Are current machine learning applications comparable to radiologist classification of degenerate and herniated discs and Modic change? A systematic review and meta-analysis

Compte, Roger; Smith, Isabelle Granville; Isaac, Amanda; Danckert, Nathan; McSweeney, Terence; Liantis, Panagiotis; Williams, Frances

doi:10.1007/s00586-023-07718-0

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Cited by 9 publications

References 83 publications

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Central and Subarticular Lumbar Disk Herniations

Akhaddar

2023

Atlas of Sciatica

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Central and Subarticular Lumbar Disk Herniations

Akhaddar

2023

Atlas of Sciatica

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Artificial intelligence in musculoskeletal imaging: realistic clinical applications in the next decade

Ruitenbeek,

Oei,

Visser

et al. 2024

Skeletal Radiol

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Automated Three-Dimensional Imaging and Pfirrmann Classification of Intervertebral Disc Using a Graphical Neural Network in Sagittal Magnetic Resonance Imaging of the Lumbar Spine

Baur,

Bieck,

Berger

et al. 2024

j Imaging. Inform. med.

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This study aimed to develop a graph neural network (GNN) for automated three-dimensional (3D) magnetic resonance imaging (MRI) visualization and Pfirrmann grading of intervertebral discs (IVDs), and benchmark it against manual classifications. Lumbar IVD MRI data from 300 patients were retrospectively analyzed. Two clinicians assessed the manual segmentation and grading for inter-rater reliability using Cohen's kappa. The IVDs were then processed and classified using an automated convolutional neural network (CNN)–GNN pipeline, and their performance was evaluated using F1 scores. Manual Pfirrmann grading exhibited moderate agreement (κ = 0.455–0.565) among the clinicians, with higher exact match frequencies at lower lumbar levels. Single-grade discrepancies were prevalent except at L5/S1. Automated segmentation of IVDs using a pretrained U-Net model achieved an F1 score of 0.85, with a precision and recall of 0.83 and 0.88, respectively. Following 3D reconstruction of the automatically segmented IVD into a 3D point-cloud representation of the target intervertebral disc, the GNN model demonstrated moderate performance in Pfirrmann classification. The highest precision (0.81) and F1 score (0.71) were observed at L2/3, whereas the overall metrics indicated moderate performance (precision: 0.46, recall: 0.47, and F1 score: 0.46), with variability across spinal levels. The integration of CNN and GNN offers a new perspective for automating IVD analysis in MRI. Although the current performance highlights the need for further refinement, the moderate accuracy of the model, combined with its 3D visualization capabilities, establishes a promising foundation for more advanced grading systems.

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Are current machine learning applications comparable to radiologist classification of degenerate and herniated discs and Modic change? A systematic review and meta-analysis

Cited by 9 publications

References 83 publications

Central and Subarticular Lumbar Disk Herniations

Central and Subarticular Lumbar Disk Herniations

Artificial intelligence in musculoskeletal imaging: realistic clinical applications in the next decade

Automated Three-Dimensional Imaging and Pfirrmann Classification of Intervertebral Disc Using a Graphical Neural Network in Sagittal Magnetic Resonance Imaging of the Lumbar Spine

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