Interrelationships of clinical outcome, length of resection, and energy cost of walking after prosthetic knee replacement following resection of a malignant tumor of the distal aspect of the femur.
Academic Article
Overview
abstract
The relationships between the functional score according to the system of the International Society of Limb Salvage, the extent of resection, energy cost of walking, and gait characteristics were studied in thirty-six patients who had had segmental knee replacement after resection of a malignant tumor of the distal aspect of the femur. The mean free-walking velocity was 62.3 meters per minute (79 per cent of normal), which was a result of decreases in both cadence and stride length. The mean net energy cost during walking was 35 per cent greater than that of normal controls and correlated with the percentage of the femur that had been resected. All patients had decreased single-limb support time on the affected side compared with the unaffected side. There was a weak correlation between the asymmetry of the single-limb support time and the percentage of the femur that had been resected. The mean extensor torque of the affected knee was 30 per cent that of the unaffected knee when one head of the quadriceps muscle had been excised, 19 per cent when two heads had been excised, 4 per cent when three heads had been excised, and 1 per cent when four heads had been excised. The patients who had had an extra-articular resection had lower mean extensor and flexor torques at the knee compared with those who had had an intra-articular resection. The asymmetry of the single-limb support time was inversely related to the residual extensor and flexor torques. The overall score according to the system of the International Society of Limb Salvage ranged from 17 to 29 points (mean, 24.6 points; 82 per cent of normal). The net energy cost, percentage of maximum aerobic capacity, and asymmetry of the single-limb support time had significant negative correlations with the overall functional score. Multivariate analysis showed that the overall functional score and the percentage of the femur that had been resected were the two most important factors that predicted the net energy cost. To our knowledge, this is the first objective validation of the functional score according to the system of the International Society of Limb Salvage. As the net energy cost can be predicted from universally available, inexpensive measures, investigators can easily use it as a clinical and research tool to evaluate prosthetic performance and to assess operative outcome.
