Abbott has announced that the US Food and Drug Administration (FDA) has authorized its molecular test, the Abbott realtime ZIKA test, to detect Zika virus in whole blood (when collected alongside a patient-matched serum or plasma sample) for emergency use. This is the first molecular test made by a commercial manufacturer authorized to detect Zika in whole blood samples, which is significant since recent research suggests Zika virus can be detected in whole blood for a longer period of time (up to two months) and at higher levels versus testing with serum and urine sample types.
"Diagnosing a Zika infection can be challenging, especially since people might not have any symptoms or only have mild symptoms that last a few days," said John Hackett, Ph.D., divisional vice president, applied research and technology, Diagnostics Products, Abbott. "Abbott's molecular test may provide the ability to identify the active virus over a longer time period with whole blood and could provide a more accurate diagnosis. Our test can also distinguish Zika from other viruses such as dengue or chikungunya, which helps doctors make informed diagnoses to help people get back to better health."
The Abbott realtime Zika test is designed for use on the m2000 RealTime System – the company's molecular diagnostics instrument used in hospital and reference labs in the U.S. and around the world. Providing results within five to seven hours, the test is highly sensitive to detect if someone is infected with Zika. It is also automated, allowing people who work in the lab to be more efficient and spend less time preparing and handling samples, reducing the chances of error and increasing speed to diagnosis.
Abbott has several additional R&D projects underway (currently in development and not yet FDA approved, cleared or authorized) to help address testing needs related to the current Zika outbreak.
Today's existing tools to detect Zika and other tropical diseases are laboratory-based and require reliable power sources, but often, testing is needed in remote areas where there are no labs. To address this issue, the US. Defense Advanced Research Projects Agency (DARPA) awarded a contract to Abbott to develop a testing panel for Zika and multiple tropical fever pathogens for use on a mobile platform to meet the needs of testing in rural and remote areas.
Another issue to address is the development of serology tests that do not cross-react with other tropical disease antibodies. Through a grant from the U.S. Agency for International Development (USAID), Abbott is exploring the development of a serology test to solve this challenge.
According to the World Health Organization, Zika remains a significant enduring public health challenge.4 More than 4,800 people who live in the U.S. have been infected with Zika (primarily from travel outside the U.S.), and more than 35,000 people are infected and reside in U.S. territories, mainly in Puerto Rico.5 Zika virus is primarily spread to people through bites from infected mosquitoes but can also be passed from pregnant women to their fetuses or through sexual transmission.6 It is important to quickly and accurately determine whether someone has a Zika infection to track and potentially help prevent the spread of the virus.