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Press Releases from Scisense Inc. (4 total)

Leading Innovative Biomedical Measurement Companies Announce Merger

London, ON (July 1, 2011) Transonic Systems Inc. of Ithaca, USA and Scisense Inc. of London, Canada announced today their merger. Scisense manufactures advanced products for blood pressure and cardiac pressure volume assessment, while Transonic is an industry leader in biomedical flow measurement technologies and applications. The newly formed Transonic-Scisense entity combines two biomedical research innovators, both with strong roots in academia. Their combined expertise will pioneer fully-integrated measurement

Hands-on Workshop Clinic to Assess Cardiac Function

Studying Pressure Volume Loops Using Large-Animal Models: New Insights, Latest Advancements in PV Loop Technology, and Hands-on Experience FOR IMMEDIATE RELEASE April 25, 2011 – A prime focus of this full day workshop will be to analyze quantitative lusitropic and inotropic responses to vasoactive drugs administered to the animal to purposely alter preload, afterload, heart rate and contractility. Attendees will get first-hand experience with surgical equipment, Scisense ADVantageTM pressure-volume system and catheter,

Science of Cardiac Function Assessment using Pressure Volume Loops Web Seminar

FOR IMMEDIATE RELEASE March 21, 2011 - Scisense Inc. hosts Dr. Richard Klabunde, author of “Cardiovascular Physiology Concepts”, to explain the significance of pressure and volume changes during the cardiac cycle on cardiovascular function, covering relationships such as ESPVR, PRSW, and EDPVR. Real-time left ventricular (LV) pressure-volume loops provide a load independent framework for understanding cardiac mechanics in a manner which electrophysiology and dp/dt analysis cannot. Such loops can be generated by

Science of Cardiac Function Assessment using Pressure Volume Loops Web Seminar

Real-time left ventricular (LV) pressure-volume loops provide a load independent framework for understanding cardiac mechanics in a manner which electrophysiology and dp/dt analysis cannot. Such loops can be generated by real time measurement of pressure and volume within the left ventricle. Many physiologically relevant hemodynamic parameters such as stroke volume, cardiac output, ejection fraction, myocardial contractility, etc. can be determined from these loops. Dr. Richard Klabunde will explain the pressure

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