TY - JOUR
T1 - Assessment of the effect of a total contact cast on lower limb kinematics and joint loading
AU - Theodorakos, Ilias
AU - Healy, Aoife
AU - Chatzistergos, Panagiotis
AU - Andersen, Michael Skipper
AU - Chockalingam, Nachiappan
N1 - Funding Information:
The authors would like to acknowledge the contribution from Onbone, Espoo, Finland who provided their material for this study. Onbone also partially funded this study but had no involvement in experimental design or the preparation of this manuscript. The authors would also like to thank Mr Robert Bradshaw-Hilditch for his help with regards to casting. Ilias Theodorakos and Michael Skipper Andersen were partially supported by the Independent Research Fund Denmark , Denmark (grant no. 0136-00090B ).
Publisher Copyright:
© 2022 The Authors
PY - 2022/10
Y1 - 2022/10
N2 - Background: Total contact casts (TCCs) are used to immobilize and unload the foot and ankle for the rehabilitation of ankle fractures and for the management of diabetic foot complications. The kinematic restrictions imposed by TCCs to the foot and ankle also change knee and hip kinematics, however, these changes have not been quantified before. High joint loading is associated with discomfort and increased risk for injuries. To assess joint loading, the effect of the muscle forces acting on each joint must also be considered. This challenge can be overcome with the help of musculoskeletal modelling. Research question: How does a TCC affect lower extremity joint loading? Methods: Twelve healthy participants performed gait trials with and without a TCC. Kinematic and kinetic recordings served as input to subject-specific musculoskeletal models that enabled the computation of joint angles and loading. Cast-leg interaction was modelled by means of reaction forces between a rigid, zero-mass cast segment and the segments of the lower extremity. Results: and Significance: Reduced ankle, knee and hip range of motion was observed for the TCC condition. Statistical parametric mapping indicated decreased hip abduction and flexion moments during initial contact with the TCC. The anterior knee force was significantly decreased during the mid and terminal stance and the second peak of the compressive knee force was significantly reduced for the TCC. As expected, the TCC resulted in significantly reduced ankle loading. Significance: This study is the first to quantify the effect of a TCC on lower limb joint loading. Its results demonstrate the efficiency of a TCC in unloading the ankle joint complex without increasing the peak loads on knee and hip. Future studies should investigate whether the observed knee and hip kinematic and kinetic differences could lead to discomfort.
AB - Background: Total contact casts (TCCs) are used to immobilize and unload the foot and ankle for the rehabilitation of ankle fractures and for the management of diabetic foot complications. The kinematic restrictions imposed by TCCs to the foot and ankle also change knee and hip kinematics, however, these changes have not been quantified before. High joint loading is associated with discomfort and increased risk for injuries. To assess joint loading, the effect of the muscle forces acting on each joint must also be considered. This challenge can be overcome with the help of musculoskeletal modelling. Research question: How does a TCC affect lower extremity joint loading? Methods: Twelve healthy participants performed gait trials with and without a TCC. Kinematic and kinetic recordings served as input to subject-specific musculoskeletal models that enabled the computation of joint angles and loading. Cast-leg interaction was modelled by means of reaction forces between a rigid, zero-mass cast segment and the segments of the lower extremity. Results: and Significance: Reduced ankle, knee and hip range of motion was observed for the TCC condition. Statistical parametric mapping indicated decreased hip abduction and flexion moments during initial contact with the TCC. The anterior knee force was significantly decreased during the mid and terminal stance and the second peak of the compressive knee force was significantly reduced for the TCC. As expected, the TCC resulted in significantly reduced ankle loading. Significance: This study is the first to quantify the effect of a TCC on lower limb joint loading. Its results demonstrate the efficiency of a TCC in unloading the ankle joint complex without increasing the peak loads on knee and hip. Future studies should investigate whether the observed knee and hip kinematic and kinetic differences could lead to discomfort.
KW - Ankle
KW - Foot
KW - Gait analysis
KW - Lower limb
KW - Musculoskeletal modelling
KW - Total contact cast
UR - http://www.scopus.com/inward/record.url?scp=85138799465&partnerID=8YFLogxK
U2 - 10.1016/j.gaitpost.2022.09.075
DO - 10.1016/j.gaitpost.2022.09.075
M3 - Journal article
C2 - 36174364
AN - SCOPUS:85138799465
SN - 0966-6362
VL - 98
SP - 203
EP - 209
JO - Gait and Posture
JF - Gait and Posture
ER -