Assessment of contractility in osteoblastic cells

Proceedings of the IEEE 31st Annual Northeast Bioengineering Conference, 2005. Pub Date : 2005-04-02 DOI:10.1109/NEBC.2005.1431979

E. M. McCusker, D. Chachra

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Abstract

There currently exists evidence that bone cells can both apply and respond to mechanical changes to their underlying substrates. This investigation utilized an osteoblast-like cell line (MC3T3 cells) on a collagenous substrate to determine if contraction could be observed during a twenty-two hour incubation period. The contraction was measured using a cell-force monitor developed at MIT. This device uses the change in length of the matrix, measured as a voltage difference, to determine the contraction relative to a baseline. Two matrices were used, here referred to as matrices A and B. Four samples from each were used to obtain mean baseline voltages (A:0.1127/spl plusmn/0.0269 V, B:0.1057/spl plusmn/0.0050 V.) For the experimental cell-seeded runs, only one valid sample from matrix A was obtained with a maximum voltage of 0.1838 V, and two samples were averaged for matrix B to 0.1553/spl plusmn/0.0045 V. While the sample set is not large enough to make statistical comparisons, the mean contraction for the cell-seeded runs does appear to be significantly greater than the baseline values, indicating that MC3T3 cells are capable of short-term contraction. This work is continuing with characterization of the substrate to enable conversion of the measured voltage to applied force. Future work will include investigations into the mechanisms of this cellular contraction.

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成骨细胞收缩性的评估

目前有证据表明，骨细胞既可以应用机械变化，也可以对其底层基质作出反应。本研究利用胶原基质上的成骨细胞样细胞系(MC3T3细胞)来确定在22小时的孵育期间是否可以观察到收缩。收缩是用麻省理工学院开发的细胞力监测器测量的。该装置使用矩阵长度的变化，作为电压差来测量，以确定相对于基线的收缩。使用了两个矩阵，这里称为矩阵A和矩阵B。每个矩阵中有四个样本用于获得平均基线电压(A:0.1127/spl plusmn/0.0269 V, B:0.1057/spl plusmn/0.0050 V)。对于实验细胞种子运行，仅从矩阵A中获得一个有效样品，最大电压为0.1838 V，矩阵B的两个样品平均为0.1553/spl plusmn/0.0045 V。虽然样本集不够大，不足以进行统计比较，但细胞种子运行的平均收缩似乎明显大于基线值，表明MC3T3细胞能够短期收缩。这项工作正在继续对衬底进行表征，以便将测量的电压转换为施加的力。未来的工作将包括对这种细胞收缩机制的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the IEEE 31st Annual Northeast Bioengineering Conference, 2005.

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