A strategy for point-of-care molecular detection of parasitic helminth infections
University Of Pennsylvania, Philadelphia PA
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Abstract
DESCRIPTION (provided by applicant): Parasitic helminths such as schistosomes and filarial and soil-transmitted nematodes are estimated to infect at least a billion people worldwide, with huge impacts on human health and economic development. In the absence of vaccines, treatment and control of these neglected tropical diseases relies in large part on a small set of anthelmintic drugs. However, diagnosis and monitoring of disease transmission and efficacy of treatment depends almost entirely on methods that are inaccurate, labor-intensive, and unreliable. These limitations are amplified and take on added significance in mass drug administration programs, where measures of effectiveness depend on the ability to accurately monitor treatment success (or failure), changes in disease transmission rates, and emergence of drug resistance. Molecular methods for detection and quantitation of parasite nucleic acids in host fluids or tissues offer reliability, sensitivity, and specificity, but depend on availability f necessary infrastructure, highly-trained staff, and expensive and delicate equipment. The long-term goal of this exploratory project is to overcome these limitations. To do so, we will adapt isothermal molecular assays such as loop-mediated isothermal amplification (LAMP) to a simple, hand-held, point-of-care microfluidic device that allows sensitive and specific detection of helminth parasite nucleic acids in infected hosts. We will use animal models of parasitic helminth infection to demonstrate the feasibility of this technology and as proof of principle. Use of such a device could provide critical advancements in diagnostics, monitoring of disease prevalence and treatment efficacy in mass drug administration programs, and detection of treatment failures that might warrant attention as signs of emerging drug resistance. The specific aims are to: 1) Optimize isothermal amplification assays of helminth nucleic acids in samples from parasite-infected hosts~ and 2) Develop and demonstrate the feasibility of a simple nucleic acid amplification test for parasitic helminths in a point-of-care device format. Translation of this type of simple, inexpensive, self-contained technology for detection of parasitic helminth nucleic acids in hosts or in the environment could ultimately transform analysis of treatment and control options in the developing world.
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