge, data, and ideas. The NIMH Human Genetics Initiative was founded on the principle that timely access to primary data and biomaterials for human genetic research may stimulate research and development and maximize the benefits afforded to individuals affected with these disorders and their family members. Progress in these efforts is paralleled by growing interest throughout the scientific community in having timely access to the information and resources that may speed the understanding of disease etiology, refinement of diagnostic systems, and development of novel therapeutic agents and preventive interventions.

The autism page for the site gives a brief statement and links to the autism pages. You can see what papers have already come out of the autism consortium, including many available for download. They have data on sibling pairs, where genetic data on families with families with 2, 3, 4, even 5 ASD kids are included. They are up to revision 7 on the data. You can see what data are in the pipeline in the future releases page. There are a lot of data in the works, with a lot of it coming on line in the next year or 2.

The idea is great. I’d love to hear from researchers as to how well it really works. But the data, the raw data, are being made available to multiple researchers. There are other projects like this out there in autism research.

Wakefield says he’s innocent of fraud…in other news sky still blue

13 Jan

And so…

I want to make one thing crystal clear for the record – my research and the serious medical problems found in those children were not a hoax and there was no fraud whatsoever. Nor did I seek to profit from our findings.

Yeah there was. Yeah you did.

“I stand by the Lancet paper’s methodology and the results which call for more research into whether environmental triggers cause gastrointestinal disease and developmental regression in children. In fact, despite media reports to the contrary, the results of my research have been duplicated in five other countries.

Your paper was fatally flawed. Your research has never been replicated.

“It is not unexpected to see poor reporting and misinformation coming from Brian Deer, the lead reporter of the recent BMJ coverage.

Oooooh, biatchy!

But to see coverage in other media that cites Deer’s shoddy journalism in the BMJ as a final justification to claim there is no link between vaccines and autism is ludicrous.

Who did that? I think most journalists made the link between the MMR and autism, not ‘vaccines’ and autism.

The MMR is only one vaccine of the eleven vaccinations on the pediatric schedule that has been studied for causing developmental problems such as autism. That is fact, not opinion.

Studied and guess what – nothing found AJ!

Any medical professional, government official or journalist who states that the case is closed on whether vaccines cause autism is jumping to conclusions without the research to back it up.

Blah blah blah.

“I continue to fully support more independent research…

Quackery…

…to determine if environmental triggers, including vaccines, are causing autism and other developmental problems. The current rate of autism is 1 in 110 children in the United States and 1 in 64 children in the U.K. My goal has always been and will remain the health and safety of children.

No it hasn’t.

Since the Lancet paper, I have lost my job, my career and my country.

Oh stop being a primadonna. Lost your country?

To claim that my motivation was profit is patently untrue. I will not be deterred – this issue is far too important.

Yeah, you need to find a way to recoup all that lost dosh right?

Secrets of the MMR scare: How the vaccine crisis was meant to make money

11 Jan

Last week, Brian Deer published an article in the BMJ How the case against the MMR vaccine was fixed. In it he lays out how data were misreported in Andrew Wakefield’s now retracted 1998 article in The Lancet. The BMJ editors published an editorial coincident with the Deer article, Wakefield’s article linking MMR vaccine and autism was fraudulent.

In his latest article in the BMJ, Brian Deer lays out: Secrets of the MMR scare How the vaccine crisis was meant to make money

Andrew Wakefield had plans to make money. A lot of money. He created a business to produce diagnostic testing kits. He applied for a patent for a therapeutic agent and a proposed vaccine to prevent measles infections. This in addition to the money he was collecting as a paid expert to the MMR litigation in the UK.

On the diagnostic testing kit. Mr. Deer obtained the prospectus for the company that was formed to develop and market it:

“It is estimated that the initial market for the diagnostic will be litigation driven testing of patients with AE [autistic enterocolitis] from both the UK and the USA,” said a 35 page “private and confidential” prospectus, which was passed to me [Brian Deer] by a recipient.

He predicted £28,000,000 in revenue from the therapeutic and diagnostic products from his company.

Mr. Wakefield used a laboratory in Ireland, Unigenetics, headed by John O’Leary, to test tissue samples for measles virus. This is well known. Mr. Wakefield was a director of that laboratory.

The work by Unigenetics was key to the company’s success. Mr. Wakefield predicted–apparently in September 1996, before the research was completed–that Unigenetics would provide “unequivocal evidence for the presence of the vaccine derived measles virus in biopsy samples”

“Once the work of Professor O’Leary and Dr Wakefield is published, either late in 1999 or early in 2000, which will provide unequivocal evidence for the presence of the vaccine derived measles virus in biopsy samples,” the prospectus said, “the public and political pressure for a thorough, wide ranging investigation into the aetiology of the bowel conditions will be overwhelming.

“As a consequence of the public, political and legal pressures brought to bear, the demand for a diagnostic able to discriminate between wild type and vaccine derived measles strains will be enormous.”

That paper has since been discredited. First, a major attempt to replicate it failed. More importantly, Stephen Bustin, perhaps the world’s foremost expert on the methodology used (PCR), found that the Unigenetics laboratory’s methods were so seriously flawed as to make any results worthless (good summary here). Also, it was found that PCR data from Mr. Wakefield’s own research group were negative for measles virus, and that Mr. Wakefield buried those negative results.

It was because of these (and more) conflicts of interest that he was let go from the Royal Free Hospital (long before the Brian Deer investigation). Mr. Wakefield’s claim that his departure from the Royal Free was because his “research was unpopular”. Contrary to this position, the Royal Free had offered Mr. Wakefield the opportunity to prove his hypothesis.

But the paperwork does not show this. Despite all that had happened, UCL volunteered to support his work. It offered him continuation on the staff, or a year’s paid absence, to test his MMR theories. He was promised help for a study of 150 children (to try to replicate his Lancet claims from just 12) and, in return for withdrawing from the January London conference, he would be given the intellectual property free.

“Good scientific practice,” the provost’s letter stressed, “now demands that you and others seek to confirm or refute robustly, reliably, and above all reproducibly, the possible causal relationships between MMR vaccination and autism/“autistic enterocolitis”/inflammatory bowel disease that you have postulated.”

Yes, Mr. Wakefield had an offer on the table to take a year to prove his hypothesis. The Royal Free already had their doubts, and even more doubts about Mr. Wakefield’s conflicts of interest. And, yet, it would take a few more years before Brian Deer would make this public.

At first Mr. Wakefield agreed to the Royal Free’s proposal. But he never put the plan into action. When it became clear that he had no intent to follow through, he was let go from the Royal Free.

One defintion I found (the top definition at dictionary.com) defines fraud thus:

deceit, trickery, sharp practice, or breach of confidence, perpetrated for profit or to gain some unfair or dishonest advantage.

As presented last week by Mr. Deer, data were manipulated to “fix” the results of Mr. Wakefield’s research. This week’s installment discloses how Mr. Wakefield sought to profit from this work. Pretty clear to this reader that this meets the definition of fraud.

Here is how the BMJ summarized the article:

Andrew Wakefield, the disgraced doctor who claimed a link between MMR and autism, planned secret businesses intended to make huge sums of money, in Britain and America, from his now-discredited allegations.

The Wakefield scheme is exposed today in the second part of a BMJ series of special reports, “Secrets of the MMR scare”, by investigative journalist Brian Deer. Last week we revealed the scientific fraud behind the appearance of a link between the vaccine and autism. Now Deer follows the money.

Drawing on investigations and documents obtained under the Freedom of Information Act, the report shows how Wakefield’s institution, the Royal Free Medical School in London, supported him as he sought to exploit the MMR scare for financial gain.

It reveals how Wakefield met with medical school managers to discuss a joint business even while the first child to be fully investigated in his research was still in the hospital, and how just days after publication of that research, which triggered the health crisis in 1998, he brought business associates to the Royal Free to continue negotiations.

One business, named after Wakefield’s wife, intended to develop Wakefield’s own “replacement” vaccines, diagnostic testing kits and other products which only stood any real chance of success if public confidence in MMR was damaged.

Documents reveal the planned shareholdings of Wakefield and his collaborators, and how much Wakefield expected to receive personally. Financial forecasts made available for the first time today show Wakefield and his associates predicting they could make up to £28 million ($43,367,082; €33,290,350) a year from the diagnostic kits alone.

“It is estimated that the initial market for the diagnostic will be litigation driven testing of patients with AE [autistic enterocolitis] from both the UK and the USA,” said a 35 page “private and confidential” prospectus obtained by Deer, aimed at raising an initial £700,000 from investors. “It is estimated that by year 3, income from this testing could be about £3,300,000 rising to about £28,000,000 as diagnostic testing in support of therapeutic regimes come on stream.”

Deer’s investigation also reveals today that Wakefield was offered support to try to replicate his results, gained from just 12 children, with a larger validated study of up to 150 patients, but that he refused to carry out the work, claiming that his academic freedom would be jeopardised. His research claims have never been replicated.

There will be at least one more installment in this series by Brian Deer in the BMJ.

Seth Mnookin on CNN “American Morning”

11 Jan

The Panic Virus, a book by Seth Mnookin came out today. Mr. Mnooking was interviewed for CNN’s “American Morning”. I agree with much of what he has to say: the “debate” is not balanced. It’s a few people vs. a ton of data and many more people. It is good that the vaccine-autism hypothesis was tested, but it is time to move on.

http://i.cdn.turner.com/cnn/.element/apps/cvp/3.0/swf/cnn_416x234_embed.swf?context=embed&videoId=bestoftv/2011/01/11/exp.am.intv.holmes.mnookin.cnn

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