OBJECTIVE: To determine whether the existence of elbow flexion contractures in persons with C5 or C6 tetraplegia is related to a lack of residual voluntary triceps function and triceps denervation (ie, lower motoneuron damage). DESIGN: A retrospective study of impairment data from 74 arms to identify the incidence of elbow flexion contractures and the contributing factors toward this deformity. SETTING: Five spinal cord injury (SCI) rehabilitation centers in the United States, 1 in England, and 1 in Australia. PARTICIPANTS: Forty-three subjects with motor complete C5 or C6 traumatic SCI. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Active and passive elbow extension, triceps voluntary muscle strength, and triceps response to electric stimulation. RESULTS: Subjects with weak voluntary triceps had significantly fewer and less severe elbow flexion contractures than those with paralyzed triceps ( P =.024). Subjects with completely denervated triceps (ie, no response to electric stimulation) had significantly more elbow flexion contractures than subjects with even a weak response to electric stimulation ( P =.003). Overall, 51% of the arms could not be passively extended to zero. Forty-six percent of the arms classified as C5 lacked full passive elbow extension, compared with 63% of the arms classified as C6 ( P =.302). CONCLUSIONS: A relationship has been found between elbow flexion contractures and lack of residual voluntary triceps and triceps denervation in subjects with C5 or C6 tetraplegia. There should be a greater awareness of the elbow flexion contractures that may develop as a result of this relationship. A better understanding of this deformity and its characteristics can lead to more effective clinical treatment and prevention strategies.
OBJECTIVE: To determine whether the existence of elbow flexion contractures in persons with C5 or C6 tetraplegia is related to a lack of residual voluntary triceps function and triceps denervation (ie, lower motoneuron damage). DESIGN: A retrospective study of impairment data from 74 arms to identify the incidence of elbow flexion contractures and the contributing factors toward this deformity. SETTING: Five spinal cord injury (SCI) rehabilitation centers in the United States, 1 in England, and 1 in Australia. PARTICIPANTS: Forty-three subjects with motor complete C5 or C6 traumatic SCI. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Active and passive elbow extension, triceps voluntary muscle strength, and triceps response to electric stimulation. RESULTS: Subjects with weak voluntary triceps had significantly fewer and less severe elbow flexion contractures than those with paralyzed triceps ( P =.024). Subjects with completely denervated triceps (ie, no response to electric stimulation) had significantly more elbow flexion contractures than subjects with even a weak response to electric stimulation ( P =.003). Overall, 51% of the arms could not be passively extended to zero. Forty-six percent of the arms classified as C5 lacked full passive elbow extension, compared with 63% of the arms classified as C6 ( P =.302). CONCLUSIONS: A relationship has been found between elbow flexion contractures and lack of residual voluntary triceps and triceps denervation in subjects with C5 or C6 tetraplegia. There should be a greater awareness of the elbow flexion contractures that may develop as a result of this relationship. A better understanding of this deformity and its characteristics can lead to more effective clinical treatment and prevention strategies.
Authors: Anne M Bryden; Allan E Peljovich; Harry A Hoyen; Gregory Nemunaitis; Kevin L Kilgore; Michael W Keith Journal: Top Spinal Cord Inj Rehabil Date: 2012