In vitro dynamic strain analysis on porcine mitral valve

Z. He, L. Baijens, S. Wanant, P. Shah, S. He, B. Sugimoto, M. Sacks, A. Yoganathan
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Abstract

Dual camera stereo photogrammetry was used to quantify the deformation of the central region of the anterior leaflet: of the mitral valve operating in a flow loop under physiological and pathological conditions. Stretches and strains were measured and analyzed. The principal stretches demonstrated a rapid rise early in leaflet closure, followed by a plateau, suggesting that the collagen fibers "locked" in place. There is a big difference between the major principal stretch and minor principal stretch. Similar to in-vitro tissue mechanics studies, the transmitral pressure-areal strain relationship during loading and unloading clearly demonstrated hysteresis. Further, this relationship demonstrated a dramatic stiffening attributed to collagen fiber locking. When the data of 3 papillary muscle positions were compared, the leaflet in the slack papillary position showed the highest areal strain rate. The valve exhibited a strongly anisotropic behavior. Papillary muscle position had a small effect on strain measured in the region.
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猪二尖瓣体外动态应变分析
采用双相机立体摄影测量法定量测定生理和病理条件下二尖瓣前小叶中央区域的变形情况。对拉伸和应变进行测量和分析。主要拉伸在小叶闭合早期表现出快速上升,随后是一个平台,表明胶原纤维“锁定”在适当的位置。大主音伸展和小主音伸展之间有很大的区别。与体外组织力学研究类似,加载和卸载过程中的传递压力-面应变关系明显表现出滞后性。此外,这种关系证明了胶原纤维锁定导致的剧烈硬化。对比3个乳头肌位置的数据,松弛乳头肌位置的小叶面应变率最高。阀门表现出强烈的各向异性行为。乳头肌位置对该区域测量的应变影响较小。
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