Scientific Reports (Jul 2024)

Relevance of instrumented gait analysis in the prediction of the rebound phenomenon after guided growth intervention

  • Felix Stief,
  • Jana Holder,
  • Sebastian Braun,
  • Marco Brenneis,
  • Stefan van Drongelen,
  • S. Kimberly Byrnes,
  • Frank Layher,
  • Chakravarthy U. Dussa,
  • Andrea Meurer,
  • Harald Böhm

DOI
https://doi.org/10.1038/s41598-024-66169-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Predictors of rebound after correction of coronal plane deformities using temporary hemiepiphysiodesis (TH) are not well defined. The following research questions were tested: (1) Is the dynamic knee joint load useful to improve rebound prediction accuracy? (2) Does a large initial deformity play a critical role in rebound development? (3) Are BMI and a young age risk factors for rebound? Fifty children and adolescents with idiopathic knee valgus malalignment were included. A deviation of the mechanical femorotibial angle (MFA) of ≥ 3° into valgus between explantation and the one-year follow-up period was chosen to classify a rebound. A rebound was detected in 22 of the 50 patients (44%). Two predictors of rebound were identified: 1. reduced peak lateral knee joint contact force in the first half of the stance phase at the time of explantation (72.7% prediction); 2. minor initial deformity according to the MFA (70.5% prediction). The best prediction (75%) was obtained by including both parameters in the binary logistic regression method. A TH should not be advised in patients with a minor initial deformity of the leg axis. Dynamic knee joint loading using gait analysis and musculoskeletal modeling can be used to determine the optimum time to remove the plates.

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