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硝酸甘油对动脉僵硬度的益处直接归因于其对外周动脉的作用。

Benefit of glyceryl trinitrate on arterial stiffness is directly due to effects on peripheral arteries.

作者信息

Pauca A L, Kon N D, O'Rourke M F

机构信息

Department of Anesthesiology, Wake Forest University School of Medicine, Winston-Salem, North Carolina, USA.

出版信息

Heart. 2005 Nov;91(11):1428-32. doi: 10.1136/hrt.2004.057356. Epub 2005 Mar 10.

DOI:10.1136/hrt.2004.057356
PMID:15761047
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1769166/
Abstract

OBJECTIVE

To determine how the vasodilator glyceryl trinitrate (GTN) alters arterial stiffness and improves left ventricular afterload.

METHODS

Ascending aortic pressure waves were measured with fluid filled catheters of high fidelity in 50 patients undergoing cardiac surgery, before cardiopulmonary bypass, both before and after intravenous infusion of GTN. In all 50 patients, wave reflection was identifiable as a secondary boost to late systolic pressure, permitting the pressure wave to be separated into a primary component, attributable to left ventricular ejection and properties of the proximal aorta, and a secondary component, attributable to reflection of the primary wave from the peripheral vasculature.

RESULTS

GTN infusion caused no change in amplitude of the primary wave (mean (SD) 0.0 (1.4) mm Hg, not significant) but substantial reduction (14.6 (9.6) mm Hg, p < 0.0001) in amplitude of the secondary reflected wave. Fall in mean pressure was attributable to a mix of arteriolar and venous dilatation, with relative contributions unable to be separated.

CONCLUSION

Favourable effects of GTN on arterial stiffness can be attributed to effects on peripheral muscular arteries, causing reduction in wave reflection. Results conform with previous invasive studies on vasodilator agents and their known effects on calibre and compliance of muscular arteries.

摘要

目的

确定血管扩张剂硝酸甘油(GTN)如何改变动脉僵硬度并改善左心室后负荷。

方法

在50例接受心脏手术的患者中,于体外循环前、静脉输注GTN前后,使用高保真充液导管测量升主动脉压力波。在所有50例患者中,波反射可被识别为收缩晚期压力的二次升高,从而使压力波可被分离为一个主要成分(归因于左心室射血和近端主动脉的特性)和一个次要成分(归因于来自外周血管系统的初级波的反射)。

结果

输注GTN后,初级波振幅无变化(均值(标准差)0.0(1.4)mmHg,无统计学意义),但二次反射波振幅显著降低(14.6(9.6)mmHg,p<0.0001)。平均压力下降归因于小动脉和静脉扩张的混合作用,相对贡献无法区分。

结论

GTN对动脉僵硬度的有利影响可归因于对周围肌性动脉的作用,导致波反射减少。结果与先前关于血管扩张剂及其对肌性动脉管径和顺应性的已知作用的侵入性研究一致。

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