In recent years, medical research has drawn more attention to chaos in cardiac dynamics.
近年来,医学研究已经把很多注意力放在心脏动力学的混沌上。
As an important sample to enrich the contents of medical physics, excitable system in nonlinear dynamics is inducted, and used to character the properties and behavior of neuron and cardiac cell.
作为充实医学物理学教学的一个重要尝试,我们将非线性动力学中的可激发系统引入教学当中,用来描述神经元、心肌细胞等的性质和行为。
This article reviews the clinical study status of sevoflurane in its effect on cardiac function, changes of clinical circular dynamics and their mechanism respectively.
文章从七氟烷对心脏功能影响、临床循环动力学改变及机制方面综述目前临床研究现状。
Objective: to observe the effects of Xintong Oral Liquid (XOL) on cardiac blood dynamics and myocardial oxygen consumption in dogs.
目的:观察心通口服液对犬心脏血流动力学及心肌耗氧量的影响。
Methods: The numerical simulation for controlling ventricular fibrillation in 2D cardiac excitable media was studied by spiral wave dynamics.
方法:利用旋波动力学的研究方法,对二维心脏系统施加周期驱动与有效驱动数值模拟心室颤动的控制和消除。
Study of mechanism of medicine actions, by quantitative analysis of cultured cardiac myocyte, is one of the cutting edge researches in myocyte dynamics and molecular biology.
通过对离体培养的心肌细胞特征参数的定量分析,从细胞力学和分子生物学的角度研究药物的作用机理,是目前生物医学工程学科的前沿性课题。
Study of mechanism of medicine actions, by quantitative analysis of cultured cardiac myocyte, is one of the cutting edge researches in myocyte dynamics and molecular biology.
通过对离体培养的心肌细胞特征参数的定量分析,从细胞力学和分子生物学的角度研究药物的作用机理,是目前生物医学工程学科的前沿性课题。
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