Total peripheral resistance is a measure of the [https://de.wikipedia.org/wiki/Str%C3%B6mungswiderstand Strömungswiderstand] that all [https://de.wikipedia.org/wiki/Gef%C3%A4%C3%9F_(Anatomie) Gefäß]<nowiki />e oppose to the [https://de.wikipedia.org/wiki/Herz Heart]. The [[arterioles]] are 50 percent involved in his education. It is composed of the length and diameter of a vessel and the [[viscosity]] of the blood. Understandably, the TPR changes depending on these parameters. Any change in the arteriol resistance will therefore have a strong effect on the TPR. The organism takes advantage of this by regulating blood pressure primarily via the arterioles.
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Total peripheral resistance is a measure of the [https://de.wikipedia.org/wiki/Str%C3%B6mungswiderstand Strömungswiderstand] that all [https://de.wikipedia.org/wiki/Gef%C3%A4%C3%9F_(Anatomie) Gefäß]<nowiki />e oppose to the [https://de.wikipedia.org/wiki/Herz Heart]. The [[Arteriolen/en|arterioles]] are 50 percent involved in his education. It is composed of the length and diameter of a vessel and the [[Viskosität/en|viscosity]] of the blood. Understandably, the TPR changes depending on these parameters. Any change in the arteriol resistance will therefore have a strong effect on the TPR. The organism takes advantage of this by regulating blood pressure primarily via the arterioles.
Aktuelle Version vom 22. Mai 2019, 00:27 Uhr
Total peripheral resistance is a measure of the Strömungswiderstand that all Gefäße oppose to the Heart. The arterioles are 50 percent involved in his education. It is composed of the length and diameter of a vessel and the viscosity of the blood. Understandably, the TPR changes depending on these parameters. Any change in the arteriol resistance will therefore have a strong effect on the TPR. The organism takes advantage of this by regulating blood pressure primarily via the arterioles.