Quantify the effect of docetaxel with different concentration on cell mechanical properties using atomic force microscopy

2019 IEEE THE 2nd INTERNATIONAL CONFERENCE ON MICRO/NANO SENSORS for AI, HEALTHCARE, AND ROBOTICS (NSENS) Pub Date : 2019-10-31 DOI:10.1109/NSENS49395.2019.9293951

Xiao-Long Yu, Wenjiang Wu, Na Liu, Tao Yue, Yuanyuan Liu, Huayan Pu

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Abstract

Mechanical properties of cells have been recognized as a biomarker for indicating cellular cytoskeletal organization. On the reason that chemical treatments can lead to rearrangements of cell cytoskeletal, characterization of cellular mechanical properties can provides an insightful approach to evaluate the effects of chemical treatments on cancer cells. The appearance of atomic force microscope (AFM) provides a powerful tool for detecting the nanoscale physiological activity of single living cell. In this paper, the detailed changes of cellular morphology and mechanical properties after docetaxel (DCT) treatment were quantified using AFM. The results showed that the Young’s modulus of the cells after DCT treatment was larger than the untreated cells and the adhesion of the treated cell was lower than before. In addition, these changes was related to the chemical concentration. These results thus provide a unique idea into the effects of chemical on individual cells.

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原子力显微镜定量观察不同浓度多西紫杉醇对细胞力学性能的影响

细胞的力学特性已被认为是指示细胞骨架组织的生物标志物。由于化学治疗可以导致细胞骨架的重排，细胞力学特性的表征可以为评估化学治疗对癌细胞的影响提供一种有见地的方法。原子力显微镜(AFM)的出现为检测单个活细胞的纳米级生理活动提供了有力的工具。本文采用原子力显微镜(AFM)对多西他赛(DCT)处理后细胞形态和力学性能的详细变化进行了定量分析。结果表明，DCT处理后细胞的杨氏模量大于未处理细胞，处理后细胞的粘附力低于未处理细胞。此外，这些变化与化学物质浓度有关。因此，这些结果为化学物质对单个细胞的影响提供了一个独特的思路。

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2019 IEEE THE 2nd INTERNATIONAL CONFERENCE ON MICRO/NANO SENSORS for AI, HEALTHCARE, AND ROBOTICS (NSENS)

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