期刊论文详细信息
Time-Varying Myocardial Stress and Systolic Pressure-Stress Relationship Role in Myocardial-Arterial Coupling in Hypertension
Article
关键词: LEFT-VENTRICULAR GEOMETRY;    WAVE REFLECTION;    HEART-FAILURE;    WALL STRESS;    HYPERTROPHY;    ECHOCARDIOGRAPHY;    QUANTIFICATION;    DISEASE;   
DOI  :  10.1161/CIRCULATIONAHA.108.829366
来源: SCIE
【 摘 要 】

Background-Myocardial afterload depends on left ventricular (LV) cavity size, pressure, and wall thickness, all of which change markedly throughout ejection. We assessed the relationship between instantaneous ejection-phase pressure and myocardial stress and the effect of arterial wave reflections on myocardial stress in hypertensive and normotensive adults. Methods and Results-We studied 42 untreated hypertensive, 42 treated hypertensive, and 42 normotensive adults with normal LV ejection fraction. Time-resolved central pressure, flow, and LV geometry were measured with carotid tonometry, Doppler, and speckle-tracking echocardiography for computation of arterial load and time-varying circumferential and longitudinal myocardial stress. In all 3 groups, peak myocardial stress typically occurred in early systole (within the first 100 milliseconds of ejection), followed by a marked midsystolic shift in the pressure-stress relationship, which favored lower late systolic stress values (P < 0.001) relative to pressure. The mean magnitude of this midsystolic shift was quantitatively important in all 3 groups (circumferential stress, 144 to 148 kdynes/cm(2)) and was independently predicted by a higher LV ejection fraction and ratio of LV end-diastolic cavity to wall volume. Time of peak myocardial stress independently correlated with time of the first systolic but not with time of the second systolic central pressure peak. Conclusions-Peak myocardial stress occurs in early systole, before important contributions of reflected waves to central pressure. In the presence of normal LV ejection fraction, a midsystolic shift in the pressure-stress relationship protects cardiomyocytes against excessive late systolic stress (despite pressure augmentation associated with wave reflections), a coupling mechanism that may be altered in various disease states. (Circulation. 2009; 119:2798-2807.)

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