Jan Van Houcke scite author profile

Image segmentation has become an important tool in orthopedic and biomechanical research. However, it greatly remains a time-consuming and laborious task. In this manuscript, we propose a fully automatic model-based segmentation pipeline for the full lower limb in computed tomography (CT) images. The method relies on prior shape model fitting, followed by a gradientdefined free from deformation. The technique allows for the generation of anatomically corresponding surface meshes, which can subsequently be applied in anatomical and mechanical simulation studies. Starting from an initial, small (n ≤ 10) sample of manual segmentations, the model is continuously updated and refined with newly segmented training samples. Validation of the segmentation pipeline was performed by comparing the automatic segmentations against corresponding manual segmentations. Convergence of the segmentation pipeline was obtained in 250 cases and failed in three samples. The average distance error ranged from 0.53 to 0.76 mm and maximal error ranged from 2.0 to 7.8 mm for the 7 different osteological structures that were investigated. The accuracy of the shape model-based segmentation gradually increased as the number of training shapes in the updated population also increased. When optimized with the free form deformation, however, average segmentation accuracy rapidly plateaued from already as little as 20 training samples on. The maximum segmentation error plateaued from 100 training samples on.

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Accuracy of navigated cam resection in femoroacetabular impingement: A randomised controlled trial

Houcke

Khanduja

Nakano

et al. 2017

Robotics Computer Surgery

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Prevalence of Radiographic Parameters Predisposing to Femoroacetabular Impingement in Young Asymptomatic Chinese and White Subjects

Houcke

Yau

Yan

et al. 2015

The Journal of Bone and Joint Surgery

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Morphologic variations of the scapula in 3-dimensions: a statistical shape model approach

Casier

Broecke

Houcke

et al. 2018

Journal of Shoulder and Elbow Surgery

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A Combined Geometric Morphometric and Discrete Element Modeling Approach for Hip Cartilage Contact Mechanics

Houcke

Audenaert

Atkins

et al. 2020

Front. Bioeng. Biotechnol.

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Combining Geometric Morphometrics and DEA and non-linear DEA methods differed mainly in peak stress results with the nonlinear definition being more sensitive to detection of high peak stresses. In conclusion, DEA in combination with the novel population-averaged cartilage anatomy prediction method provided accurate predictions while offering an efficient platform to conduct population-wide analyses of hip contact mechanics.

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Jan Van Houcke

Cascaded statistical shape model based segmentation of the full lower limb in CT

Accuracy of navigated cam resection in femoroacetabular impingement: A randomised controlled trial

Prevalence of Radiographic Parameters Predisposing to Femoroacetabular Impingement in Young Asymptomatic Chinese and White Subjects

Morphologic variations of the scapula in 3-dimensions: a statistical shape model approach

A Combined Geometric Morphometric and Discrete Element Modeling Approach for Hip Cartilage Contact Mechanics

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