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MECHANICS OF LV SUCTION AND DIASTOLIC FILLING

左心室吸力和舒张期充盈的机制

基本信息

批准号：
2224927
负责人：
NEIL B INGELS
金额：
$ 26.42万
依托单位：
PALO ALTO MEDICAL FOUNDATION RES INST
依托单位国家：
美国
项目类别：
财政年份：
1992
资助国家：
美国
起止时间：
1992-08-12 至 1997-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/2224927
关键词：
bioenergetics cineradiography computer graphics /printing congestive heart failure dogs elasticity fluoroscopy heart motion heart ventricle intracardiac pressure mechanical pressure mitral valve ventricular hypertrophy

项目摘要

To date, the mechanism underlying ventricular suction is unknown, and its role in maintaining physiological diastolic function is unproven. Ventricular suction is thought to play an important role in the almost explosive character of the early, rapid filling phase of the cardiac cycle (when much of ventricular inflow occurs); to contribute greatly to the diastolic filling necessary for efficient operation of the heart at rapid heart rates and with exercise; and to increase the overall efficiency of the heart by applying part of the mechanical energy of systole to power diastole. A failure of ventricular suction has been implicated in the excessively high left atrial pressures in the failing heart. The long range goal of the work described in this application is to determine the mechanical and structural basis for ventricular suction and elucidate the importance of diastolic suction to left ventricular filling under both physiological and pathophysiological conditions. This goal is now attainable due to three recent advances in our laboratories: First, the ability to acquire, by automated computerized analysis of stereo videoradiograms of implanted radiopaque markers, hundreds of simultaneous three-dimensional strains throughout the entire left ventricular myocardium; Second, a new experimental technique for left atrial pressure clamping and left ventricular volume clamping (servo-controlled) which shows promise in preliminary tests of revealing, for the first time, the mechanical correlates of left ventricular suction; and Third, a new computer graphics approach to visualization of large numbers of simultaneous instantaneous regional strains and shears allowing recognition of patterns, both spatial and temporal, not otherwise recognizable in the myriad of data arising from studies such as these. The proposed studies address the following questions: (1) What is the range of suction pressures which can be developed in the presence of a normal mitral valvular apparatus? (2) What is the importance of the contribution of suction to left ventricular filling? (3) Is elastic energy stored in myocardial torsional deformation, transmural compression, in-plane strains, or combinations of these shears and strains? (4) What are the regional distributions of elastic recoil and the sequence of regional energy release during diastole and how do these influence gradients of pressure within the LV? (5) What fraction of total LV filling can be accounted for by the mitral valve engulfing blood as it recoils toward the left atrium? (6) What are the effects of the pathophysiological conditions accompanying (a) volume overload hypertrophy and (b) pressure overload hypertrophy on regional diastolic mechanics, the storage of elastic energy during systole and its release during diastole, and the capability of the LV to develop suction? and (7) In what sequence and what proportion is energy stored in and released from the connective tissue matrix and the myocytes to aid filling? The answers to these questions should provide important new information regarding these fundamental aspects of diastolic function.

迄今为止，心室抽吸的机制尚不清楚，其维持生理舒张功能的作用尚未得到证实。脑室抽吸被认为在几乎所有的心脏早期快速充盈期的爆发性特征循环（当大量心室流入发生时）;对心脏有效运转所必需的舒张期充盈，快速心率和运动;并增加整体心脏的效率，通过应用部分机械能，收缩期到动力期心室抽吸失败与左心房压力过高有关，心本申请中描述的工作的长期目标是以确定心室抽吸的机械和结构基础并阐明舒张期抽吸对左室舒张功能的重要性在生理和病理生理条件下的填充。这由于我们实验室的三项最新进展，现在可以实现这一目标：首先，通过自动计算机化分析，植入的不透射线标记物的立体视频放射图，数百个同时三维应变整个左第二，一种新的实验技术，心房压力和左心室容量阻断（伺服控制），这表明在初步测试显示，左心室的机械相关性第三，一种新的计算机图形学方法，大量同时发生的瞬时区域应变和剪切允许识别模式，空间和时间，在研究中产生的无数数据中，这些. 建议的研究解决以下问题：（1）什么是在存在以下因素的情况下可以形成的吸入压力范围二尖瓣结构正常吗(2)的重要性是什么吸引对左心室充盈的贡献？(3)是弹性跨壁心肌扭转变形中储存的能量压缩、面内应变或这些剪切和应变？(4)弹性后坐力的区域分布和区域能量释放顺序以及这些能量是如何释放的影响LV内的压力梯度？(5)占总数的多少左心室充盈可以由二尖瓣吞噬血液来解释，因为它向左心房反弹(6)什么是影响的伴随（a）容量超负荷的病理生理状况心肌肥厚和（B）压力超负荷性心肌肥厚对局部舒张功能的影响力学，收缩期间弹性能量的储存及其释放以及左心室产生吸力的能力？以及（7）能量以什么顺序和比例储存和释放从结缔组织基质和肌细胞中提取来帮助填充的这些问题的答案应该提供重要的新信息关于舒张功能的这些基本方面。