Electric-field induced strain in biological tissues
Copyright policy )Electric-field induced strain in biological tissues
This paper reports a new effect whereby a physiological-level direct-current electrical field (at 1.4 V/cm) can induce time-varying mechanical strain in various types of biological tissues and gel phantoms. This effect cannot be explained by the piezoelectric effect, tissue contraction, temperature changes, and electrorestriction. The induced strain in tissues was analyzed by processing ultrasound echo signals. The sample expanded perpendicularly to the applied electric field. The expansion rate depended on the history of the applied electric field. The speed of sound changed little compared with the expansion. The new effect might be related to electrokinetic effects.
Phantoms, Imaging, Swine, Heart, In Vitro Techniques, Kidney, Models, Biological, Electromagnetic Fields, Adipose Tissue, Liver, Skin Physiological Phenomena, Animals, Gelatin, Ultrasonics, Stress, Mechanical, Ultrasonography
Phantoms, Imaging, Swine, Heart, In Vitro Techniques, Kidney, Models, Biological, Electromagnetic Fields, Adipose Tissue, Liver, Skin Physiological Phenomena, Animals, Gelatin, Ultrasonics, Stress, Mechanical, Ultrasonography
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