Activity performance in patients with traumatic brachial plexus injuries after elective amputation and myoelectric hand prosthetic fitting.

Abstract

Objective: The role of amputation and myoelectric prosthetic fitting for hand function in traumatic pan-brachial plexus injury (pBPI) continues to evolve. This study evaluated the function and activity performance of patients with traumatic pBPI who underwent amputation and prosthetic fitting with a myoelectric prosthesis (MEP) for hand function.

Methods: A retrospective analysis of adult patients who underwent elective amputation after sustaining a pBPI followed by MEP for hand function was performed. Demographics, mechanisms of injury, amputation details, and outcomes were collected from medical records. The Disabilities of the Arm, Shoulder and Hand (DASH) outcome measure was used to evaluate the impact of impairment, the visual analog scale (VAS) to assess pain, and the Activities Measure for Upper Limb Amputees (AM-ULA) to determine functional activity performance pre- and post-MEP usage. Follow-up time, prosthesis usage, satisfaction, and site of electrical signal used were recorded. Paired t-tests were used to compare outcomes.

Results: Twenty-one adult patients with pBPI (90% male, mean age 32 years at the time of BPI) underwent amputations and were fitted with MEPs for hand function controlled by nonintuitive signals. Fifteen patients underwent a trans-radial amputation and 6 underwent a trans-humeral amputation. While all patients sought improved terminal grasp function, 3 patients subsequently declined prosthetic fitting after amputation. Of the 18 patients who underwent myoelectric prosthetic hand fittings, linear transducers activated by the contralateral shoulder protraction were used in 66% of patients, and traditional electrode signals from ipsilateral nonintuitive muscle were used in 33% to control MEP grasp function. Disability (DASH) and pain (VAS) scores significantly improved after amputation (p = 0.04 and p < 0.01, respectively). AM-ULA scores showed a significant improvement in activity performance after application of the MEP, with an average increase of 23 points from 0 points on a 40-point scale before amputation and prosthetic fitting (p < 0.0001). Daily users of the MEP averaged 6 hours per day and reported the prosthesis was useful during daily activities with great satisfaction at an average of 22 months of follow-up.

Conclusions: Amputation followed by MEP fitting in adult traumatic pBPI significantly improved function, reduced pain, and had a high prosthetic usage. The AM-ULA, a tool for quantitatively evaluating activity performance, was applied to measure the bimanual functional activity performance of patients before and after using MEPs, which revealed a significant improvement. Patients reported using their prosthetics daily with a high satisfaction rate with functional terminal grasp and release.