NeuroEng@Usach
NeuroEng@Usach
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Warren M. Grill
Department of Biomedical Engineering - Duke University
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Towards a more accurate quasi-static approximation of the electric potential for neurostimulation with kilohertz-frequency sources*
Towards a more accurate quasi-static approximation of the electric potential for neurostimulation with kilohertz-frequency sources*
Slow Inactivation of Fast Sodium Channels Mediates Accommodation of Nerve Fiber Activity During Kilohertz-Frequency Spinal Cord Stimulation
Mammalian Motor Nerve Fibers, Models of
Nerve excitation using an amplitude-modulated signal with kilohertz-frequency carrier and non-zero offset
Quantification of Dorsal Column Fiber Responses in a Model of Kilohertz-Frequency Spinal Cord Stimulation
Effects of frequency-dependent membrane capacitance on neural excitability
Phantom Model of Transcutaneous Electrical Stimulation with Kilohertz Signals
Volume conductor model of transcutaneous electrical stimulation with kilohertz signals.
Circuit and volume conductor models of transcutaneous electrical stimulation
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