Tuesday, October 13, 2009

BAMC to Use CombiMatrix Influenza Array to Study Genetic Drift of H1N1 Swine Flu

October 13, 2009 6:00 AM ET

MUKILTEO, Wash., Oct. 13, 2009 (GLOBE NEWSWIRE) -- CombiMatrix Corporation (Nasdaq:CBMX) announced today that Brooke Army Medical Center ("BAMC") is using the CombiMatrix Influenza-Detection System to analyze influenza cases including those involving H1N1 Swine flu. BAMC is a military hospital that is investigating the feasibility of screening all patients presenting in its emergency room with symptoms of respiratory distress and consenting to nasal swabs, by both electrochemical array-based diagnostics and bead-based multiplex fluorescent methods.


While there are other flu tests including the fluorescent test used at BAMC that can identify the presence or absence of H1N1 Swine flu, they do not provide information on genetic drift of the virus. It is important to understand the genetic drift of rapidly mutating pathogens in general and of Swine flu in particular because of the potential for increased pathogenicity of a mutated virus.

Recent estimates by the President's Council of Advisors on Science and Technology indicate that millions of U.S. citizens might contract Swine flu, and nearly 1.8 million individuals might be hospitalized, with up to 90,000 deaths in the U.S. during this flu season. World-wide, there are already several hundred thousand confirmed cases, and the World Health Organization has declared a pandemic. Although some of these estimates might be high, the numbers clearly indicate that this viral disease is a major public health concern. Because Swine flu can be a rapidly mutating virus, concerns exist about mutations that might make it more pathogenic while maintaining its highly infectious nature.

"We are pleased to be working with BAMC to evaluate the genetic drift of the Swine flu virus," stated Dr. Amit Kumar, President and CEO of CombiMatrix. "Our influenza array has demonstrated its ability to provide tremendous genetic information regarding numerous infectious agents including Bird Flu, Swine flu, and other infectious agents. It is especially significant to note that our Influenza-Detection System was developed with funding from the U.S. Department of Defense, and it is now being used to evaluate infections in military, former-military, and government personnel. Also, we encourage interested parties to review information on the website of the U.S. Centers for Disease Control and Prevention to get an understanding of the limitations of currently available flu tests, especially what we feel is poor performance of many rapid flu tests," concluded Dr Kumar. The link for this information is as follows: http://www.cdc.gov/h1n1flu/guidance/diagnostic_tests.htm

According to Dr. Gerald Merrill, Laboratory Director for the Department of Clinical Investigation at BAMC, "We are already seeing a high percentage of novel H1N1 flu cases in the San Antonio military community this season. The CombiMatrix system allows us to screen for Swine flu versus seasonal influenza A and influenza B. Samples analyzed using the CombiMatrix system from last season allowed us to look at clustering of genotypes and to see patterns suggesting genetic drift in both the novel H1N1 Swine flu virus and the seasonal influenza A virus in San Antonio. This can be useful in spotting divergence of strains and possibly in identifying problems earlier than if we did not screen for such divergence," concluded Dr. Merrill.


ABOUT COMBIMATRIX CORPORATION

CombiMatrix Corporation is a diversified biotechnology business that develops proprietary technologies, including products and services in the areas of drug development, genetic analysis, molecular diagnostics, nanotechnology and defense and homeland security markets, as well as in other potential markets where our products and services could be utilized. The technologies we have developed include a platform technology to rapidly produce user-defined, in-situ synthesized, oligonucleotide arrays for use in identifying and determining the roles of genes, gene mutations and proteins. This technology has a wide range of potential applications in the areas of genomics, proteomics, biosensors, drug discovery, drug development, diagnostics, combinatorial chemistry, material sciences and nanotechnology.
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