Alternating Current Electric Field Effects on Neural Stem Cell Viability and Differentiation

Marvi A. Matos; Marcus T. Cicerone

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Alternating Current Electric Field Effects on Neural Stem Cell Viability and Differentiation

机译：交流电场对神经干细胞活力和分化的影响

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Methods utilizing stem cells hold tremendous promise for tissue engineering applications; however, many issues must be worked out before these therapies can be routinely applied. Utilization of external cues for preimplantation expansion and differentiation offers a potentially viable approach to the use of stem cells in tissue engineering. The studies reported here focus on the response of murine neural stem cells encapsulated in alginate hydrogel beads to alternating current electric fields. Cell viability and differentiation was studied as a function of electric field magnitude and frequency. We applied fields of frequency (0.1-10) Hz, and found a marked peak in neural stem cell viability under oscillatory electric fields with a frequency of 1 Hz. We also found an enhanced propensity for astrocyte differentiation over neuronal differentiation in the 1 Hz cultures, as compared to the other field frequencies we studied.

机译：利用干细胞的方法在组织工程应用中具有广阔的前景。但是，在常规应用这些疗法之前，必须解决许多问题。利用外部线索进行植入前的扩增和分化为在组织工程中使用干细胞提供了一种潜在可行的方法。这里报道的研究集中在藻酸盐水凝胶珠粒中封装的鼠神经干细胞对交流电场的响应。研究细胞活力和分化作为电场强度和频率的函数。我们应用了频率为（0.1-10）Hz的场，并在频率为1 Hz的振荡电场下发现了神经干细胞活力的明显峰值。与我们研究的其他场频相比，我们还发现在1 Hz培养物中，星形胶质细胞分化的倾向高于神经元分化。

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《Biotechnology Progress》 |2010年第3期|共7页
作者
Marvi A. Matos; Marcus T. Cicerone;
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正文语种 eng
中图分类生物科学;
关键词
neural stem cell; stem cell differentiation; stem cell viability; electric field stimuli; transport enhancement; electrokinetics;

机译：神经干细胞;干细胞分化;干细胞活力;电场刺激;转运增强;电动学;

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1. Alternating Current Electric Field Effects on Neural Stem Cell Viability and Differentiation [J] . Marvi A. Matos, Marcus T. Cicerone Biotechnology Progress . 2010,第3期

机译：交流电场对神经干细胞活力和分化的影响
2. Application of low-frequency alternating current electric fields via interdigitated electrodes: effects on cellular viability, cytoplasmic calcium, and osteogenic differentiation of human adipose-derived stem cells. [J] . McCullen SD, McQuilling JP, Grossfeld RM, Tissue engineering, Part C. Methods . 2010,第6期

机译：通过叉指电极施加低频交流电场：对人类脂肪干细胞的细胞存活力，细胞质钙和成骨分化的影响。
3. Alternating current electric fields of varying frequencies: effects on proliferation and differentiation of porcine neural progenitor cells. [J] . Lim J. H., McCullen S. D., Piedrahita J. A., Cellular reprogramming . 2013,第5期

机译：不同频率的交流电场：对猪神经祖细胞增殖和分化的影响。
4. OSTEOGENIC DIFFERENTIATION OF ADULT HUMAN MESENCHYMAL STEM CELLS EXPOSED TO ALTERNATING ELECTRIC CURRENT [C] . M. E. Wechsler, S. Laksmanachetty, V. A. Wechsler, Society for Biomaterials fall symposium 2012.;vol. 34. . 2012

机译：暴露于交流电的成人人间充质干细胞的成骨分化
5. Topography, extracellular matrix proteins, secreted molecules and endogenous electric fields: Cues that influence the differentiation of neural progenitor cells. [D] . Ariza, Carlos Atico. 2009

机译：地形，细胞外基质蛋白，分泌的分子和内源性电场：影响神经祖细胞分化的线索。
6. Application of Low-Frequency Alternating Current Electric Fields Via Interdigitated Electrodes: Effects on Cellular Viability Cytoplasmic Calcium and Osteogenic Differentiation of Human Adipose-Derived Stem Cells [O] . Seth D. McCullen, John P. McQuilling, Robert M. Grossfeld, -1

机译：通过指间电极应用低频交流电场：对人类脂肪干细胞的细胞活力细胞质钙和成骨分化的影响。
7. Application of Low-Frequency Alternating Current Electric Fields Via Interdigitated Electrodes: Effects on Cellular Viability, Cytoplasmic Calcium, and Osteogenic Differentiation of Human Adipose-Derived Stem Cells [O] . McCullen, Seth D., McQuilling, John P., Grossfeld, Robert M., 2010

机译：通过指间电极施加低频交流电场：对人类脂肪干细胞的细胞存活力，细胞质钙和成骨分化的影响。

Alternating Current Electric Field Effects on Neural Stem Cell Viability and Differentiation

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