Assessing the Influence of Screw Orientation on Fracture Fixation of the Proximal Humerus Using Finite Element Informed Surrogate Modeling
Daniela Mini, Karen J. Reynolds, Mark Taylor

TL;DR
This paper uses neural networks trained on finite element simulations to predict how screw orientation affects bone strain in proximal humeral fracture fixation.
Contribution
The novel integration of finite element data and adaptive neural networks enables efficient prediction of screw orientation effects on bone strain.
Findings
ANN models predicted screw collision with 84.4% accuracy and bone strain with high correlation (R² = 0.99).
Variation in screw orientation in the calcar region most significantly impacts bone strain around all screws.
Abstract
The management of proximal humeral fractures is challenging, and fixation plates often show a high failure rate. However, new fixation plates with variable angle screws could be beneficial. Finite element (FE) studies have shown some benefits of plates with variable angle screws, but not all possible combinations have been explored, and hence worst and optimal scenarios have not been identified. The full exploration of the solution space is not possible using FE techniques due to the computational expense; therefore, a more computationally affordable technique is needed. This study aimed to develop adaptive neural network (ANN) models that can predict the likelihood of a screw collision and the level of strain on the humeral bone when the orientation of the screws is changed. ANN models were trained using input and output data from FE simulations with varying screw angles, developed on…
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Taxonomy
TopicsShoulder Injury and Treatment · Shoulder and Clavicle Injuries · Orthopaedic implants and arthroplasty
