Standardized Morphological Modeling and Simulation-Based Validation of a Novel Tibiotalar Fusion Implant
Chao-Wei Huang, Yu-Tzu Wang, Chi-An Chen, Chun-Li Lin

TL;DR
This paper presents a new tibiotalar fusion implant designed using a standardized joint model and validated through simulations to improve surgical outcomes.
Contribution
A novel tibiotalar fusion implant is developed and validated using a standardized morphological model and finite element analysis.
Findings
The novel implant achieved 95.0% joint contact area and 0.033 mm tibial micromotion.
It reduced stress concentration compared to traditional fixation methods like anterior plate and compression screws.
Standardized modeling is crucial for broad implant applicability.
Abstract
This study establishes a standardized geometric model of the tibiotalar joint based on anatomical morphology and validates its statistical representativeness. Using this model, a novel fusion implant was developed and evaluated for its biomechanical performance through nonlinear finite element (FE) analysis compared to traditional fixation methods. A morphological database of the tibiotalar joint was built using 30 computed tomography (CT) scans to determine key dimensional parameters, and a novel fusion implant was designed to match the joint’s natural curvature. FE analysis compared three fixation strategies: (1) the novel implant with an anterior plate, (2) the anterior plate alone, and (3) three compression screws. Biomechanical parameters, including joint contact area, micromotion, and stress distribution, were analyzed under simulated loading conditions. The novel implant achieved…
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Taxonomy
TopicsFoot and Ankle Surgery · Bone fractures and treatments · Lower Extremity Biomechanics and Pathologies
