骨中的流体与溶质转运:流动诱导的机械转导
Fluid and Solute Transport in Bone: Flow-Induced Mechanotransduction.
作者信息
Fritton Susannah P, Weinbaum Sheldon
机构信息
Department of Biomedical Engineering, City College of New York, New York, New York 10031.
出版信息
Annu Rev Fluid Mech. 2009 Jan 1;41:347-374. doi: 10.1146/annurev.fluid.010908.165136.
Abstract
Much recent evidence suggests that bone cells sense their mechanical environment via interstitial fluid flow. In this review, we summarize theoretical and experimental approaches to quantify fluid and solute transport in bone, starting with the early investigations of fluid shear stress applied to bone cells. The pathways of bone interstitial fluid and solute movement are high-lighted based on recent theoretical models, as well as a new generation of tracer experiments that have clarified and refined the structure and function of the osteocyte pericellular matrix. Then we trace how the fluid-flow models for mechanotransduction have evolved as new ultrastructural features of the osteocyte lacunar-canalicular porosity have been identified and how more recent in vitro fluid-flow and cell-stretch experiments have helped elucidate at the molecular level the possible pathways for cellular excitation in bone.
摘要
近期的许多证据表明,骨细胞通过组织液流动感知其力学环境。在这篇综述中,我们总结了量化骨中流体和溶质传输的理论和实验方法,从早期对施加于骨细胞的流体剪切应力的研究开始。基于最近的理论模型以及新一代示踪实验,突出了骨组织液和溶质运动的途径,这些实验阐明并完善了骨细胞周细胞基质的结构和功能。然后,我们追溯了机械转导的流体流动模型是如何随着骨细胞腔隙-小管孔隙率的新超微结构特征的确定而演变的,以及最近的体外流体流动和细胞拉伸实验如何在分子水平上帮助阐明骨细胞兴奋的可能途径。
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