Why Most Published Research Findings Are False

Hugh Pickens writes "Researchers have found that the winner's curse may apply to the publication of scientific papers and that incorrect findings are more likely to end up in print than correct findings. Dr John Ioannidis bases his argument about incorrect research partly on a study of 49 papers on the effectiveness of medical interventions published in leading journals that had been cited by more than 1,000 other scientists, and his finding that, within only a few years, almost a third of the papers had been refuted by other studies. Ioannidis argues that scientific research is so difficult — the sample sizes must be big and the analysis rigorous — that most research may end up being wrong, and the 'hotter' the field, the greater the competition is, and the more likely that published research in top journals could be wrong. Another study earlier this year found that among the studies submitted to the FDA about the effectiveness of antidepressants, almost all of those with positive results were published, whereas very few of those with negative results saw print, although negative results are potentially just as informative as positive (if less exciting)."

Misleading

[Idiomatick]

Title is wrong. It says that the FDA is corrupt. And that published papers take around 3years to get peer reviewed where the bad ones are removed. What a blatent attack on science generally. Sure paper publishing needs to be reviewed but 'most published research is false' is an outright LIE. 'Most published research' includes all of our basis of scientific knowledge. If most of our theories on biology were wrong really we realistically wouldnt have been able to move forwards into working with genes if we didnt know what a cell did.

Follow the incentives

[Badge+17]

Basic idea: high-profile journals want papers that are new and exciting. This means that scientists have an incentive to 1) rush their work, 2) choose fields that are popular, and 3) claim that their papers solve more than they actually do. This leads to sloppy, dishonest papers.

I'm not going to judge this paper - I haven't read it thoroughly - but to pair a title like "Why most published research findings are false" to a pretty well-known problem seems itself like an example of problem 3!

Re:Peer review helps

[symes]

Peer review can both help and hinder - there's the reputation effect of guest authorship where having a well-known, senior, academic's name on the paper helps it through no matter how absurd the findings.

Then there are reviewers who review papers they do not have the expertise to review. And to be frank I've seen some pretty bloody ludicrous comments from supposedly expert reviewers - the sort of stuff 1st year students wouldn't make.

But I do think that the majority of researchers are dilligent and beleive in what they submit. And lets face it - if it is an emerging area and you have a neat result that either refutes someone else's grand theory or is just really novel you're going to want to see that in print. It is because we seek to replicate research that findings are later falsified. This isn't evidence that the system is broke it is pricesly how it should work. It is the work that can't be falsified that stands the test of time and contributes to our knowledge.

If there are people who think that falsifying published research is somehow a bad thing - that is shows there's a problem in research standards - the they really really need to go back to school and read some Karl Popper.

Re:What About Publish or Perish?

[Seakip18]

How true that is.

The significant other is quitting grad school as soon as she gets her Master's in Neruoscience(she's in the PhD/Master Program). She can't stand the constant pressure of publishing nor the need constantly justify grant writing. She's not the best researcher, but the pressure is enough to drive her to not caring anymore. She'll get her consolation prize and get on with her life.

Maybe she's just not cut out for academia, though it's losing out on the great potential she has.

Unclear what they mean

[Sapphon]

Even after reading the article, I'm still not sure if the authors are saying:

A) Given that research has been published, it is more likely to be false than not; or
B) Given that research is false, it is more likely to be published than is the case for true research.

I mean, it says:

Dr Ioannidis made a splash three years ago by arguing, quite convincingly, that most published scientific research is wrong.

So, (Wrong Articles)/(Total Articles) = >=0.5, right?
But the only figures I can find in the same article are:

Dr Ioannidis based his earlier argument ... on a study of 49 papers ... (H)e found that, within only a few years, almost a third of the papers had been refuted by other studies.

So.. "most" is now "less than one third"?

I'm somewhat alarmed that The Economist lets people who don't seem to grasp basic statistics write their articles.

Who needs a study: science != medicine/biology

[Roger+W+Moore]

How long until some researcher releases a study showing that Dr. Ioannidis' research findings are themselves wrong?

Who needs a study? Simply reading the article shows that he has fallen precisely into the trap that he is complaining about i.e. overstating his results. He forgets one very simple point: not all science is medicine/biology.

As a particle physicist I would strongly disagree with his conclusions, at least as applied to experimental particle physics. It is certainly true that some papers turn out to be wrong but this is rare and usually ends up as a 'big thing' in the field. Outside my field I'd be very surprised if the majority of physics or even chemistry papers turn out to be wrong (but I certainly not a chemist so this is just my impression).

As for medicine I can certainly see that they have a problem. Afterall how many times have we been told "don't eat X/do Y it is bad for you" only later to find out that actually it isn't half as bad as they thought and may even have benefits? Just because a lot of medical research is often flawed does not mean that all of science has the problem on the same scale.

So, Dr. Ioannidis either show us some data from chemistry, maths and physics or stop complaining that all of science has a problem on this scale. From where I stand your evidence points to a problem with bioscience/medical research only.

Re:Who needs a study: science != medicine/biology

[Bishop+Rook]

Definitely not most. All. The process of science is using theory to predict a result, carrying out an experiment to test whether that result occurs or not, and revising the theory if necessary.

We cannot ever prove that the current theory is, in fact, "correct." For all we know, there is some rule encoded into the stuff of reality that gravitation will reverse itself next Tuesday, and we can neither disprove this nor predict it. All science can offer is the minimally-complex theory that fits all currently known data.

Re:Who needs a study: science != medicine/biology

[Btarlinian]

I would argue that this problem is not only pretty much non-existent in chemistry and physics, but that even biology, at least cell and molecular biology do not have this issue either. Typically when a biologist publishes a protein structure or sequences an organism's DNA no one shows up later and says it is wrong. In fact, it's rather large news when it does.

For example, there was a bit of a controversy over protein crystallographers recently. A person had published a paper on a protein structure that seemed to contradict all previous though functions for the protein. It turned out that they had used the wrong parameters in their phasing program. However, this doesn't happen in most to most papers, and certainly not a majority of them.

I would say that this problem is mostly specific to medical research. By its very nature, medical research is a good deal more prone to human fallibility since both subjects and researchers are human beings.

Re:How universal is this.

[jmorris42]

> I fail to see how you can draw any conclusions about the reliability of atmospheric physics papers from a study of biomedical research papers.

Biomedical research is a lot more amendable to verification and falsification, thus an argument can be made that errors are getting corrected. Global Warming is faith based, it's predictions aren't made in anything resembling a controlled scientific environment and the only way to test it's predictions is to do nothing for twenty years and see if the disasters predicted come to pass. Now consider that rerunning a medical test and the origional paper wrong will get a researcher rewarded while writing anything whatsoever questioning human caused global warming gets a researcher labeled a whore of the oil companies and the argument that the science on GW might be at least as flawed as these biomedical papers grows.

Re:What About Publish or Perish?

[timholman]

I would think that "Publish or Perish" must contribute to a lot of crappy papers getting published. Shovel it out the door, somebody else says it's wrong, write another grant for a study to verify that, shovel that one out the door, rinse, lather, repeat...

It does indeed. Thirty years ago an assistant professor could get tenure by publishing one good paper per year in an archival journal. Nowadays an assistant professor is expected to publish four or more journal papers per year. This leads to the well-known academic concept of the "MPU", i.e. the minimum publishable unit, or "just how many papers can I squeeze out of this one good idea?". This also leads to the backwards situation where a senior professor sitting on a Promotion & Tenure Committee may have fewer published papers (and fewer awarded research dollars) over his entire career than the assistant professor whose tenure he is voting on. Believe me when I say that the hypocrisy of this double standard is not lost on the junior faculty.

There's no doubt in my mind that the signal-to-noise ratio in archival journal papers has plummeted in the past two decades. 90% of all journal papers are superfluous, repetitive, or lacking in any significant advancement of the art, and I'll plainly admit that includes my own papers. Everyone in academia realizes what's going on, and knows it isn't good for the students or the faculty, but unfortunately that's the way the beans get counted in the academic world.

reviewing papers without expertise

[Trepidity]

Indeed in my field (a sub-area of computer science) people are usually highly skeptical of any supposedly important new result in the field that was first published in one of the highly prestigious but generalist journals, like Nature or Science. These often end up being, if not outright wrong, at the very least seriously over-extending their claims or the importance of their claims, in a way that would never get them published in a specialized journal filled with an editorial board who were actually experts in the specific area in question.

This is only exacerbated by the fact that, because generalist publications know they don't have expertise in every specialized area on staff, they often ask the authors to suggest potential reviewers of their own papers. Of course, authors are likely to suggest reviewers who they think will like the paper, not the ones who would give it a grilling.

I think the interest of this particular study is not so much that a lot of science turns out to be wrong, but that a lot of the most prestigious publication venues turned out to be wrong more often.

Science is supposed to work like this.

[Capsaicin]

Afterall how many times have we been told "don't eat X/do Y it is bad for you" only later to find out that actually it isn't half as bad as they thought and may even have benefits? Just because a lot of medical research is often flawed does not mean that all of science has the problem on the same scale.

The problem here is that the popular press always report the very latest 'finding' in what is a complex field. Yet we should know that not only in medicine, but in virtually all experimental sciences, a single paper is not sufficient to establish some new profound truth.

Dr Ioannidis' largest problem is that he thinks he has identified a problem. There isn't one. This is how science is supposed to work! We publish methodologies so that the work can be replicated by other teams. Some findings survive futher scrutiny, some don't. The "hotter" the field, the less you are going to rely on the latest single study, no?

So he's found 1/3 of studies were refuted, but later work. Great, they were refuted, what's the problem? And how do we move from that to the conclusion that "most" scientific papers (even outside the hotter fields of bio-medical research) are wrong. And what about looking at outcomes? The advances of medicine even in my lifetime are astounding, this is hardly the result of a system that isn't working!

Re:Peer review helps

[MrNaz]

I think the more important thing to note here is the irony in the fact that published research has found that most published research is false.