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Nerve Disorders clinical trials

View clinical trials related to Nerve Disorders.

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NCT ID: NCT04801498 Recruiting - Chronic Pain Clinical Trials

Chronic Pain, Opioid Use, and Epidermal Nerve Fiber Density

COED
Start date: December 7, 2020
Phase:
Study type: Observational

This pilot study is being performed to examine whether epidermal axons are altered in patients taking opioid therapy for chronic non-cancer pain, and if epidermal axonal changes predict heightened pain sensitivity.

NCT ID: NCT04161261 Enrolling by invitation - Hearing Loss Clinical Trials

Minimizing Facial Nerve Stimulation in Cochlear Implants

Start date: December 13, 2019
Phase: N/A
Study type: Interventional

This study aims to understand how to manipulate the electrical stimulation from the cochlear implant to maximize hearing stimulation and minimize facial stimulation. It is know from animal data that the hearing and facial nerves have different sensitivities to things like electrical pulse shape, its pattern, and its duration. It is very unclear however if this applies to human cochlear implant patients, and what the optimal parameters are to selectively stimulate the hearing nerve in humans. The outcomes of this study will be used to more selectively program some patients with severe facial nerve cross stimulation and to inform the development of new types of implant stimulation.

NCT ID: NCT02618642 Completed - Nerve Disorders Clinical Trials

The Use of i/t Curve in Assessment of Phototherapy Effects

Start date: February 2016
Phase: N/A
Study type: Interventional

Conventional electrodiagnostic examination is useful in daily physiotherapeutic practice. Nevertheless, the subjective assessment of muscle contraction and perceived current vibrations carries the risk of error and thus is a limitation of the method. Therefore, the use of the I/T curve coefficient was proposed in this study. This coefficient is the arithmetic mean of the electrical charge needed to trigger a sensory or motor reaction at different widths of the electrical pulse. PILER (Polychromatic Incoherent Low-Energy Radiation) light affects the sensory and motor excitability of the tissue. The resulting changes may depend on the colour of the filter used in the irradiations. The study aimed to: 1. To evaluate changes in neuromuscular excitability occurring after PILER irradiation using filters of different colours. 2. To evaluate the usefulness of the I/T curve coefficient in neuromuscular excitation test. 60 healthy volunteers were assigned to one of four groups irradiated with: 1 - Piler light + red filter, 2 - Piler light + blue filter, 3 - Piler light without a filter, 4 - placebo. Main Outcome Measures were plotting I/T curve coefficient for rectangular (■I/T coeff) and triangular (▲I/T coeff) pulses and the pressure pain threshold (PPT).