Neuromodulation : journal of the International Neuromodulation Society
-
While spinal cord stimulation has commonly been carried out using percutaneous leads, these devices have limitations in cervical implants due to problems with positional stimulation and lead migration. Paddle leads, by virtue of their design, are more stable in their apposition to the neural elements; however, mid and lower cervical insertions have been associated with both acute and subacute spinal cord injuries. These complications are likely related to limitations in canal diameter, as paddle leads occupy a greater volume than percutaneous leads. ⋯ No patient suffered neurologic sequelae as a result of this procedure. We have found C1-C2 sublaminar insertions of paddle leads to be a safe and effective way of treating neuropathic pain phenomenon involving the upper extremity. To further assess the relative benefit over percutaneous leads, a prospective trial would be required.
-
The objective of this study was to evaluate the effect of automatic event-driven electrical stimulation on the dorsal penile/clitoral nerve for management of neurogenic detrusor overactivity in spinal cord injured subjects. In order to reach the objectives it was necessary to design and realize a portable device for ambulatory urodynamic studies which was able to activate an electrical stimulator when the detrusor pressure exceeded a certain threshold. ⋯ In testing the automatic event-driven system in the spinal cord injured subject, detrusor contractions were successfully inhibited until a certain bladder volume was reached and no incontinence episodes were observed prior to disabling the system. The preliminary results indicate that automatic event-driven electrical stimulation on the dorsal penile/clitoral nerve can inhibit involuntary detrusor contractions in spinal cord injured subjects and hereby restore continence and increase bladder capacity.
-
The aim of this article is to introduce the robotic orthosis Lokomat, developed to automate treadmill training rehabilitation of locomotion for spinal cord injured and stroke patients, to the Functional Electrical Stimulation (FES) and Neuromodulation research communities, and to report on our newly conducted research. We first illustrate the primary use of Lokomat in rehabilitation and focus on control aspects and algorithms associated with robotic rehabilitation of locomotion. ⋯ The first application is closed-loop control of the FES-induced shank movement and the second is the development of a neural network model of the spinal locomotor centers. This model was used to derive a neural locomotion controller for the Lokomat.
-
We investigated the effects of one somatosensory stimulation technique, the cyclic pressure application (CPA), and compared them with the effects of left transcutaneous electrical stimulation (TENS) on the expression of left visuospatial exploration deficits in 13 stroke patients, as assessed by four visuospatial exploration tasks. Four treatment conditions were given: TENS, CPA, TENS + CPA, as well as a placebo condition. For each patient, the intensity of the TENS was determined, based on his/her perception threshold of paresthesia for the electrical impulses. ⋯ Unilateral disturbances in visuospatial exploration, often associated with the neurologic syndrome of hemispatial neglect and more frequently observed after right hemisphere damage, refers to the defective ability of patients with unilateral cerebral lesions to explore the side of space contralateral to the lesion. Many quantifiable tests have been developed to assess the expression of visuomotor exploration. These tests differ substantially in their sensitivity, but the Star Cancellation and Line Bisection tasks are cited as the most sensitive measurements of visuospatial exploration.