Three-dimensional myofiber architecture of the embryonic left ventricle during normal development and altered mechanical loads

Tobita K; Garrison JB; Liu LJ; Tinney JP; Keller BB

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Three-dimensional myofiber architecture of the embryonic left ventricle during normal development and altered mechanical loads

机译：胚胎左心室的三维MyoFiber建筑在正常开发期间和改变机械负荷

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Mechanical load influences embryonic ventricular growth, morphogenesis, and function. To date, little is known regarding how the embryonic left ventricular (LV) myocardium acquires a three-dimensional (3D) fiber architecture distribution or how altered mechanical load influences local myofiber architecture. We tested the hypothesis that altered mechanical load changes the maturation process of local 3D fiber architecture of the developing embryonic LV compact myocardium. We measured transmural myofiber angle distribution in the LV compact myocardium in Hamburger-Hamilton stages 21, 27, 31, and 36 chick embryos during normal development or following either left atrial ligation (LAL; LV hypoplasia model) or conotruncal banding (CTB; LV hyperplasia model). The embryonic LV was stained with f-actin and then z-serial optical sectioning was performed using a laser confocal scanning microscope. We reconstructed local 3D myofiber images and computed local transmural myofiber angle distribution. Transmural myofiber angles in compact myocardium (in LV sagittal sections) were oriented in a circumferential direction until stage 27 (-10 to 10degrees). Myofibers in the outer side of compact myocardium shifted to a more longitudinal direction by stage 36 (10 to 40degrees), producing a transmural gradient in myofiber orientation. Developmental changes in transmural myofiber angle distribution were significantly delayed following LAL, while the changes in angle distribution were accelerated following CTB. Results suggest that mechanical load modulates the maturation process of myofiber architecture distribution in the developing LV compact myocardium. (C) 2005 Wiley-Liss, Inc.

机译：机械负荷影响胚胎心室生长，形态发生和功能。迄今为止，关于胚胎左心室（LV）心肌如何获取三维（3D）光纤架构分布或改变机械负荷影响本地MyoFiber架构的方法。我们测试了改变的机械负荷改变了发育胚胎LV紧凑型心肌的局部3D光纤结构的成熟过程的假设。我们在正常发育期间或左侧心房连接（LAL; LAL; LL; LV; LV增生）中测量汉堡 - 汉密尔顿阶段21,27,31和36甲状腺胚胎中LV紧凑型阶段21,27,31和36个雏鸡胚胎中的透毛肌纤维角分布模型）。用F-actin染色胚胎LV，然后使用激光共焦扫描显微镜进行Z串联光学截面。我们重建了本地3D MyoFiber图像和计算的本地透缺位角度分布。紧凑型心肌（LV矢状部分）中的透射肌纤维角在圆周方向上定向，直到27（-10至10℃）。紧凑型心肌外侧的肌胶质通过阶段36（10到40℃）移动到更长的纵向方向，在肌电纤维方向上产生透跨度。在LAL之后显着延迟透射肌纤维角分布的发育变化，而CTB的角度分布的变化加速。结果表明，机械载荷调制了浅层肌电纤维建筑分布的成熟过程，在显影LV紧凑型心肌中。（c）2005 Wiley-Liss，Inc。

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《The anatomical record, Part A. Discoveries in molecular, cellular, and evolutionary biology》 |2005年第1期|共9页
作者
Tobita K; Garrison JB; Liu LJ; Tinney JP; Keller BB;
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Univ Pittsburgh Rangos Res Ctr Childrens Hosp Pittsburgh Cardiovasc Dev Res Program Div Pediat Cardiol Pittsburgh PA 15213 USA;

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正文语种 eng
中图分类人体形态学;
关键词
cardiac morphogenesis; left atrial ligation; conotruncal banding; mechanical loads; 3D myofiber orientation; confocal laser microscopy; LEFT-HEART HYPOPLASIA; CHICK-EMBRYO; MYOCARDIUM; MYOARCHITECTURE; PROLIFERATION; EXPRESSION; PRESSURE; PATTERNS; STRAIN; WALL;

机译：心脏形态发生;左心房结扎;Conotruncal绑带;机械负载;3D MyoFiber取向;共聚焦激光显微镜;左心发育不全;鸡胚;心肌;肌肉建筑;肌肉;压力;压力;墙;

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1. Three-dimensional myofiber architecture of the embryonic left ventricle during normal development and altered mechanical loads [J] . Tobita K, Garrison JB, Liu LJ, The anatomical record, Part A. Discoveries in molecular, cellular, and evolutionary biology . 2005,第1期

机译：胚胎左心室的三维MyoFiber建筑在正常开发期间和改变机械负荷
2. Structure and torsion in the normal and situs inversus totalis cardiac left ventricle. II. Modeling cardiac adaptation to mechanical load [J] . Wilco Kroon, Tammo Delhaas, * Peter Bovendeerd, American Journal of Physiology . 2008,第1aPta2期

机译：正常和总位置反转的结构和扭转是心脏左心室。二。模拟心脏对机械负荷的适应
3. Structure and torsion in the normal and situs inversus totalis cardiac left ventricle. II. Modeling cardiac adaptation to mechanical load [J] . Wilco Kroon, Tammo Delhaas, * Peter Bovendeerd, American Journal of Physiology . 2008,第1aPta2期

机译：正常和总位置反转的结构和扭转是心脏左心室。二。模拟心脏对机械负荷的适应
4. 3D RECONSTRUCTION AND NONLINEAR FINITE ELEMENT ANALYSIS OF THE EMBRYONIC LEFT VENTRICLE [C] . Daniela Faas, Christine Miller Buffinton, David Sedmera ASME Bioengineering Conference . 2007

机译：胚胎左心室的三维重建与非线性有限元分析
5. Cylindrical raster map-based surface reconstruction of the left ventricle using real-time three-dimensional ultrasound. [D] . Ohazama, Chikai Jeffrey. 1998

机译：使用实时三维超声基于圆柱光栅图的左心室表面重建。
6. Development of Helical Myofiber Tracts in the Human Fetal Heart: Analysis of Myocardial Fiber Formation in the Left Ventricle From the Late Human Embryonic Period Using Diffusion Tensor Magnetic Resonance Imaging [O] . Saori Nishitani, Narisa Torii, Hirohiko Imai, 2020

机译：人胎心螺旋肌纤维道的发展：利用扩散张量磁共振成像从晚期人胚胎时期左心室心肌纤维形成分析
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Three-dimensional myofiber architecture of the embryonic left ventricle during normal development and altered mechanical loads

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