Electrical Stimulation of Cell Growth on Layers of Composite Material Based on Carbon Nanotubes and Polymers

机译：基于碳纳米管和聚合物的复合材料层对细胞生长的电刺激

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摘要

A method of electrical stimulation of the growth of fibroblast cells and mesenchymal stem cells cultured on layers of a composite material deposited from water dispersion of carbon nanotubes and polymers (serum albumin, chitosan) and cured by laser method is proposed. A system for electrical stimulation has been developed that allows electrical stimulating pulses to be transmitted to cells through electrically conductive layers of a composite material. Electrical stimulation was carried out for 48 h with pulsed electric signal (80 mV amplitude, 1 ms pulse duration, 0.5 s pause). As a result of electrical stimulation, an increase in the density of cell distribution over the surface of the layers of the composite material and formation of a cell monolayer were observed.

机译：提出了一种电刺激成纤维细胞生长的方法和在从碳纳米管和聚合物（血清白蛋白，壳聚糖）的水分散体沉积的复合材料层层上培养的培养的间充质干细胞和通过激光方法固化的复合材料层。已经开发了一种用于电刺激系统，其允许通过复合材料的导电层传递到细胞的电刺激脉冲。用脉冲电信号（80mV振幅，1ms脉冲持续时间，0.5秒）进行电刺激48小时。由于电刺激的结果，观察到复合材料层表面上的细胞分布密度的增加和细胞单层的形成。

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来源
《Russian-Germany Conference on Biomedical Engineering》|2019年|1 volume (various pagings) :|共5页
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作者
P. Yu. Privalova; A. Yu. Gerasimenko; V. A. Petukhov; E. N. Shimarov; I. A. Suyetina; M. A. Mezentseva;
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中图分类 R318-532;
关键词
stimulation; growth; fibroblast;

机译：刺激;生长;成纤维细胞;

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2. Composites based on acrylic polymers and carbon nanotubes as precursors of carbon materials [J] . Karpushkin E. A., Berkovich A. K., Sergeyev V. G. Polymer science, Series C . 2016,第1期

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3. Raman spectroscopy as a tool for the analysis of carbon-based materials (highly oriented pyrolitic graphite, multilayer graphene and multiwall carbon nanotubes) and of some of their elastomeric composites [J] . Liliane Bokobza, Jean-Luc Bruneel, Michel Couzi Vibrational Spectroscopy: An International Journal devoted to Applications of Infrared and Raman Spectroscopy . 2014,第Null期

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4. Electrical Stimulation of Cell Growth on Layers of Composite Material Based on Carbon Nanotubes and Polymers [C] . P. Yu. Privalova, A. Yu. Gerasimenko, V. A. Petukhov, Russian-Germany Conference on Biomedical Engineering . 2019

机译：基于碳纳米管和聚合物的复合材料层对细胞生长的电刺激
5. Human neural stem cell differentiation and electrical stimulation on a novel single walled carbon nanotube-polymer composite. [D] . Turner, Jeffrey Thomas. 2013

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Electrical Stimulation of Cell Growth on Layers of Composite Material Based on Carbon Nanotubes and Polymers

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