人体体循环输入阻抗的T-Y型管模型<sup>*</sup>

吴望一; 戴国豪

人体体循环输入阻抗的T-Y型管模型^*

北京大学力学与工程科学系, 北京 100871

基金项目: * 国家自然科学基金

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出版历程
- 收稿日期: 1996-03-20
- 修回日期: 1997-06-17
- 刊出日期: 1997-12-15

T-Y Tube Model of Human Ascending Aortic Input Impedance

Department of Mechanics, Peking University, Beijing 100871, P. R. China

摘要

摘要: 本文提出了模拟人体体循环输入阻抗的T－Y型管模型,它是O'Rourke^[1]提出的,柳兆荣等^[2]发展的非对称T型管模型的改进和推广.我们在非对称T型管基础上加添了代表人体两条腿的倒Y字型分叉管,从而形成了T－Y型模型,同时将模型中所有分支管都处理成具有纵向约束的粘弹性管,上肢终端小动脉床采用弹性腔模型,下肢终端小动脉床则采用传统的纯阻力形式.选取了适当参数值后,计算了正常生理情形下和高血压病理情形下的人体体循环的输入阻抗.结果显示理论模拟值和实测结果无论是生理情形或是病理情形都有良好的符合程度.T－Y型管模型比非对称T型管模型更接近人体体循环的生理结构.同时又比过份复杂的多重分叉管模型简单明了得多,因此在考察各种参数对升主动脉输入阴抗的影响.研究心室和血管的耦合机制中将是一个有实用价值的模型.
- T—Y模型 /
- 升主动脉输入阻抗 /
- 多肢管模型
Abstract: This paper proposed a T-Y tube model to simulate foe input impedance of arterial system. It improves and extends the asymmetric T-tube model which was firstproposed by O'Rourke^[1] and developed laier by Liu et al.^[2]. Based on foe asymmetricT-tube model. a T-Y tube model was proposed by adding branching tubes which represem the iliac arteries.All the tubes are considered to be uniform,viscoelastic longitudinally tethered cylindrical tubes.The upper tube terminates with a windkessel model, while the terminal arterioles of the lowr tube are expressed as a resistance.After proper eraluation of the parameters.the impedance of the arterial system iscalculated under normal physiological and hypertensive condition.The model canpredict impedance in good agreement with the experimentally obtained data no matterin normal physiological condition or in pathological condition In comparison with theasymmeric T-tube model,T-Y tube model is closer to anatomy structure of the human arlerial system and at the sametime much simpler than the extremely complex multiple-branching tube model Therefore it will be a valuable model in studying the influences of various parameters on aorta impedance and ventricular-vascular coupling.
- T-Y tube model /
- ascending aortic input impedance /
- Multiple-branching tube model

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参考文献(9)

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[8]	W.W.Nichols,C.R.Conti,W.E.Waller and W.R.Milnor,Input impedance of thesystemic circulation in man,Circ.Res. 40.5 (1977).451-458.
[9]	U.Gessner.Cardiovascular Fluid Dynamic Vol.l,Ed.by D.H.Bergel,Academic Press,London.New York (1972).