本文将就近几年关于机械刺激下成骨细胞骨架的改变及作用机制的研究进展进行综述。
This paper summarizes the recent advances about the effects and possible mechanism of mechanical stimulation on osteoblast cytoskeleton.
人类骨肉瘤细胞可改变细胞骨架、及粘连蛋白质对静水压力的反应。
Human Osteosarcoma Cells Alter Cytoskeletal and Adhesion Proteins in Response to Physiological Levels of Hydrostatic Pressure.
目的建立培养肝细胞牵张损伤模型,探讨肝细胞损伤、细胞骨架和粘弹性的改变及其发生机制。
Objective to establish the stretch injury model of cultured liver cells, observe the injury of liver cells and changes in their cytoskeleton and viscoelasticity, and explore the mechanisms.
结论细胞骨架的损伤可引起细胞脆性增加、粘弹性下降,导致细胞生物力学特性的改变。
Conclusion the cytoskeleton injury could cause the increase of cellular fragility and the decrease of the viscoelasticity, which ultimately lead to the change of cellular biodynamics.
结论细胞骨架的损伤可引起细胞脆性增加、粘弹性下降,导致细胞生物力学特性的改变。
Conclusion the cytoskeleton injury could cause the increase of cellular fragility and the decrease of the viscoelasticity, which ultimately lead to the change of cellular biodynamics.
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