Scientific Misconduct Has Eroded Public Trust And Accountability

24.05.29 News

Scientific Misconduct Has Eroded Public Trust And Accountability

Authored by Tony Nikolic via The Epoch Times (emphasis ours),

Scientific misconduct has cast a long shadow over the fields of medicine and public health, significantly impacting public trust and posing serious ethical and legal challenges.

(Zadorozhnyi Viktor/Shutterstock)

Cases from the United States, UK, and Australia reveal a troubling pattern, where scientific integrity is compromised, and often influenced by the commercial interests of multinational corporations.

This article explores these impacts, the erosion of trust in journals and institutions, and the legal consequences faced by entities engaging in or abetting such misconduct.

Erosion of Public Trust

Public trust is the cornerstone upon which the medical field rests. However, instances of scientific misconduct, particularly those involving pharmaceutical giants, have led to a growing public skepticism prompting some experts to initiate programs such as Restoring Invisibile and Abandoned Trials (RIAT) Initiative.

One notorious example is Study 329, a clinical trial funded by GlaxoSmithKline that misleadingly promoted the safety and efficacy of the antidepressant paroxetine in adolescents.

The misleading publication in 2001 has had long-standing effects on antidepressant use in children, contributing to a mistrust in pharmaceutical research.

The study exposed allegations of researchers miscoding side effects to the extent that serious adverse events occurred in 11 patients in the paroxetine group, five in the imipramine group, and two in the placebo group.

Ten of the 11 serious adverse events in the paroxetine group were psychiatric, for example, depression, suicidality, hostility or euphoria, some of the very issues the medications were indicated to treat.

In 2004, Dr. Elspeth Garland, a professor at the University of British Columbia, called attention to the “weak or non-existent evidence of efficacy” of SSRIs in this setting and the “serious psychiatric adverse effects” of paroxetine.

A British Medical Journal editorial documents that there has been no correction, no retraction, no apology and mostly no comment from the authors, journal editor, or from the universities where authors worked in 2001.

The RIAT analyses of Study 329 and the lack of any correction of the original flawed paper have major implications for clinical practice decisions being made on the basis of published clinical trials.

Leading experts on clinical trials now believe that we must question the validity of the data and conclusions of all published clinical trials that have not been subject to independent analysis.

Independent analysis of Study 329 demonstrated serious harms and a lack of efficacy for acute and longer-term use of paroxetine and imipramine for adolescents with major depression.

This example of the RIAT initiative reveals that the current methods of trial conduct, analysis and publication are unacceptable and required further oversight.
Published conclusions about efficacy and safety of drugs without independent analysis cannot be accepted as trustworthy.
It is essential that primary trial data and protocols for all clinical trials be made available for independent analysis.

Decline in Journal Credibility

The integrity of scientific publishing has been seriously questioned in light of misconduct. The retraction of high-profile papers has not only marred the reputation of journals but also shaken the faith of the public in medical research outputs.

For instance, the retractions of COVID-19 research papers by reputable journals due to questionable data integrity have only added to the public’s confusion and distrust during a global health crisis.

Independent evaluations of clinical trials for medications and vaccines, like the COVID-19 vaccine, are essential as a utilitarian tool to safeguard the community from potentially harmful practices by multinational companies.

These evaluations ensure that all side effects are accurately reported and assessed, mitigating risks associated with underreporting.

For example, during the rollout of the COVID-19 vaccines, independent reviews were crucial in identifying rare but serious side effects, such as blood clots associated with the AstraZeneca vaccine. This led to tailored usage recommendations to maximise safety.

However, during the COVID period, drug regulators, government officials and pharmaceutical companies were suspected of hiding data, underemphasising side effect reports, reports of harm and deaths until public inquiries, court challenges, and independent media came knocking.

Although dismissed as conspiracy theories, the issue of scientific misconduct, suppression/censorship of independent data and expert testimony remains an area of significant concern.

Similarly, the re-examination of the anti-inflammatory drug Vioxx highlighted the importance of independent scrutiny after initial trials underreported serious cardiovascular risks, leading to its eventual market withdrawal.

These cases underscore the value of independent evaluations in maintaining transparency, fostering public trust, and ensuring that the collective health benefits of medical products outweigh potential risks.

Legal Repercussions and Corporate Influence

Legal actions against pharmaceutical companies have revealed a pattern of behaviour intended to prioritize profits over public safety. Notably:

Merck’s Vioxx Controversy: Merck faced numerous lawsuits for concealing the risks of its painkiller, Vioxx, which was linked to increased risk of heart attacks and strokes. The company settled for $4.85 billion in 2007, one of the largest pharmaceutical court settlements.
Pfizer Inc.: In 2009, Pfizer Inc. was fined $2.3 billion for violations under the False Claims Act, marking it as the largest healthcare fraud settlement at that time. This legal action addressed Pfizer’s illegal promotion of several pharmaceutical products, including the anti-inflammatory drug Bextra. The settlement included a criminal fine of $1.195 billion and civil liabilities amounting to approximately $1 billion. This case highlighted significant issues regarding the underreporting of side effects and the unethical promotion of medical products beyond their approved usage, demonstrating the critical need for independent evaluations to safeguard public health.
GlaxoSmithKline (GSK) and Study 329: In 2012, GSK agreed to pay $3 billion in fines, in part for fraudulently promoting paroxetine. This case highlighted the issue of publishing biased research to support pharmaceutical sales, leading to one of the largest healthcare fraud settlements in U.S. history.
AstraZeneca and COVID-19 Vaccine: The AstraZeneca COVID-19 vaccine faced scrutiny and legal challenges due to initially undisclosed rare blood clot risks. Though not leading to significant legal penalties, this issue has fuelled debates on transparency and safety in emergency vaccine approvals.

Global Legal Frameworks

Various countries have developed frameworks to address and mitigate scientific misconduct:

United States: The Office of Research Integrity (ORI) oversees the integrity of biomedical and behavioural research supported by the Public Health Service. Penalties for misconduct can include debarment from funding and criminal charges.
United Kingdom: The UK Research Integrity Office offers guidance and support for good research practice but lacks enforcement power. Legal actions tend to be taken directly against entities like pharmaceutical companies rather than individual researchers.
Australia: The Australian Code for the Responsible Conduct of Research outlines standards for honesty, rigour, and transparency. Breaches can result in withdrawal of funding and reporting to professional bodies.

Despite these facades existing globally, the exaggerated COVID crisis has raised many questions about the perceptions the community have about such bodies and their capacity to discharge their duties independently.

With regard to the COVID crisis, we saw many pharmaceutical executives, public figures, media personalities, so-called public health experts, politicians, and corporations making statements about the safety and efficacy of COVID vaccines that did not appear in some of the contracts for the vaccines globally.

This, in addition to the journals purporting to find results without the clinical trial ending, demonstrated a perceived bias that perforated the halls of institutions that would otherwise protect citizens from such overreach.

Instead, these institutions turned into corporate cheerleaders supporting the utilitarian benefits of an untested mRNA genetic experiment that were showing significant safety signals in relation to genotoxicity, carcinogenicity and fertility problems early on.

The Way Forward: Safeguarding Scientific Integrity

To protect science from undue corporate influence, stronger regulatory and legislative measures are necessary. These include:

Enhanced Disclosure Requirements: Researchers and journals must disclose all conflicts of interest and funding sources to prevent biased research outcomes.
Independent Oversight: Bodies like the European Medicines Agency (EMA) and the Food and Drug Administration (FDA) in the United States are pivotal in the independent review and approval of drugs, ensuring that corporate interests do not compromise public safety.
Public and Transparent Research Registers: Initiatives like the AllTrials campaign advocate for the registration of all clinical trials and the full publication of their results to prevent data suppression and selective reporting.

The challenge of scientific misconduct in public health is a multifaceted problem that extends beyond individual instances of fraud to include systemic issues related to the influence of multinational corporations, major institutions, and persons acting in their capacity as public officials.

Restoring public trust requires a concerted effort to enforce rigorous legal and ethical standards in scientific research and publishing.

Only through transparency, accountability, and enhanced regulatory oversight with strong judicial responses can we hope to protect the integrity of science and ensure that it serves the public good, rather than specific corporate interests.

References

Legal case of GlaxoSmithKline: United States v. GlaxoSmithKline LLC, Case No. 11-10398-RWZ (D. Mass. July 2, 2012).
Settlement announcement for Merck’s Vioxx: In re Merck & Co., Inc. Securities, Derivative & “ERISA” Litigation, 2:05-md-01657 (D.N.J. 2007).
Letter 101 Study 329: Why is it so important?

Views expressed in this article are opinions of the author and do not necessarily reflect the views of The Epoch Times or ZeroHedge.

Tyler Durden
Wed, 05/29/2024 – 18:20

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