University of Louisville research could help spur new medicines by extending the usable life of test heart tissue from one day to 12. The findings were published in the journal .
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Biomedical researchers use slices of heart tissue to test the effectiveness and toxicity of new drugs, drug candidates and gene therapies. Until recently, the limited, 24-hour usable life of those slices created a major barrier to drug discovery, slowing down the development of new, potentially life-saving medications.
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UofL methods, developed by a multidisciplinary team from the School of Medicine and J.B. Speed School of Engineering, extended the tissue鈥檚 usable life with a discovery in 2019, and now to 12 days, by mimicking the conditions experienced by a living heart. The tissue 鈥榣ives鈥 in a pneumatic chamber, receiving听electrical stimulation and nutrition and pumping air instead of blood.
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“We鈥檝e created a complete cardiac cycle within the chamber, so the heart tissue stays pumping and viable for longer,鈥 said Tamer M. A. Mohamed, an associate professor of medicine who led the research. 鈥淭his system will save time and costs of clinical trials during Phase 1 research, which includes testing for toxicity and proof of efficacy.”
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Because of the short shelf-life of human heart tissue, he said, many drug candidates today are tested in ways that don’t perfectly emulate living heart tissue or use tests that otherwise don鈥檛 show the full range of potential side effects related to cardiotoxicity.听This could be a reason some . The UofL team believes giving researchers a bigger window in which to test could lead to better, safer medications.
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鈥淎 longer shelf-life gives them more time for proper testing and access to the right materials,鈥 said Jessica Miller, a graduate student researcher and an author on the paper. 鈥淭hat could lead to faster advancements in how we treat heart-related conditions.鈥
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The through the university鈥檚 . The researchers also have been working with the entrepreneurs in residence team 鈥 part of the office鈥檚 entrepreneurial arm, UofL New Ventures 鈥 to explore potential paths to market.
