Publication

Does pathologically increased or decreased tibial torsion affect muscle activations during walking in typically developing adolescents?

Journal Paper/Review - Aug 30, 2021

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Citation
Alexander N, Cip J, Studer K, Dobler F, Lengnick H, Payne E, Wegener R. Does pathologically increased or decreased tibial torsion affect muscle activations during walking in typically developing adolescents?. J Biomech 2021; 128:110727.
Type
Journal Paper/Review (English)
Journal
J Biomech 2021; 128
Publication Date
Aug 30, 2021
Issn Electronic
1873-2380
Pages
110727
Brief description/objective

A reduced capacity of plantar flexors and other muscles to extend the hip and knee during gait was shown in modelling studies when the tibial torsion angle is > 30° than normal. The aim of the current study was to determine if patients with increased or decreased tibial torsion show deviating muscle activations in knee and hip extensors in surface electromyography (EMG). Patients with CT confirmed increased tibial torsion (n = 19, ITT), decreased tibial torsion (n = 21, DTT) and age-matched healthy controls (n = 20) were included in this retrospective study. Additionally, kinematic and kinetic data were recorded during three-dimensional gait analysis. Surface EMG was recorded for vastus medialis and medial hamstrings. Statistical parametric mapping with a one-way ANOVA and post-hoc Bonferroni corrected two-sample t-tests were used to obtain differences in joint angles and moments. ITT and DTT showed an increased and decreased external foot progression angle, respectively. No additional muscle activations in vastus medialis and medial hamstrings were found in both patient groups compared to controls. DTT showed an increased hip flexion through parts of the gait cycle and both patient groups had a decreased knee extension moment in terminal stance. Our hypothesis of deviating muscle activation had to be rejected. It could be that in most orthopaedic patients the amount of exceeding tibial torsion is too low to cause substantial deviations in gait and muscle activation patterns.