Electro-deformation of fused cells in a microfluidic array device

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Abstract

We present a new method of analyzing the deformability of fused cells in a microfluidic array device. Electrical stresses-generated by applying voltages (4-20 V) across discrete co-planar microelectrodes along the side walls of a microfluidic channel-have been used to electro-deform fused and unfused stem cells. Under an electro-deformation force induced by applying an alternating current (AC) signal, we observed significant electro-deformation phenomena. The experimental results show that the fused stem cells were stiffer than the unfused stem cells at a relatively low voltage (< 16 V). However, at a relatively high voltage, the fused stem cells were more easily deformed than were the unfused stem cells. In addition, the electro-deformation process is modeled based on the Maxwell stress tensor and structural mechanics of cells. The theoretical results show that a positive correlation is found between the deformation of the cell and the applied voltage, which is consistent with the experimental results. Combined with a numerical analysis and experimental study, the results showed that the significant difference of the deformation ratio of the fused and unfused cells is not due to their size difference. This demonstrates that some other properties of cell membranes (such as the membrane structure) were also changed in the electrofusion process, in addition to the size modification of that process..

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Liu, Y., Zhang, X., Chen, M., Yin, D., Yang, Z., Chen, X., … Yang, J. (2016). Electro-deformation of fused cells in a microfluidic array device. Micromachines, 7(11). https://doi.org/10.3390/mi7110204

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