[PHYSICAL EXERCISE TRAINING CAN- CELS CONSTITUTIVE NOS UNCOUPLING AND INDUCED VIOLATIONS OF CARDIAC HEMODYNAMICS IN HYPERTENSION (PART III)].

N. Dorofeyeva, A. Kotsuruba, B. S. Kopjak, V. Sagach
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引用次数: 1

Abstract

In the heart and heart mitochondria spontaneously hypertensive rats investigated the effect of physical exercise training (swimming in a moderate and excessive training mode) on the physiological indicators of cardiac hemodynamics and biochemical parameters that characterize the level of oxidative and nitrosative stress. The index of coupling Ca(2+)-dependent constitutive NO-synthases (cNOS = eNOS + nNOS) and biochemical index of dysfunction were calculated. It turned out that both modes of training is completely restored, and even exceed the reference values in untrained rats Wistar conjugate cNOS state and Ca(2+)-dependent synthesis of nitric oxide (NO). Intensity regime of exercise on the border of functionality have been ineffective for improving the functional state of the cardiovascular system and hypertension can provoke it further. Moderate physical training regime, on the contrary, improves the diastolic function of the heart due to an increase dP/dtmin, reducing end-diastolic pressure and a significant reduction in end-diastolic stiffness. Moderate exercise decreased peripheral resistance and cardiac afterload, as indicated by the decrease in end-systolic pressure and arterial stiffness, which contributed to more efficient and energy-saving of heart work. Improve physiological indicators of cardiac hemodynamics and functional state of the heart in moderate mode of training correlated with changes in both the calculated indices. Moderate mode of training is recommended as a simple physiological preconditioning method for the prevention of cardiac dysfunction, hypertension as a result of state uncoupling cNOS and the resulting excessive generation of superoxide and, conversely, inhibition of Ca(2+)-dependent synthesis of NO.
[体育锻炼训练可以抑制高血压患者的细胞组成性一氧化氮解偶联并诱导心脏血流动力学紊乱(第三部分)]。
在心脏和心脏线粒体中,研究体育运动训练(适度和过度训练模式下游泳)对心脏血流动力学生理指标和表征氧化和亚硝化应激水平的生化参数的影响。计算Ca(2+)依赖性组成型no合成酶偶联指数(cNOS = eNOS + nNOS)和功能障碍生化指数。结果表明,两种训练模式均完全恢复,甚至超过了未训练大鼠Wistar共轭cNOS状态和Ca(2+)依赖性一氧化氮(NO)合成的参考值。在功能边界上的运动强度对改善心血管系统的功能状态是无效的,而高血压可以进一步加剧心血管系统的功能状态。相反,适度的体育训练制度,由于增加dP/ dmin,降低舒张末期压力和显著降低舒张末期僵硬,改善心脏的舒张功能。适度运动可以降低外周阻力和心脏后负荷,这可以通过降低收缩压和动脉僵硬度来证明,这有助于提高心脏工作的效率和节能性。改善心脏血流动力学和心脏功能状态的生理指标在适度训练模式下与这两个计算指标的变化相关。适度的训练模式被推荐为一种简单的生理预处理方法,用于预防由于状态解耦cNOS和由此产生的过量超氧化物导致的心功能障碍和高血压,以及相反,抑制Ca(2+)依赖的NO合成。
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