At a glance
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Effects of Functional Electrical Stimulations With and Without Motor Priming Exercises on Tenodesis Grip in Patients With Spinal Cord Injury
In Brief
A clinical study evaluating Functional electrical stimulations and motor priming exercise, Functional electrical stimulations, and 1 other intervention for Spinal Cord Injury. Completed, enrolled 26 participants across 1 site.
Detailed Summary
As functional electrical stimulations has evident role in improving motor control in tenodesis function (power and precision grip) but its results are considered to be short term so addition of task oriented approach i.e. motor priming exercises could enhance the treatment effects . Priming is a mechanism that could easily be a part of a restorative occupational therapy approach, is a therapeutic method with the intent to improve function by targeting underlying neural mechanisms (neuroplasticity and motor control). This will yield the long term effects of priming augmented functional electrical stimulations to enhance the tenodesis function of patients with spinal cord injury. Their combination may produce improvement in hand functions dexterity in spinal cord injury patients.
Study Details
Timeline
Interventions
One pair of surface stimulation electrodes is placed on the subject's skin above the flexor digitorum superficialis and the flexor digitorum profundus muscles to generate finger flexion. The Second pair of electrodes is placed on the subject's skin, above the median nerve, to generate thumb flexion. The third pair of electrodes is placed on the subject's skin, above the extensor digitorum muscle, to generate finger extension. Motor priming exercises will be done (functional task practice, FTP) for 20 minutes. Participants will be asked to spend at least 20 minutesDuration of training will be 4 weeks, 5 days per week, one session per day, and one hour per session.
Stimulation parameters are (1) balanced, biphasic, current-regulated electrical pulses; (2) pulse amplitude from 8 to 50 mA (typical values 17- 26 mA); (3) pulse width 250 ms; and (4) pulse frequency from 20 to 70 Hz (18). Trancutaneous stimulation will be delivered bilaterally with surface electrodes placed on the volar aspect of each wrist targeting the distribution of the median nerve. One pair of surface stimulation electrodes is placed on the subject's skin above the flexor digitorum superficialis and the flexor digitorum profundus muscles to generate finger flexion. The Second pair of electrodes is placed on the subject's skin, above the median nerve, to generate thumb flexion for 20 minutes
a structured exercise protocol targeting strength (2 days/week) and endurance (3days/week) training