20 May 2013 The enhancement of neuronal cells wound healing with non-contact electric field stimulation by graphene electrodes
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Proceedings Volume 8879, Nano-Bio Sensing, Imaging, and Spectroscopy; 88790X (2013) https://doi.org/10.1117/12.2020770
Event: Nano-Bio Sensing, Imaging and Spectroscopy, 2013, Jeju, Korea, Republic of
Abstract
Electrical stimulation affects cellular behaviors including division, migration and wound healing [1-3]. Cellular injury often occurs due to the imbalance of the endogenous electric field [3]. In order to recover from the injury, wound healing process requires various cellular changes such as regeneration, migration, and the enhancement of cytoskeletal proteins and growth factors. In previous reports, a weak non-contact electric field stimulation (nEFS) accelerates the cell migration as well as cell-to-cell coupling between neuronal cell junction which are accompanied by increasing of cytoskeletal proteins [4, 5]. In this paper, we further investigated the wound healing effect of the nEFS in the neuronal cells (SHSY5Y cells) with live cell optical imaging. Cells were cultured over the optically transparent graphenen EF stimulator. Cellular behavioral changes upon nEFS were recorded with live optical imaging during stimulation of 120 minutes. The ability of wound healing was significantly enhanced with the nEFS. In particular, nEFS significantly shorten the duration of wound healing process. Moreover, after treating cells with cytochalasin D, a block polymerization of the actin filaments, the nEFS significantly enhanced wound healing process of cytochalasin D treated neural cells as compared to the control neural cells. This study suggests that nEFS may provide an effective way to control neural cells repairing process from cellular injury. Further mechanism study about the effect of nEFS on the wound healing may shed new light on cellular behavior.
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Sohee Lee, Chaejeong Heo, Si Young Lee, Young Hee Lee, Minah Suh, "The enhancement of neuronal cells wound healing with non-contact electric field stimulation by graphene electrodes", Proc. SPIE 8879, Nano-Bio Sensing, Imaging, and Spectroscopy, 88790X (20 May 2013); doi: 10.1117/12.2020770; https://doi.org/10.1117/12.2020770
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