High-throughput acoustic separation of platelets from whole blood
Lab on a Chip, 2016•pubs.rsc.org
Platelets contain growth factors which are important in biomedical and clinical applications.
In this work, we present an acoustic separation device for high-throughput, non-invasive
platelet isolation. In particular, we separated platelets from whole blood at a 10 mL min− 1
throughput, which is three orders of magnitude greater than that of existing acoustic-based
platelet separation techniques. Without sample dilution, we observed more than 80%
RBC/WBC removal and platelet recovery. High throughput, high separation efficiency, and …
In this work, we present an acoustic separation device for high-throughput, non-invasive
platelet isolation. In particular, we separated platelets from whole blood at a 10 mL min− 1
throughput, which is three orders of magnitude greater than that of existing acoustic-based
platelet separation techniques. Without sample dilution, we observed more than 80%
RBC/WBC removal and platelet recovery. High throughput, high separation efficiency, and …
Platelets contain growth factors which are important in biomedical and clinical applications. In this work, we present an acoustic separation device for high-throughput, non-invasive platelet isolation. In particular, we separated platelets from whole blood at a 10 mL min−1 throughput, which is three orders of magnitude greater than that of existing acoustic-based platelet separation techniques. Without sample dilution, we observed more than 80% RBC/WBC removal and platelet recovery. High throughput, high separation efficiency, and biocompatibility make this device useful for many clinical applications.
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