Is There a Role for Maintenance Therapy in Cancer Treatment?

There is a long tradition of maintenance therapy in pediatric oncology. Children with acute lymphoblastic leukemia uniformly receive three stages of therapy: induction, consolidation, and finally maintenance. The maintenance stage consists of weekly, or even daily therapies.

The historical experiences of relapse in this population lead investigators to consistently expose these patients to drugs for a period of years. Despite the apparent success of this approach in childhood cancers, long-term maintenance therapy did not gain popularity in adult oncology. Why?

There are probably several reasons. One reason is that childhood leukemia is among the most chemo-responsive diseases in medicine. As such, there are many active drugs available for treatment and many non-cross-resistant maintenance schedules that can be employed.

A second reason is the relative tolerability of drugs like oral thioguanine or mercaptopurine that are used in chronic maintenance therapy. By contrast adult tumors rarely achieve complete remissions. The number of active drugs has historically been very limited and the tolerance of long-term treatments characteristically poor.

Despite this, there is an appealing rational for maintenance therapy. Once we recognized and incorporated the tenents of apoptosis and programmed cell death into cancer management, we were forced to reconsider many of the principles of older treatment protocols.

Conceptually, maintenance allows for a cytotoxic exposure when the cell enters a “chemosensitive” period in its life cycle.  Cancer cells that are “out surviving” their normal counterparts often do so in a quiescent stage (G0 Gx). In order to capture these cells, drugs must be present in the body when these cells awaken from their dormancy. As we have now achieved increasingly durable remissions in diseases like breast cancer, small cell lung and ovarian, we are confronting patients in long-term complete remission. When you add to this newfound population the availability of comparably mild agents, like the low dose Gemcitabine/Cisplatin doublet, we now have at our disposal active drugs that can be safely continued for long periods of time.

Using laboratory selection to identify first line (induction), second line (consolidation) and finally third line (maintenance) schedules, we can now offer our patients well-tolerated combinations that offer the hope of more durable remissions.

The GOG 178, in which continued taxol dosing provided more durable remission in ovarian cancer, provided the first inklings of this. Unfortunately, taxol is toxic. And the more durable remissions came at an increasingly high price: neuropathy, myelosuppression, alopecia, fatigue and malaise, which greatly limited the utility of this approach. Yet it does not limit its theoretical attractiveness as we continue to develop targeted agents with more selective activity and modified toxicity profiles. We anticipate maintenance therapies will become more widespread.

Based upon our experiences to date, we are successfully using this approach with our patients who achieve good clinical remissions.

Outliving Cancer

You can find more information about our use of maintenance therapy, in Chapter 14 of the book Outliving Cancer.

This blog was originally posted in August 2011.

About Dr. Robert A. Nagourney
Dr. Nagourney received his undergraduate degree in chemistry from Boston University and his doctor of medicine at McGill University in Montreal, where he was a University Scholar. After a residency in internal medicine at the University of California, Irvine, he went on to complete fellowship training in medical oncology at Georgetown University, as well as in hematology at the Scripps Institute in La Jolla. During his fellowship at Georgetown University, Dr. Nagourney confronted aggressive malignancies for which the standard therapies remained mostly ineffective. No matter what he did, all of his patients died. While he found this “standard of care” to be unacceptable, it inspired him to return to the laboratory where he eventually developed “personalized cancer therapy.” In 1986, Dr. Nagourney, along with colleague Larry Weisenthal, MD, PhD, received a Phase I grant from a federally funded program and launched Oncotech, Inc. They began conducting experiments to prove that human tumors resistant to chemotherapeutics could be re-sensitized by pre-incubation with calcium channel blockers, glutathione depletors and protein kinase C inhibitors. The original research was a success. Oncotech grew with financial backing from investors who ultimately changed the direction of the company’s research. The changes proved untenable to Dr. Nagourney and in 1991, he left the company he co-founded. He then returned to the laboratory, and developed the Ex-vivo Analysis - Programmed Cell Death ® (EVA-PCD) test to identify the treatments that would induce programmed cell death, or “apoptosis.” He soon took a position as Director of Experimental Therapeutics at the Cancer Institute of Long Beach Memorial Medical Center. His primary research project during this time was chronic lymphocytic leukemia. He remained in this position until the basic research program funding was cut, at which time he founded Rational Therapeutics in 1995. It is here where the EVA-PCD test is used to identity the drug, combinations of drugs or targeted therapies that will kill a patient's tumor - thus providing patients with truly personalized cancer treatment plans. With the desire to change how cancer care is delivered, he became Medical Director of the Todd Cancer Institute at Long Beach Memorial in 2003. In 2008, he returned to Rational Therapeutics full time to rededicate his time and expertise to expand the research opportunities available through the laboratory. He is a frequently invited lecturer for numerous professional organizations and universities, and has served as a reviewer and on the editorial boards of several journals including Clinical Cancer Research, British Journal of Cancer, Gynecologic Oncology, Cancer Research and the Journal of Medicinal Food.

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