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POINT-OF-CARE MONITORING OF BLOOD COAGULATION TIME VIA “SURFACE ACOUSTIC WAVES” (SAW) Ref-No: TA-IN0088 INNOVECTIS Gesellschaft für Innovations-Dienstleistungen mbH BACKGROUND Coagulation is an important process to stop wound bleeding. But if blood clotting occurs within blood vessels, it can cause thrombosis and thus strokes or lung embolism. Many patients nowadays undergo anticoagulant therapy. Hence, it is important, especially during acute surgery or in other emergency situations to know the coagulation status to decide on further therapeutic options. Known methods for determining the coagulation status (1) are specific only for one type or even one agent out of the class of anticoagulants, and (2) often require specific sample preparation steps such as preparation of blood plasma. Kirstin Schilling 06925616320 [email protected] www.innovectis.de PATENT SITUATION DE 102011001952.9 granted EP 12713609.1 pending US 14/111,032 pending SOLUTION CATEGORIES The inventive device enables point-of-care determination of coagulation times of full-blood samples by fluorescence microscopy. Fluorescent microspheres are added to the samples. Surface acoustic waves are applied to mix even small samples sufficiently. By monitoring the movement of the microspheres, coagulation times can be determined precisely. Currently, the device is evaluated in clinical environment (Meyer dos Santos 2015). The prototype allows determination of coagulation times as precise as established methods, but requires only two drops of full-blood and can be operated directly at the patient bed. //Red biotechnology //Diagnostics //Medical www.inventionstore.de devices //Surface engineering 1/3 ADVANTAGES Precise coagulation time determination Full-blood samples, no sample preparation Point-of-care monitoring Blood sample volume less than 10 µl sufficient SCOPE OF APPLICATION Due to its miniaturization potential the new device allows for “point-ofcare“-measurements at the bedside, in nursing stations, in emergency vehicles, or even at home. In addition, due to the small required sample volumes of less than 10 µl, the inventive system is also qualified for experiments on small animals such as mice. SERVICE Licensing or assignment of the technology is possible as well as a cooperation for further development of the invention. www.inventionstore.de 2/3 Powered by TCPDF (www.tcpdf.org) PUBLICATIONS & LINKS Meyer dos Santos S, et al. A novel µ-fluidic whole blood coagulation assay based on Rayleigh surface-acoustic waves as a point-of-care method to detect anticoagulants. Biomicrofluidics 10/2013; 7(5). Meyer dos Santos S et al. The SAW- CT assay: a microfluidic clotting assay based on surface acoustic waves (SAWs) to monitor anticoagulant pharmacotherapy in acute stroke patients. 59. Jahrestagung der Gesellschaft für Thrombose- und Hämostaseforschung (GTH) 2015, Abstract PO3-04 www.inventionstore.de 3/3
