Effect of Achilles tendon on kinematic coupling relationship between tarsal bones: a pilot finite element study
Autor: | Yu-Bin Liu, Li Zhao, Lei Tang, Song-Jian Li, Cheng-Long Liu |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
Patient-Specific Modeling
musculoskeletal diseases medicine.medical_specialty animal structures Kinematic coupling lcsh:Diseases of the musculoskeletal system Adolescent Finite element study Finite Element Analysis Pilot Projects Tarsal bones 03 medical and health sciences 0302 clinical medicine lcsh:Orthopedic surgery Humans Medicine Orthopedics and Sports Medicine Displacement (orthopedic surgery) 030212 general & internal medicine Range of Motion Articular Child Orthodontics 030222 orthopedics Achilles tendon business.industry Infant Newborn musculoskeletal system Ponseti method Tarsal Bone body regions lcsh:RD701-811 medicine.anatomical_structure Orthopedic surgery Female Surgery Calcaneus Ankle lcsh:RC925-935 business Ankle Joint Research Article |
Zdroj: | Journal of Orthopaedic Surgery and Research, Vol 15, Iss 1, Pp 1-10 (2020) Journal of Orthopaedic Surgery and Research |
DOI: | 10.1186/s13018-020-01728-0 |
Popis: | Background The procedure of percutaneous Achilles tenotomy (PAT) is an important component of the Ponseti method. However, few studies reported the influence of Achilles tendon on kinematic coupling relationship between tarsal bones. The purpose of present study was to demonstrate the effect of Achilles tendon on the kinematic coupling relationship between tarsal bones, and to illustrate how kinematic coupling relationship between tarsal bones works in term of finite element analysis. Methods A three-dimensional finite element model of foot and ankle was constructed based on the Chinese digital human girl No.1 (CDH-G1) image database using the software of mimics, Geomagic studio, HyperMesh, and Abaqus. The last manipulation of the Ponseti method before the procedure of PAT was simulated. The talus head and the proximal tibia and fibula bone were fixed in all six degrees of freedom, and the outward pressure was added on the first metatarsal head to investigate the kinematic coupling relationship between tarsal bones. Results The least relationship of kinematic coupling between tarsal bones was found in calcaneus. Stress concentration was mainly observed at the navicular, talus and the medial malleolus. The difference in displacement of the navicular was only found with the Achilles tendon stiffness of 0 N/mm and others. No difference in the navicular displacement was found in the stiffness of Achilles tendon between 40, 80, 200, 400, and 1000 N/mm. The maximum displacement of navicular was observed at the ankle position of PF-20° (plantar flexion-20°). The difference in displacement of the navicular was greater at the ankle position of PF-20° with the Achilles tendon stiffness of 0 N/mm than that at the ankle position of PF-40° with the Achilles tendon stiffness of 40 N/mm. Conclusions Based on the findings from this study, it was demonstrated that the Achilles tendon existence or not and ankle position had great influence, while increased stiffness of Achilles tendon had no influence on kinematic coupling relationship between tarsal bones. For the cases with severe equinus, earlier implementation of PAT procedure (with the purpose of release the Achilles tendon and reduce the degree of ankle plantar flexion) may be beneficial to the deformity correction. |
Databáze: | OpenAIRE |
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