A system designed for the study of cell activity under electrical stimulation
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Auteurs : RBID : ISTEX:10542_1995_Article_BF00157080.pdfAbstract
Indium tin oxide electrodes have been used to investigate in vitro effects of steady electric fields on rat bone marrow stromal cells. At voltages <0.8V, no medium decomposition takes place and an electrical double layer is formed at the electrodes. At the anode, the attachment of cells is enhanced but their proliferation is suppressed. Cell proliferation is resumed on removal of the field.
DOI: 10.1007/BF00157080
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<author><name>M. Sayer</name>
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<author><name>X. Shen</name>
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<front><div type="abstract" xml:lang="eng">Indium tin oxide electrodes have been used to investigate in vitro effects of steady electric fields on rat bone marrow stromal cells. At voltages <0.8V, no medium decomposition takes place and an electrical double layer is formed at the electrodes. At the anode, the attachment of cells is enhanced but their proliferation is suppressed. Cell proliferation is resumed on removal of the field.</div>
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<abstract lang="eng">Indium tin oxide electrodes have been used to investigate in vitro effects of steady electric fields on rat bone marrow stromal cells. At voltages <0.8V, no medium decomposition takes place and an electrical double layer is formed at the electrodes. At the anode, the attachment of cells is enhanced but their proliferation is suppressed. Cell proliferation is resumed on removal of the field.</abstract>
<relatedItem type="series"><titleInfo type="abbreviated"><title>Biotechnol Tech</title>
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<titleInfo><title>Biotechnology Techniques</title>
<partNumber>Year: 1995</partNumber>
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<subject usage="primary"><topic>Chemistry</topic>
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<topic>Biotechnology</topic>
<topic>Animal Anatomy / Morphology / Histology</topic>
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