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Objective: To evaluate the effectiveness of distal rectus femoris (RF) release versus transfer to treat gait abnormalities of the knee in ambulatory children with cerebral palsy.
Methods: Ninety-three children were included in this study. Thirty-two patients underwent RF transfer at a mean age of 11.8 years and sixty-one underwent distal RF release at a mean age of 12.5 years. Indications for surgery included RF contractures, abnormal RF activity during swing phase (EMG) and kinematic characteristics of stiff-knee gait. All patients had pre–and postoperative 3D gait analysis and EMG at one year follow up. To evaluate outcomes, patients were grouped by pre-operative knee kinematics (swing-phase peak knee flexion (PKF) <
50º or PKF >
50º occurring later than 77% of the cycle). All data was analyzed statistically.
Results: For the group of patients with PKF<
50º, this value increased significantly after RF transfer (p=.005) and after RF release (p=.03). Children with PKF later than 77% of the cycle also showed significant improvement after both procedures (p=.001; p=.02). All patients experienced a significant decrease of muscle contractures.
Discussion: According to the results of this study, both RF transfer and release brought significant results. We opt for distal RF release, since is technically easier, particularly when one-stage multilevel procedures are being performed.
Aim: To evaluate the effectiveness of distal rectus femoris (RF) release versus transfer to treat gait abnormalities of the knee in ambulatory children with cerebral palsy.
Patients &
Methods: Thirty-nine children were included in this study. Thirty patients (55 limbs) underwent RF transfer at a mean age of 11.8 years. and nine (16 limbs) underwent distal rectus release at a mean age of 12.5 years. Indications for surgery included RF contracture and abnormal activity during swing phase in dynamic electromyography (EMG), whether with the presence of kinematic characteristics of stiff-knee gait or not. All patients had pre- and postoperative gait analysis and EMG. To evaluate functional outcomes, patients were grouped by pre-operative knee kinematics (normal; swing-phase peak knee flexion (PKF) <
50°; and peak knee flexion >
50° happening later than 77% of the cycle). All data was analyzed statistically.
Results: For the group of patients with PNF<
50°, this value increased significantly after rectus transfer (p=.005). Children with PNF>
50° and later than 77% of the cycle, showed significant improvement in timing after both procedures (p=.001; p=.02). When kinematic parameters were normal before surgery, they did not improved, although patients experienced a significant decrease of muscle contractures.
Conclusions: According to the results of this study, RF transfer would be the preferred procedure for those patients with preoperative swing-phase knee flexion <
50°. For the rest of patients, both procedures brought similar results. We opt for distal RF release since is technically easier, particularly when one-stage multilevel procedures are being performed.