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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目的旨在了解严重烧伤早期心肌生物力学特性的变化及细胞骨架损伤对心肌细胞粘弹力学特性的影响。

Aim to study the changes of myocardial biomechanical properties and the effect of cytoskeleton damage on the viscoelastic properties of myocardial cells in the early stage of burn injury.

youdao

目的旨在了解严重烧伤早期心肌生物力学特性的变化及细胞骨架损伤对心肌细胞粘弹力学特性的影响。

Aim to study the changes of myocardial biomechanical properties and the effect of cytoskeleton damage on the viscoelastic properties of myocardial cells in the early stage of burn injury.

youdao