参照传统平行平板流室的理论和方法,研究适用于体外细胞的流体剪切力加载装置。
Therefore, the parallel plate flow chamber system was developed according to the classical theory and methods.
流体剪切力是由于液体流经细胞表面所产生的一种机械力,目前发现其在细胞分化、发育及行使细胞功能的过程中起到了巨大的作用。
Fluid shear is the mechanical force exerted by the movement of fluids over cell surfaces and has been found to play an important role in cellular differentiation, development and function.
令人惊奇的是,Nickerson和他的团队研究发现低流体剪切力的环境与特定人类病原体的致病能力之间存在着一定的相关性。
Intriguingly, experimental research carried out by Nickerson and her team has implicated low-fluid shear environments in regulating the infectious disease potential of certain human pathogens.
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