Dear Editor,
I carefully read your Editorial about “predatory journals,”
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which are considered a challenging issue for scholarly publishing. I agree with your
exhaustive and interesting insight. A predatory journal is a journal that publishes
papers without peer review or using an unfair review process and charges publication
fees. They can have serious negative consequences for scientific progress, because
bogus research spreads easily through the Internet and the media.
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In my opinion, the most curious feature of this troubling matter—as your Editorial
highlights—is that on one hand, we have predatory journals publishing quality articles,
because many good authors are deceived and submit their work to such journals. On
the other hand, not all articles published in legitimate journals are good, because
sometimes legitimate peer review fails to identify weak or fraudulent papers.
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Therefore, the distinction between legitimate and predatory journals concerns, ultimately,
the good faith, validity and effectiveness of the editorial peer-review process.
It is widely recognized that peer review is an essential part of scientific process,
and a good scientific journal depends on its database of reviewers, who assess the
quality of papers. Furthermore, peer review is at the heart of science, because it
is “the method by which grants are allocated, academics promoted and Nobel prizes
won.”
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Therefore, a serious problem for all academic publishers and editors in chief of medical
journals concerns papers reporting counterfeit data, as it is often difficult to check
them. For instance, Bohannon submitted a fake article to more than 300 open-access
journals, and more than half accepted it.
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The question is, how can a scientific journal recognize a fake or fraudulent manuscript?
A study published in PLOS ONE found an average of 1.97% of scientists admitted to
having “fabricated, falsified or modified data or results at least once,” and up to
33.7% admitted to other questionable research practices.
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In a review, Ioannidis described key factors and some corollaries about the increasing
concern that, in modern research, most claimed research findings are false.
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The academic institution is responsible to investigate and punish researchers' misconduct,
but this is a hot issue, because there are evident conflicts of interest among all
actors involved. Any research reporting too perfect data and findings could be suspected
to be fraudulent. However, the picture of the problem is also complicated by scholars'
tendency to publish only significant and positive findings, which can disturb the
balance of findings, leading to the so-called “publication bias.”
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From the editors' point of view, some defensive weapons are available, such as text-matching
software to detect plagiarism. However, it is still difficult to check on whether
well-written manuscripts are reporting counterfeit data.
After Beall's list of predatory publishers, now withdrawn, which was a precious instrument
in the fight against the dubious practices of some online open-access science journals,
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nowadays, we can describe a new scientific phenomenon, which we can call “predatory
scholars,” authors publishing fraudulent research in legitimate journals. Indeed,
according to a paper in Nature, published retractions in scientific journals have
increased around 1200% over the past decade, and around half of them are suspected
cases of misconduct.
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In medicine and life sciences, the percentage of retractions exceeded percentages
among Web of Science (WoS) records. Retractions can be due to alleged publishing misconduct
(47%), alleged research misconduct (20%), or questionable data/interpretations (42%).
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In my opinion, this new phenomenon could answer the question why the number of predatory
publishers on Beall's list, as reported by Narimani and Dadkhah, grew from 18 in 2011
to 923 in 2016.
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Most researchers are eager to publish their papers at any price to get research funding
and grants, and to gain academic promotions. However, evaluating individual research
performance is a complex and puzzling task that should balance the quantity and quality
of publications, and it is still the object of debate in the scientific community.
I agree that legitimate journals should make every effort to publish scientifically
rigorous, evidence-based articles. However, this effort could be negated by scientific
misconduct and by a scarce or ineffective peer-review process. Therefore, I believe
the best potential solution is to invest in a serious and effective peer-review process.
A good solution, already adopted by some publishers, such as BioMed Central, is to
carry out “open peer review,” which is a well-established model of peer review, where
authors know who the reviewers are, and the reviewers know who the authors are.
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If the manuscript is accepted, the named reviewer reports are published alongside
the article. Even though this solution can be expensive for authors, as journals must
charge fees to authors to pay reviewers, and scholars from low-income and middle-income
countries could be disadvantaged, it shows several advantages compared to the traditional
peer-review system. First, reviewers would be more tactful and constructive and encouraged
to be more scrupulous than in other types of peer review, making the entire editorial
process more transparent. Furthermore, open peer review would encourage post-publication
discussion, and reviewers could gain “scholarly credit.” To address open peer review's
disadvantages, DeCoursey suggested a halfway house, in which reviewers make open,
constructive suggestions for revision or additional work only after the manuscript
is accepted for publication.
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But, I believe that ultimately, the most important role should be played by the editor,
who should be able to assume responsibility for the final decision. This, in conclusion,
can make the difference!
Conflicts of Interest:
None declared.
Financial Support:
None.