Kevin T. Dugan
New York Magazine
Originally posted 21 May 24
Junk science has been forcing a reckoning among scientific and medical researchers for the past year, leading to thousands of retracted papers. Last year, Stanford president Marc Tessier-Lavigne resigned amid reporting that some of his most high-profile work on Alzheimer’s disease was at best inaccurate. (A probe commissioned by the university’s board of trustees later exonerated him of manipulating the data).
But the problems around credible science appear to be getting worse. Last week, scientific publisher Wiley decided to shutter 19 scientific journals after retracting 11,300 sham papers. There is a large-scale industry of so-called “paper mills” that sell fictive research, sometimes written by artificial intelligence, to researchers who then publish it in peer-reviewed journals — which are sometimes edited by people who had been placed by those sham groups. Among the institutions exposing such practices is Retraction Watch, a 14-year-old organization co-founded by journalists Ivan Oransky and Adam Marcus. I spoke with Oransky about why there has been a surge in fake research and whether fraud accusations against the presidents of Harvard and Stanford are actually good for academia.
I’ll start by saying that paper mills are not the problem; they are a symptom of the actual problem. Adam Marcus, my co-founder, had broken a really big and frightening story about a painkiller involving scientific fraud, which led to dozens of retractions. That’s what got us interested in that. There were all these retractions, far more than we thought but far fewer than there are now. Now, they’re hiding in plain sight.
Here are some thoughts:
Recent headlines might suggest a surge in scientific misconduct. However, it's more likely that increased awareness and stricter scrutiny are uncovering existing issues. From an ethical standpoint, the pressure to publish groundbreaking research can create a challenging environment. Publication pressure, coupled with the human tendency towards confirmation bias, can incentivize researchers to take unethical shortcuts that align data with their hypotheses. This can have a ripple effect, potentially undermining the entire scientific process.
Fortunately, the heightened focus on research integrity presents an opportunity for positive change. Initiatives promoting open science practices, such as data sharing and robust replication studies, can foster greater transparency. Furthermore, cultivating a culture that rewards ethical research conduct and whistleblowing, even in the absence of earth-shattering results, is crucial. Science thrives on self-correction. By acknowledging these challenges and implementing solutions, the scientific community can safeguard the integrity of research and ensure continued progress.