Functional and Neuroprotective Effects of Restoring Lower Limb Sensation After Diabetic Peripheral Neuropathy
The purpose of this study is to evaluate the effectiveness of providing sensation of the missing limb to individuals with above and below the knee limb loss. The investigators will implanted stimulating electrodes to send small electrical currents to the remaining nerves. These small electrical currents cause the nerves to generate signals that are then transferred to your brain similar to how the information about your foot and lower limb used to be transferred to the brain prior to your limb loss. Additionally, there is the option to have muscle recording electrodes implanted within the muscles of the lower limb with the goal to develop a motor controller that would allow the user to have intuitive control of a robotic prosthetic leg.
• Chronic, medically stable lower limb amputation due to diabetes or insensate foot due to Diabetic peripheral neuropathy
• Being ambulatory and ability to stand or walk with prosthesis or orthosis
• Viable target nerves in the lower extremity as determined by standard-of-care clinical tests of nerve conduction, response to stimulation, sensory evoked potentials (SEP) and the like
• Good skin integrity and personal hygiene
• Absence of autoimmune deficiencies, seizure disorders or cardiac abnormalities contraindicating stimulation
• Sufficient social support and personal ability to tolerate study procedures and comply with follow-up schedule