Publication

Article

Oncology Live®
Vol. 17/No. 17
Volume 17
Issue 17

Physicians Often Ignore Phase III Findings in Managing Patients

Oncologists eagerly await clinical trial results that will permit them to provide additional strategies to their patients. However, the impact of such randomized trial results can be quite limited where preexisting beliefs, training, economic interests, or well-established practices conflict with what the "evidence" demonstrates.

Maurie Markman, MD

Much has been discussed regarding the increasingly recognized limitations of phase III randomized trials in defining the future of cancer management and, indeed, there are many reasons to question whether there is genuine value in such efforts.

There’s the often mind-numbing time it takes to initiate, complete, and report the results of phase III studies—assuming, of course, they are ever completed and reported!—and the staggering costs of these complex initiatives. There’s also the questionable “real world” relevance of the results of many trials that either intentionally or unintentionally exclude the elderly or individuals with common comorbidities, and the dawn of the era of precision cancer medicine where targeted therapeutics impact smaller patient populations, making the conduct of randomized trials problematic.

In addition to these issues, several recent reports are providing even more fundamental, serious challenges to the basic statistical foundation of randomized trial study results.1-3

Although not drawn from the oncology arena, these examples highlight important considerations for cancer specialists seeking to translate clinical trial findings into practice.

A particular concern is the increasingly frequent reporting of P values in the absence of even more critical statistical data upon which to evaluate the relevance of the findings such as confidence intervals and effect sizes.2

One commentary noted: “For example, it would be unreasonable to decide that a new cancer medication was ineffective because the calculated P value from a phase II trial was .051 and the predetermined level of statistical significance was considered less than .05.”3 Yet how often does such an absurd situation occur when academic purists report the results of a randomized trial?

Impact on Practice

Another editorial pointedly acknowledged that “a P value cannot indicate the importance of a finding; for instance, a drug can have a statistically significant effect on patients’ blood glucose levels without having a therapeutic effect.”1More important, however, is another serious limitation of phase III randomized trial results in the oncology arena: how much do they actually influence clinical practice?

First, it is critical to separate out randomized trials that permit a new antineoplastic agent to enter the market, or add a new clinical indication. Oncologists appropriately eagerly await results that will permit them to provide additional strategies to their patients and, if a commercial company is involved, that entity is highly likely to market the study results. But there is nothing inherent in this discussion that requires a randomized trial. If a new drug entered the market or received on-label FDA approval based on phase II study data, would the agent be less likely to be employed?

Thus, the issue to be addressed here is the question of the impact of phase III trial results that do not promote a new product but rather challenge a particular management paradigm.

Two examples of such studies from the gynecologic cancer literature demonstrate just how limited the impact of such randomized trial results can be where preexisting beliefs, training, economic interests, or well-established practices conflict with what the “evidence” demonstrates. Despite the results of 3 phase III randomized trials that revealed a survival benefit associated with primary platinum-based chemotherapy for ovarian cancer, meta-analyses demonstrating the superior utility of this approach compared with intravenous delivery of cisplatin in this setting, and an NCI-Clinical Alert, it remains the case that only a minority of patients who are potentially candidates for this therapeutic strategy are actually treated with regional drug delivery.4,5 This is apparently the situation even at major cancer centers who often contend they are the champions of “evidence-based medicine.”

Despite the results of 2 phase III randomized trials demonstrating that neoadjuvant chemotherapy in advanced ovarian cancer is equivalent in progression-free and overall survival and is associated with reduced surgical morbidity and mortality compared with primary surgical cytoreduction6,7, the use of this approach remains limited in the United States and reports of nonrandomized single institutional experiences continue to claim the superiority of primary surgery.8,9

Now, it is not my intent here to advocate that the use of either intraperitoneal therapy or neoadjuvant therapy should be mandated or to suggest that there is anything wrong with challenging the results of phase III randomized trials.

But for the academics who argue that randomized phase III trials are the gold or platinum standard in determining cancer management, there appears to be rather substantial disagreement with this assessment, including among their own academic peers.

Maurie Markman, MD, editor-in-chief, is president of Medicine & Science at Cancer Treatment Centers of America, and clinical professor of Medicine, Drexel University College of Medicine. maurie.markman@ctca-hope.com.

References

  1. Baker M. Statisticians issue warning over misuse of P values. Nature. 2016;531(7593):151.
  2. Chavalarias D, Wallach JD, Li AH, et al. Evolution of reporting P values in the biomedical literature 1990-2015. JAMA. 2016;315(11):1141-1148.
  3. Kyriacou DN. The enduring evolution of the P value. JAMA. 2016; 315(11):1113-1115.
  4. Armstrong DK, Bundy B, Wenzel L, et al. Intraperitoneal cisplatin and paclitaxel in ovarian cancer. N Engl J Med. 2006;354(1):34-43.
  5. Wright AA, Cronin A, Milne DE, et al. Use and effectiveness of intraperitoneal chemotherapy for treatment of ovarian cancer. J Clin Oncol. 2015;33(26):2841-2847.
  6. Vergote I, Tropé CG, Amant F, et al. Neoadjuvant chemotherapy or primary surgery in stage IIIC or IV ovarian cancer. N Engl J Med. 2010;363(10):943-953.
  7. Kehoe S, Hook J, Nankivell M, et al. Primary chemotherapy versus primary surgery for newly diagnosed advanced ovarian cancer (CHORUS): an open-label, randomised, controlled, non-inferiority trial. Lancet. 2015;386(9990):249-257.
  8. Schorge JO, Clark RM, Lee SI, Penson RT. Primary debulking surgery for advanced ovarian cancer: are you a believer or dissenter? Gynecol Oncol. 2014;135(3):595-605.
  9. Mueller JJ, Zhou QC, Iasonos A, et al. Neoadjuvant chemotherapy and primary debulking surgery utilization for advanced-stage ovarian cancer at a comprehensive cancer center. Gynecol Oncol. 2016;140(3):436-442.
Related Videos
 Rupesh Rajesh Kotecha, MD
David A. Braun, MD, PhD
Francine Foss, MD
Daniel E. Haggstrom, MD
Ami Umesh Badami, MD
Kenneth Shain, MD, PhD
Piotr Rutkowski, MD
Manali Kamdar, MD, of University of Colorado Anschutz School of Medicine
Janaki Neela Sharma, MD, assistant professor, clinical medicine, Genitourinary Medical Oncology, University of Miami Health Systems
Cindy Medina Pabon, MD, assistant professor, Sylvester Cancer Center, University of Miami; assistant lead, GI Cancer Clinical Research, Gastrointestinal Medical Oncology, University of Miami Health Systems