Evaluation of flow biosensor technology in a chronically-instrumented non-human primate model

机译：慢性仪表非人灵长类动物模型中流动生物传感器技术的评价

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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.

机译：Brooks AFB的生理学研究分支进行人和非人类灵长类动物的实验，以确定微匍匐和超高刻对心血管系统的影响，并确定调用这些反应的特定机制。非人灵长类动物模型中的主要调查研究努力需要计算总外周电阻（TPR），全身性动脉顺应性（SAC）和压力量环特性。这些计算需要进行主动脉率的节拍测量。我们已经评估了市售的电磁（EMF）和运输时间流量测量技术。体内和体外实验证明，对于EMF的这些技术的平均误差小于25％，而且还少于10％的过渡时间。

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《Annual international conference of the IEEE engineering in medicine and biology society》|1997年||共2页
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Koenig S.C.; Reister C.; Institute of Electric and Electronic Engineer;
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中图分类生物医学工程;
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机译：慢性仪表非人灵长类动物模型中流动生物传感器技术的评价

Evaluation of flow biosensor technology in a chronically-instrumented non-human primate model

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