Computer-Aided Diagnosis for Phase-Contrast X-ray Computed Tomography: Quantitative Characterization of Human Patellar Cartilage with High-Dimensional Geometric Features

Phase-contrast computed tomography (PCI-CT) has shown tremendous potential as an imaging modality for visualizing human cartilage with high spatial resolution. Previous studies have demonstrated the ability of PCI-CT to visualize (1) structural details of the human patellar cartilage matrix and (2)...

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Bibliographic Details
Published in:Journal of digital imaging 2014-02, Vol.27 (1), p.98-107
Main Authors: Nagarajan, Mahesh B., Coan, Paola, Huber, Markus B., Diemoz, Paul C., Glaser, Christian, Wismüller, Axel
Format: Article
Language:English
Subjects:
Biocompatibility
Biomedical materials
Cartilage
Cartilage, Articular - diagnostic imaging
Classification
Diagnosis, Computer-Assisted - methods
Human
Humans
Imaging
Medicine
Medicine & Public Health
Organizations
Osteoarthritis, Knee - diagnostic imaging
Patella - diagnostic imaging
Pattern Recognition, Automated - methods
Radiographic Image Interpretation, Computer-Assisted - methods
Radiology
ROC Curve
Sensitivity and Specificity
Tomography
Tomography, X-Ray Computed - methods
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Summary:Phase-contrast computed tomography (PCI-CT) has shown tremendous potential as an imaging modality for visualizing human cartilage with high spatial resolution. Previous studies have demonstrated the ability of PCI-CT to visualize (1) structural details of the human patellar cartilage matrix and (2) changes to chondrocyte organization induced by osteoarthritis. This study investigates the use of high-dimensional geometric features in characterizing such chondrocyte patterns in the presence or absence of osteoarthritic damage. Geometrical features derived from the scaling index method (SIM) and statistical features derived from gray-level co-occurrence matrices were extracted from 842 regions of interest (ROI) annotated on PCI-CT images of ex vivo human patellar cartilage specimens. These features were subsequently used in a machine learning task with support vector regression to classify ROIs as healthy or osteoarthritic; classification performance was evaluated using the area under the receiver-operating characteristic curve (AUC). SIM-derived geometrical features exhibited the best classification performance (AUC, 0.95 ± 0.06) and were most robust to changes in ROI size. These results suggest that such geometrical features can provide a detailed characterization of the chondrocyte organization in the cartilage matrix in an automated and non-subjective manner, while also enabling classification of cartilage as healthy or osteoarthritic with high accuracy. Such features could potentially serve as imaging markers for evaluating osteoarthritis progression and its response to different therapeutic intervention strategies.
ISSN:0897-1889
1618-727X
DOI:10.1007/s10278-013-9634-3