Washington University St Louis, United States
Nathan was a doctoral candidate in Biomedical Engineering from 2015-2023. His dissertation work focused on 1) determining the optimal time course of therapeutic electrical stimulation for enhancing peripheral nerve regeneration using wireless implantable nerve stimulators and 2) monitoring recovery from peripheral nerve injury in vivo using diffusion basis spectrum imaging. Outside of his dissertation work Nathan was involved in other projects including designing a bone stimulation device for a femoral fracture model, developing a mechanomyography sensor to measure injured nerve function, and implanting macro-sieve electrodes for motor control in a spinal cord injury model.
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Poster Z20 - Macro-Sieve Electrode Stimulation Frequency and Rat Detection Threshold
Thursday, October 24, 2024
2:45 PM - 3:45 PM EST