Arts T, Reneman R S
Department of Biophysics, University of Limburg, Maastricht, The Netherlands.
J Biomech. 1989;22(3):261-71. doi: 10.1016/0021-9290(89)90093-6.
The relation between global left ventricular pumping characteristics and local cardiac muscle fiber mechanics is represented by a mathematical model of left ventricular mechanics in which the mitral valve papillary muscle system is incorporated. The wall of the left ventricle is simulated by a thick-walled cylinder. Transmural differences in fiber orientation are incorporated by changing the direction of material anisotropy across the wall. The cylinder is free to twist. The upper end of the cylinder is covered by a thin, flexible sheet, representing the base of the left ventricle. The mitral valve is incorporated in this sheet. The tips of the mitral leaflets are connected by chordae tendineae to the papillary muscles which are attached to the bottom of the cylinder. Canine cardiac cycles were simulated for various end-diastolic values of left ventricular volume (25-120 ml, control 60 ml), left atrial pressure (0-2.7 kPa, control 0.22 kPa) and aortic pressure (5-11 kPa, control 11 kPa). In this wide range of preload and afterload mechanical loading of the muscle fibers appeared to be distributed quite evenly (SD: +/- 5% of control value) over all muscular structures of the left ventricle, including the papillary muscles.
左心室整体泵血特性与局部心肌纤维力学之间的关系,由一个纳入二尖瓣乳头肌系统的左心室力学数学模型来表示。左心室壁由一个厚壁圆柱体模拟。通过改变整个壁上材料各向异性的方向,纳入纤维方向的跨壁差异。圆柱体可自由扭转。圆柱体的上端由一块薄的柔性片覆盖,代表左心室底部。二尖瓣包含在这片柔性片中。二尖瓣叶的尖端通过腱索连接到附着在圆柱体底部的乳头肌。针对左心室舒张末期容积(25 - 120毫升,对照60毫升)、左心房压力(0 - 2.7千帕,对照0.22千帕)和主动脉压力(5 - 11千帕,对照11千帕)的各种值,模拟了犬心循环。在如此广泛的前负荷和后负荷范围内,肌肉纤维的机械负荷似乎在左心室的所有肌肉结构(包括乳头肌)上相当均匀地分布(标准差:±对照值的5%)。