PURPOSE: To assess the outcome of children with cerebral palsy following reposition of the distal rectus femoris tendon for treatment of stiff knee gait. METHODS: Children with cerebral palsy with stiff knee gait who underwent rectus femoris transfer were studied retrospectively. Inclusion criteria were cerebral palsy of diplegic or quadriplegic type, preoperative and 1 year postoperative three-dimensional motion analysis, and no other surgery except rectus femoris transfer at the time of study. The patients were separated into two groups: in group I, the rectus femoris was transferred to the distal medial hamstring tendons, either the gracilis or the semitendinosus; in group II, the distal tendon of the rectus femoris was transposed laterally and attached to the iliotibial band/intermuscular septum. RESULTS: Peak knee flexion during swing phase, total dynamic knee range of motion, knee range of motion during swing phase, and time to peak knee flexion during swing phase were all improved in both groups. Hip and pelvic kinematics were not influenced by the surgery. Velocity, stride length, and cadence were all improved following the surgery. There was no difference between the transfer group and the transposition group. CONCLUSION: These findings suggest that distal transfer of the rectus femoris is effective in improving swing phase knee function by diminishing the mechanical effect of the dysphasic swing phase activity of the rectus femoris, not by converting the rectus femoris to an active knee flexor.
PURPOSE: To assess the outcome of children with cerebral palsy following reposition of the distal rectus femoris tendon for treatment of stiff knee gait. METHODS:Children with cerebral palsy with stiff knee gait who underwent rectus femoris transfer were studied retrospectively. Inclusion criteria were cerebral palsy of diplegic or quadriplegic type, preoperative and 1 year postoperative three-dimensional motion analysis, and no other surgery except rectus femoris transfer at the time of study. The patients were separated into two groups: in group I, the rectus femoris was transferred to the distal medial hamstring tendons, either the gracilis or the semitendinosus; in group II, the distal tendon of the rectus femoris was transposed laterally and attached to the iliotibial band/intermuscular septum. RESULTS: Peak knee flexion during swing phase, total dynamic knee range of motion, knee range of motion during swing phase, and time to peak knee flexion during swing phase were all improved in both groups. Hip and pelvic kinematics were not influenced by the surgery. Velocity, stride length, and cadence were all improved following the surgery. There was no difference between the transfer group and the transposition group. CONCLUSION: These findings suggest that distal transfer of the rectus femoris is effective in improving swing phase knee function by diminishing the mechanical effect of the dysphasic swing phase activity of the rectus femoris, not by converting the rectus femoris to an active knee flexor.
Authors: F Miller; R Cardoso Dias; G E Lipton; J P Albarracin; K W Dabney; P Castagno Journal: J Pediatr Orthop Date: 1997 Sep-Oct Impact factor: 2.324
Authors: Dóra Végvári; Sebastian I Wolf; Daniel Heitzmann; Matthias C M Klotz; Thomas Dreher Journal: Clin Orthop Relat Res Date: 2013-06-05 Impact factor: 4.176
Authors: Martin J B Tenniglo; Marc J Nederhand; Judith F Fleuren; Johan S Rietman; Jaap H Buurke; Erik C Prinsen Journal: J Rehabil Med Date: 2022-01-03 Impact factor: 3.959
Authors: Robert M Kay; Kristan Pierz; James McCarthy; H Kerr Graham; Henry Chambers; Jon R Davids; Unni Narayanan; Tom F Novacheck; Jason Rhodes; Erich Rutz; Jeffrey Shilt; Benjamin J Shore; Matthew Veerkamp; M Wade Shrader; Tim Theologis; Anja Van Campenhout; Thomas Dreher Journal: J Child Orthop Date: 2021-06-01 Impact factor: 1.548