Date: Thursday, December 1st, 2016
Start Time: 11:00 AM EST (UTC -5)
Duration: 60 minutes
A webinar for cardiovascular researchers interested in using noninvasive blood flow velocity measurements to quantify changes in hemodynamics and characterize cardiac disease without the need for complex surgery or imaging.
Dr. Anilkumar K. Reddy
Assistant Professor,
Medicine-Cardiovascular Sciences
Baylor College of Medicine
Consultant, Indus Instruments
A variety of parameters exist for studying cardiac function, and each has its value in the complement of indices used to characterize and assess performance as part of a preclinical cardiac research protocol. Arguably, one of the most important parameters is the measurement of blood flow which can be monitored and acquired in different ways. Doppler flow velocity measurement is one technique that has been proven over the last 20 years in its ability to translate results from bench to bedside. Flow velocity measurement is noninvasive, obviating the need for surgical implantation of transducers, and offers researchers a technology option with unparalleled reduction in measurement error. This webinar will show why blood flow velocity measurement should be considered as an essential component for any study protocol in a cardiac research lab.
Dr. Anilkumar Reddy of the Baylor College of Medicine will present data from his research outlining the importance of blood flow velocity measurement and will show examples of translational data. He will provide a brief overview of Doppler flow velocity measurement technology and compare data obtained from complimentary devices such as 3D echo ultrasound and transit-time flow systems. Several models will be presented showing how many selected measurements scale up in translational research from mice to mammals.
During this webinar you will learn how Flow Velocity measurements can reliably assess the following parameters in rodents:
> Systolic and diastolic cardiac function
> Myocardial perfusion & coronary reserve
> Pressure overload
> Aortic stiffness
> Peripheral perfusion
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