Molecular structure of zanamivir
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Zanamivir

Zanamivir is a neuraminidase inhibitor used in the treatment of and prophylaxis of both influenza A and influenza B. Zanamivir was the first neuraminidase inhibitor commercially developed. It is currently marketed by GlaxoSmithKline under the trade name Relenza®. more...

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Development

Zanamivir was discovered in 1989 by scientists at the Australian biotechnology company Biota Holdings, working in conjunction with the CSIRO and the Victorian College of Pharmacy. The development was part of Biota's ongoing program to develop antiviral agents through rational drug design. An outline of the successful rational design strategy used was published in a paper in Nature (von Itzstein et al., 1993).

The strategy relied on the availability of the crystal structure of influenza neuraminidase which was achieved by x-ray crystallography. It was known as far back as 1974 that 2-deoxy-2,3-didehydro-N-acetylneuraminic acid (DANA), a sialic acid analogue, was an inhibitor of neuraminidase (Meindl et al., 1974). Using the crystal structure of neuraminidase and DANA as a starting point, the researchers employed a computer-aided process to attempt to design a molecule which better fitted (and therefore inhibited) the active site of neuraminidase. Zanamivir, a transition-state analogue inhibitor of neuraminidase, was the result.

In 1990, zanamivir was licensed to Glaxo (now GlaxoSmithKline) for exclusive worldwide development and marketing. In 1999, the product was approved for marketing in the US and subsequently has been registered by GSK in a total of 70 countries.

Limitations

Whilst zanamivir proved to be a potent and effective inhibitor of influenza neuraminidase and inhibitor of influenza virus replication in vitro and in vivo, this didn't necessarily translate into a successful clinical treatment for influenza. In clinical trials it was found that zanamivir was able to reduce the time to symptom resolution by 1.5 days provided therapy was started within 48 hours of the onset of symptoms.

A further limitation concerns the poor oral bioavailability of zanamivir. This meant that oral dosing was impossible limiting dosing to the parenteral routes. Zanamivir, therefore, is administered by inhalation - a route that was chosen for patient compliance with therapy. But even this route of administration is not acceptable to many in the community.

A troubled commercial venture

Biota, being only a small company, was not able to bring the drug to market by itself. Consequently, it was licensed to Glaxo (now GlaxoSmithKline) to complete development and to market internationally as Relenza, delivered via Glaxo's proprietary, and some would say cumbersome, Diskhaler inhalation device. The license agreement entitled Biota to receive a 7% royalty on Glaxo's sales of Relenza.

A combination of factors has resulted in the limited commercial success of zanamivir (Relenza). The relatively small effect on the timecourse of influenza symptoms, the inhalation dosage form, a less-than-ideal device, and high expense make it a difficult product to market well. And although zanamivir was the first neuraminidase inhibitor to the market, it had only a few months lead over the second entrant, oseltamivir (Tamiflu), with an oral formulation much preferred by patients. Faced with this competition, GSK effectively abandoned the product.

Read more at Wikipedia.org


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Zanamivir for Influenza Prevention in Healthy Adults
From American Family Physician, 2/1/00 by Grace Brooke Huffman

Amantadine and rimantadine are effective in preventing illnesses associated with type A(H3N2) and type A(H1N1) influenza viruses. A new class of antivirals, including zanamivir, which is a selective neuraminidase inhibitor, has recently been developed to decrease the duration and severity of illness related to type A and type B influenza viruses. Monto and associates evaluated the effectiveness of prophylactic zanamivir during an influenza season in two sites in the United States.

Persons between 18 and 64 years of age were eligible for the randomized, double-blinded, placebo-controlled study if they did not have any chronic medical or acute respiratory illnesses once the prophylaxis phase was begun. Prophylaxis was initiated when an increase in the incidence of influenza was documented in each location. Patients were randomized to receive 10 mg of zanamivir or placebo. Prophylaxis was given as a micronized powder through a self-activated inhalation device once daily for four weeks. Blood samples were obtained at baseline for initial evaluation, including viral serology. Patients recorded their daily temperatures and the severity of any symptoms that developed during the study period. On day 35, a second viral serology sample was obtained.

Patients were instructed to report any respiratory illness during the study period so that additional viral studies could be obtained. Infection with influenza was confirmed if influenza virus was isolated or if patients experienced a rise in titer during the prophylaxis period. Clinical influenza was defined as documented infection and two or more of the following symptoms for at least three days: cough, headache, sore throat, fever or myalgias. The primary end point was the number of cases of clinical influenza that developed in the study population.

A total of 1,107 patients was enrolled in the study, 553 in the treatment group and 554 in the placebo group. Fourteen percent of each group received an influenza vaccination before randomization. Overall, zanamivir prophylaxis was 67 percent effective in preventing clinical influenza, and 84 percent effective in preventing influenza with fever. Adverse effects were similar across groups, with approximately 75 percent of patients reporting some type of symptom.

The authors conclude that zanamivir is safe and efficacious in preventing influenza, and compliance is high, given its once-daily dosing schedule. In an accompanying editorial, Patriarca commends the study of new options for prevention of influenza but cautions against equating efficacy data with real-life effectiveness at a community level. Further studies are needed, as are improved methods of administering prophylaxis in the community.

Monto AS, et al. Zanamivir in the prevention of influenza among healthy adults. A randomized controlled trial. JAMA July 7, 1999;282:31-5, and Patriarca PA. New options for prevention and control of influenza. JAMA July 7, 1999;282:75-7.

COPYRIGHT 2000 American Academy of Family Physicians
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