Two people with compromised immune systems who became ill with 2009 H1N1 influenza developed drug-resistant strains of virus after less than two weeks on therapy, report doctors from the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health. Doctors who treat prolonged influenza infection should be aware that even a short course of antiviral treatment may lead to drug-resistant virus, say the authors, and clinicians should consider this possibility as they develop initial treatment strategies for their patients who have impaired immune function.
Both patients described in the new report developed resistance to the key influenza drug oseltamivir (Tamiflu), and one also demonstrated clinical resistance to another antiviral agent, now in experimental testing, intravenous peramivir, note senior authors Matthew J. Memoli, M.D., and Jeffery K. Taubenberger, M.D., Ph.D. This is the first reported case of clinically significant peramivir-resistant 2009 H1N1 illness, say the scientists. The report is scheduled to appear in print on May 1 in Clinical Infectious Diseases and is now online.
The people in the current case report had immune limitations due to blood stem cell transplants that occurred several years previously. Both recovered from their influenza infections.
“While the emergence of drug-resistant influenza virus is not in itself surprising, these cases demonstrate that resistant strains can emerge after only a brief period of drug therapy,” says NIAID Director Anthony S. Fauci, M.D. “We have a limited number of drugs available for treating influenza and these findings provide additional urgency to efforts to develop antivirals that attack influenza virus in novel ways.”
The 2009 H1N1 influenza virus is susceptible to just one of the two available classes of anti-influenza drugs, the neuraminidase inhibitors. Besides oseltamivir, other neuraminidase inhibitors are zanamivir (Relenza), which is inhaled, and the intravenously administered investigational drug peramivir. As the H1N1 influenza pandemic unfolded, laboratory tests of virus strains isolated from patients showed that some strains contained a genetic mutation (the H275Y mutation) that makes the virus less susceptible to some neuraminidase inhibitors.
The two people in the current case study had pre-existing medical conditions that impaired their immune system function before contracting 2009 H1N1 flu. Strains of 2009 H1N1 influenza containing the H275Y mutation had been reported previously in people with diminished immune function, but in previous cases the mutation arose after more than 24 days of continuous therapy. In the newly described cases, the mutation appeared after 14 days in one individual and after nine days in the second.
“Although the recommended length of treatment with oseltamivir is five days, it is common for physicians to continue giving this first-line drug longer if the patient does not improve,” says Dr. Memoli.
Both people in the current report received oseltamivir for extended periods but they continued to shed virus in their nasal secretions throughout treatment. When one patient’s condition worsened despite 24 days of oseltamivir treatment, doctors administered peramivir for 10 days. The drug did not reduce viral shedding and the patient remained ill, demonstrating what the authors described as clinically significant resistance to peramivir. Next, doctors administered the only other available flu drug, zanamivir, for 10 days. The person then fully recovered.
“Additional, larger studies are needed to further refine our findings,” says Dr. Memoli. “But these cases of rapid appearance of drug-resistant 2009 H1N1 influenza in immune-compromised patients are worrisome and should prompt clinicians to reconsider how they use available flu drugs.”
The mutation that allows 2009 H1N1 to resist oseltamivir also significantly reduces the virus’s susceptibility to peramivir. If a relatively short course of oseltamivir causes a mutant flu strain to emerge in a particular patient, that person may not respond to peramivir. Zanamivir might be a good choice if a patient does not respond within a few days to oseltamivir, Dr. Memoli says. However, because zanamivir must be inhaled, patients who are very ill and whose breathing is mechanically supported cannot be given zanamivir.
“As clinicians, we should carefully consider our treatment options and use all the drugs available to us wisely. This is especially important in a patient with prolonged infection or when an antiviral drug fails to cure the patient after the recommended course of treatment,” says Dr. Memoli.
NIAID scientist Rachel J. Hrabal contributed to this study along with Arash Hassantoufighi and Maryna C. Eichelberger, Ph.D., of the FDA.
Celerion, a privately owned contract research organization (CRO), has completed the acquisition of the development and regulatory services consultancy and early stage development operations of MDS Pharma Services. The acquired assets include five clinical research facilities and two bioanalytical laboratories located in Lincoln, Nebraska; Neptune, New Jersey; Phoenix, Arizona; Zurich, Switzerland; and Belfast, Northern Ireland, as well as operations in Richmond, Virginia and Quebec, Canada. With over 700 beds worldwide, Celerion is an industry leader in the conduct of early clinical research, including first-in-man to proof-of-concept clinical studies, clinical pharmacology, bioequivalence trials, bioanalysis, and cardiac safety services.
Celerion is derived from the Latin celeritas meaning swiftness and speed. This word reflects one of Celerion’s founding principles: to deliver services that enable clients to get their products to market faster. It also underlies another key goal of the business: to assist clients in reaching informed go/no-go decisions on compounds in development as early as possible.
Life sciences and CRO industry veteran Susan Thornton, Ph.D., is Chief Executive Officer of Celerion. “I’m energized by the prospect of taking this great business to the next level of market leadership,” she said. “Its combination of experienced people, scientific excellence, and state-of-the-art facilities constitutes a strong foundation for future growth. We look forward to continuing to provide our pharmaceutical, biotechnology and generic clients with leading early stage clinical research services. Like the company I am leading, my roots are in MDS Pharma Services.”
Before her appointment as CEO of Celerion, Dr. Thornton was CEO and Managing Partner for BioVerum Partners, a healthcare advisory services firm that assists clients in maximizing the value of their life sciences businesses. In addition to over a decade of CRO industry experience, she has held various drug development roles at GlaxoSmithKline and Merck. Dr. Thornton earned a Ph.D. in molecular biology from the University of Pennsylvania and a M.S. in microbiology and B.S. in psychology from Pennsylvania State University. Her appointment sets the precedent for the new leadership team at Celerion – individuals with extensive industry experience and knowledge, strongly positioning the company to address a broad range of drug development challenges.
Date: March 26, 2010
Source: National Institute of Allergy and Infectious Diseases