Neuromuscular reconnection methodology by cap sense absorption and diffusion signal

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Abstract

The disconnection of the nervous system by illness or accident will generate the immovability on the upper limbs and under limbs, it generates feebleness and is finalizing in muscular atrophy. These effects produce that the possibility of make mobility due to these would be minor by separation of the nerve terminals. The last medical advancements show the spinal cord regeneration by means of the transplantation of autologous olfactory unsheathing cells but in long time of recovery results, it generates medical complication. Taking the generated cerebral cortex motor signal, its nerve conductions and its muscle distribution to generate the movement by capsense system conformed of doped hydrogel with an android mobile interface; the modeling software will reconstruct the approach signal by the bifurcation method and cable theory to model and to induce to the body for returning the mobility and the same time, the sensorial signal from the limbs will be absorbed to return to the brain and return the lost sensibility. The first approach is the potential received by android platform from skin corpuscles making a reaction in the mobile function by normal skin stimulation. With the knowledge of nerves resonance frequency and the minimal caught potential reproducing an action in the capsense matrix system, to induce the movement with the cerebral cortex signal will be a more close rehabilitation reality.

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Diaz, R. J., Torres, H. D., & Martinez, L. J. (2015). Neuromuscular reconnection methodology by cap sense absorption and diffusion signal. In IFMBE Proceedings (Vol. 51, pp. 1103–1106). Springer Verlag. https://doi.org/10.1007/978-3-319-19387-8_268

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