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Research misconduct and biomedical journals

Research misconduct and biomedical journals. Richard Smith Editor, BMJ www.bmj.com/talks. What I want to talk about. Why research misconduct matters Some of medicine’s ’s most dramatic cases What is research misconduct? How common is it? Conflict of interest as a case study

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Research misconduct and biomedical journals

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  1. Research misconduct and biomedical journals Richard Smith Editor, BMJ www.bmj.com/talks

  2. What I want to talk about • Why research misconduct matters • Some of medicine’s ’s most dramatic cases • What is research misconduct? • How common is it? • Conflict of interest as a case study • Why does misconduct happen? • What does a country need to do to respond? • A comment on COPE (Committee on Publication Ethics)

  3. Why research misconduct matters • It’s like child abuse: we didn’t recognise it, now we see a lot • It undermines public trust in medical research and health workers • It corrupts the scientific record and leads to false conclusions • Most countries do not have good systems of either treatment or prevention

  4. William Summerlin from the Sloan-Kettering, New York, 1974 • Claimed to have transplanted human corneas into rabbits • Faked transplantation experiments in white mice by blackening patches of their skin with a pen • His misconduct was long ignored • Eventually attributed to a mental health problem • A form of scientific denial

  5. Vijay Soman, Yale, exposed 1980 • A diabetologist and the author of 12 papers where data were either missing or fraudulent--all eventually retracted • A paper co-authored with Philip Felig, a senior researcher, was stolen from another author when Felig was sent a paper to review and passed it on to Soman • Felig had to resign • Senior figures putting their names on papers which eventually turn to be fraudulent is a recurrent problem

  6. John Darsee, department of cardiology, Harvard, 1981 • Observed falsifying data • His boss, Eugene Braunwald decided that this misconduct was an isolated incident and so did not fire him • A few months later it became clear that results he had obtained in a multicentre study were very different from those of the others • An investigation going showed that many of his more than a 100 studies were fraudulent • Again many of the studies included distinguished authors

  7. Robert Slutsky, cardiological radiologist, University of California • Published 137 papers between 1978 and 1985--sometimes one every 10 days • A reviewer raised anxieties about some of Slutsky’s work, illustrating how peer review sometimes can pick up on fraud • An investigation decided that 12 of Slutsky’s studies were definitely fraudulent and 49 questionable • Many were retracted, although journals declined to retract the studies

  8. Congressional hearings into scientific misconduct • “Problems of scientifc misconduct are rare— and the product of psychopathic behaviour’ originating in temporarily deranged minds” President of the National Academy of Sciences • “One reason for the persistence of this type of problem is the reluctance of people high in the science field to take these matters very seriously.” Al Gore, chairman of the hearing

  9. Britain’s most dramatic case of fraud

  10. August 1996: a major breakthrough • Worldwide media coverage of doctors in London reimplanting an ectopic pregnancy and a baby being born • Doctors had been trying to do this for a century. It was a huge achievement

  11. August 1996: a major breakthrough • Achieved by Malcolm Pearce, a senior lecturer in at St George’s Hospital Medical School in London • A world famous expert on ultrasonography in obstetrics • A story from a paper in the British Journal of Obstetrics and Gyneacology. Pearce was an assistant editor.

  12. August 1996: a major breakthrough • A second author on the case report was Geoffrey Chamberlain, editor of the journal, president of the Royal College of Obstetricians and Gynaecologists, and professor and head of department at St George’s. • The same issue contained a randomised controlled trial also by Malcolm Pearce -- and others.

  13. Autumn 1996: both papers are fraudulent • A front page story in the Daily Mail exposed the two papers as fraudulent. • It had a full length picture of Geoffrey Chamberlain saying that he hadn’t known that the work was fraudulent despite his name being on the paper. • Chamberlain said it was common within medicine for people to have their name on papers when they hadn’t done much.

  14. What had happened? • A young doctor at St George’s Hospital Medical School had raised questions about the two papers • An investigation was promptly started and showed: • The patient did not exist • The patients supposedly in the randomised trial could not be found • Among studies investigated back to 1989 - three others fraudulent, two of them in the BMJ.

  15. What had happened? • All the papers were retracted. Questions about ones before that. • Pearce was fired and subsequently struck off by the General Medical Council • Chamberlain retired or resigned from all his positions, a terrible end to a distinguished career. • His crime was gift authorship, which was normal at the beginning of his career, scandalous by the end.

  16. Britain’s slowest case?

  17. Britain’s slowest case? • Anjan Banerjee and Tim Peters: paper in Gut 1990 on drug induced enteropathy in the and inflammatory bowel disease (Gut 1990--contained falsified data • The same issue contained an abstract due to be presented at the British Society of Gastroenterology. Withdrawn but still published in Gut • Both papers retracted in March 2001

  18. Britain’s slowest case? • Banerjee was awarded a Master of Surgery degree by the University of London for work that included the fraudulent work--still not retracted • December 2000. Banerjee found guilty of serious professional misconduct for falsifying data and suspended • September 2002. Banerjee found guilty of serious professional misconduct for financial fraud and struck off

  19. Britain’s slowest case? • March 2001. Tim Peters, the professor who supervised Banerjee, was found guilty of serious professional misconduct for failing to take action over the falsified research • The GMC hearings were hampered by notebooks being “selectively shredded” by Kings,the medical school • Authorities at Kings conducted an inquiry in 1991 but did not inform the GMC or Gut

  20. Does medicine have a culture that turns a blind eye to research misconduct?

  21. What is research misconduct? • The Americans have argued for years over a definition • The Europeans have tended to take a broad view and not attempt a specific, operational definition

  22. US Commission on Research Integrity (1996) • Research misconduct is significant misbehaviour that improperly appropriates the intellectual property or contributions of others, that intentionally impedes the progress of research, or that risks corrupting the scientific record or compromising the integrity of scientific practices. Such behaviours are unethical and unacceptable in proposing, conducting, or reporting research, or in reviewing the proposals or research reports of others.

  23. Definition of research misconduct proposed by a British consensus panel (1999) • "Behaviour by a researcher, intentional or not, that falls short of good ethical and scientific standards."

  24. A preliminary taxonomy of research misconduct (ranked by seriousness) I • Fabrication: invention of data or cases • Falsification: wilful distortion of data • Plagiarism: copying of ideas, data or words without attribution • Failing to get consent from an ethics committee for research

  25. A preliminary taxonomy of research misconduct (ranked by seriousness) II • Not admitting that some data are missing • Ignoring outliers without declaring it • Not including data on side effects in a clinical trial • Conducting research in humans without informed consent or without justifying why consent was not obtained from an ethics committee

  26. A preliminary taxonomy of research misconduct (ranked by seriousness) III • Publication of post hoc analyses without declaration that they were post hoc • Gift authorship • Not attributing other authors • Redundant publication • Not disclosing a conflict of interest

  27. A preliminary taxonomy of research misconduct (ranked by seriousness) IV • Not attempting to publish completed research • Failure to do an adequate search of existing research before beginning new research

  28. What is fraud? • We need a full taxonomy • Better we need codes of good research practice--and we now have several

  29. How common is fraud? • Obviously depends on how fraud is defined? • How does serious fraud relate to minor fraud? • Are they quite separate? • Does minor progress to serious?

  30. What is the relation of minor to serious research misconduct?

  31. What is the relation of minor to serious research misconduct?

  32. Study by Stephen Lock • Asked 80 researchers who were friends, mostly British and mostly professors of medicine. Not a random sample. • 100% response rate. • Over half knew of cases: • Over half the dubious results had been published - only 6 “retractions” - all vague and not using that term

  33. How common is fraud? • US congressional inquiry heard of over 700 cases • The British General Medical Council has dealt with over 30 cases • Committee on Publication Ethics has discussed over a 150 cases

  34. How common is research misconduct? • Redundant publication occurs in around a fifth of published papers • About a fifth of authors of studies in medical journals have done little or nothing • Most authors of studies in medical journals have conflicts of interest, yet they are declared in less than 5% of cases

  35. Conflict of interest: a case study in poor performance within biomedicine

  36. How common are competing interests? • 75 articles • 89 authors • 69 (80%) responded • 45 (63%) had financial conflicts of interest • Only 2 of 70 articles disclosed the conflicts of interest • Stelfox HT, Chua G, O'Rourke K, Detsky AS. Conflict of interest in the debate over calcium channel antagonists. N Engl J Med 1998; 338: 101-105

  37. Why don’t authors declare conflicts of interest? • Some journals don’t require disclosure • The culture is one of not disclosing • Authors think that it’s somehow “naughty” • Authors are confident that they are not affected by conflicts of interest

  38. Does conflict of interest matter? • Financial benefit makes doctors more likely to refer patients for tests, operations, or hospital admission, or to ask that drugs be stocked by a hospital pharmacy. • Original papers published in journal supplements sponsored by pharmaceutical companies are inferior to those published in the parent journal. • Reviews that acknowledge sponsorship by the pharmaceutical or tobacco industry are more likely to draw conclusions that are favourable to the industry.

  39. Does conflict of interest matter? • Is there a relationship between whether authors are supportive of the use of calcium channel antagonists and whether they have a financial relationship with the manufacturers of the drugs? • Stelfox HT, Chua G, O'Rourke K, Detsky AS. Conflict of interest in the debate over calcium channel antagonists. N Engl J Med 1998; 338: 101-105

  40. Does conflict of interest matter? • 106 reviews, with 37% concluding that passive smoking was not harmful and the rest that it was. • Multiple regression analysis controlling for article quality, peer review status, article topic, and year of publication found that the only factor associated with the review's conclusion was whether the author was affiliated with the tobacco industry. • Only 23% of reviews disclosed the sources of funding for research. • Barnes DE, Bero LA. Why review articles on the health effects of passive smoking reach different conclusions. JAMA 1998; 279: 1566-1570

  41. Does conflict of interest matter?: third generation contraceptive pills • At the end of 1998 three major studies without sponsoring from the industry found a higher risk of venous thrombosis for third generation contraceptives; three sponsored studies did not. • To date, of nine studies without sponsoring, one study found no difference and the other eight found relative risks from 1.5 to 4.0 (summary relative risk 2.4); four sponsored studies found relative risks between 0.8 and 1.5 (summary relative risk 1.1)

  42. Why does scientific fraud happen? • Why wouldn’t it happen? It happens in all other human activities. • Pressure to publish. • Inadequate training. Not taught good practice. Indeed, sometimes taught the opposite. • Does sloppy behaviour spill over to fraud? • You can get away with it. The system works on trust.

  43. What does a country need to respond to research misconduct? • A recognition of the problem by the medical community and its leaders • An independent body to lead with investigations, prevention, teaching and research • An agreement on what fraud is • Protection for whistleblowers • A body to investigate allegations • A fair system for reaching judgements • A code of good practice • Systems for teaching good practice

  44. Committee on Publication Ethics (COPE) • Founded in 1997 as a response to growing anxiety about the integrity of authors submitting studies to medical journals. • Founded by British medical editors--including those of the BMJ, Gut, and Lancet

  45. COPE’s five aims • Advise on cases brought by editors • Publish an annual report describing those cases. Three published (www.publicationethics.org.uk) • Produce guidance on good practice • Encourage research • Offer teaching and training • (Shame the British establishment into mounting a proper response)

  46. COPE’s first 103 cases • In 80 cases there was evidence of misconduct. • Several cases have been referred to employers and to regulatory bodies • Problems were • undeclared redundant publication or submission (29) • disputes over authorship (18) • falsification (15) • failure to obtain informed consent (11) • performing unethical research (11) • failure to gain approval from an ethics committee (10)

  47. Conclusion • Research misconduct is a problem • Most countries have not developed a coherent response to the problem • They need to in order to avoid a collapse in public trust in medical research

  48. The same probably goes for physics--and you’re even slower than us, wow

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