Evaluation of flow biosensor technology in a chronically-instrumented non-human primate model
The Physiology Research Branch at Brooks AFB conducts both human and non-human primate experiments to determine the effects of microgravity and hypergravity on the cardiovascular system and to identify the particular mechanisms that invoke these responses. Primary investigative research efforts in a...
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Published in | 1995 IEEE Engineering in Medicine and Biology : 17th annual conference and 21st Canadian Medical and Biological Engineering Conference : Montréal, Canada, September 20-23, 1995 Vol. 2; pp. 1573 - 1574 vol.2 |
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Main Authors | , , , , , |
Format | Conference Proceeding |
Language | English |
Published |
Headquarters
IEEE
1995
Institute of Electrical and Electronics Engineers |
Subjects | |
Online Access | Get full text |
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Summary: | The Physiology Research Branch at Brooks AFB conducts both human and non-human primate experiments to determine the effects of microgravity and hypergravity on the cardiovascular system and to identify the particular mechanisms that invoke these responses. Primary investigative research efforts in a non-human primate model require the calculation of total peripheral resistance (TPR), systemic arterial compliance (SAC), and pressure-volume loop characteristics. These calculations require beat-to-beat measurement of aortic flow. We have evaluated commercially available electromagnetic (EMF) and transit-time flow measurement techniques. In vivo and in vitro experiments demonstrated that the average error of these techniques as less than 25 percent for EMF and less than 10 percent for transit-time. |
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Bibliography: | HQ AL/AO-PC-1995-0057 AD-A300623 Montreal, QC Headquarters |
ISBN: | 9780780324756 0780324757 |
DOI: | 10.1109/IEMBS.1995.579834 |