Conclusions PWV and C1 could sensitively reflect the improvement of arterial elasticity and the decline of PP.
结论:PWV、C1是敏感反映动脉弹性改善与PP减小的大动脉弹性功能指标。
Prevention and treatment of cardiovascular disease, the detection of arterial elasticity function is essential.
防治心血管疾病,动脉弹性功能的检测至关重要。
Objective: To investigate properties of brachial arterial elasticity of renal failure patients in different stages.
目的:探讨慢性肾功能衰竭患者不同阶段肱动脉弹性功能的特点。
Conclusion: in elderly patients with hypertension, a normal blood pressure increases, arterial stiffness, arterial elasticity.
结论:在中老年人群中,高血压病患者较血压正常者,动脉僵硬度增加,动脉弹性下降。
Conclusions Combinated cholesterol lowering treatment is beneficial to improve arterial elasticity in middle-old-age hypertension patients.
结论中老年高血压患者在降压治疗基础上联合他汀调脂治疗对改善动脉弹性功能有益。
The basic pathological changes of cardiovascular disease is atherosclerosis, and early change performance of atherosclerosis reduced arterial elasticity function.
发生心血管病的基本病理变化是动脉硬化,而动脉硬化的早期改变是动脉弹性功能降低。
Detecting PWV can be used to evaluate the function of arterial elasticity, identify the early pathological signs of the arterial wall and forecast the blood vessel events.
测定PWV可以准确评价动脉弹性功能,识别动脉壁早期病理征象,预测血管事件。
Objective: To investigate the correlation between the insulin resistance and arterial elasticity in the hypertensive patients of phlegm-dampness constitution and normal constitution.
目的:探讨腻滞质与正常质高血压患者动脉弹性与胰岛素抵抗间的相关性。
Large arterial diameter distended and elasticity decreased with blood pressure rising.
结论随着血压的增高,动脉内径增宽其弹性逐渐降低。
Several methods of calculating arterial wall shear stress are compared in this paper, and the restricted elasticity model is more adapt to clinical application.
本文比较了几种计算血管壁切应力的方法,认为采用有约束的弹性管模型计算获得的动脉壁切应力更适合于临床应用。
Similarly with arterial stiffness, the elasticity was thought to have been mainly related to blood pressure, but can this stiffness property be modified through these cellular and molecular processes.
和动脉僵硬度相似,动脉的弹性被认为主要和血压相关,但是还不知道这种僵硬度特性能否通过这些细胞和分子的过程被调节。
Similarly with arterial stiffness, the elasticity was thought to have been mainly related to blood pressure, but can this stiffness property be modified through these cellular and molecular processes.
和动脉僵硬度相似,动脉的弹性被认为主要和血压相关,但是还不知道这种僵硬度特性能否通过这些细胞和分子的过程被调节。
应用推荐