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Literature DB >> 32793889

Deep Learning for Hierarchical Severity Staging of Anterior Cruciate Ligament Injuries from MRI.

Nikan K Namiri¹, Io Flament¹, Bruno Astuto¹, Rutwik Shah¹, Radhika Tibrewala¹, Francesco Caliva¹, Thomas M Link¹, Valentina Pedoia¹, Sharmila Majumdar¹.

Abstract

PURPOSE: To evaluate the diagnostic utility of two convolutional neural networks (CNNs) for severity staging of anterior cruciate ligament (ACL) injuries.
MATERIALS AND METHODS: In this retrospective study, 1243 knee MR images (1008 intact, 18 partially torn, 77 fully torn, and 140 reconstructed ACLs) from 224 patients (mean age, 47 years ± 14 [standard deviation]; 54% women) were analyzed. The MRI examinations were performed between 2011 and 2014. A modified scoring metric was used. Classification of ACL injuries using deep learning involved use of two types of CNN, one with three-dimensional (3D) and the other with two-dimensional (2D) convolutional kernels. Performance metrics included sensitivity, specificity, weighted Cohen κ, and overall accuracy, and the McNemar test was used to compare the performance of the CNNs.
RESULTS: The overall accuracies for ACL injury classification using the 3D CNN and 2D CNN were 89% (225 of 254) and 92% (233 of 254), respectively (P = .27), and both CNNs had a weighted Cohen κ of 0.83. The 2D CNN and 3D CNN performed similarly in classifying intact ACLs (2D CNN, sensitivity of 93% [188 of 203] and specificity of 90% [46 of 51] vs 3D CNN, sensitivity of 89% [180 of 203] and specificity of 88% [45 of 51]). Classification of full tears by both networks was also comparable (2D CNN, sensitivity of 82% [14 of 17] and specificity of 94% [222 of 237] vs 3D CNN, sensitivity of 76% [13 of 17] and specificity of 100% [236 of 237]). The 2D CNN classified all reconstructed ACLs correctly.
CONCLUSION: Two-dimensional and 3D CNNs applied to ACL lesion classification had high sensitivity and specificity, suggesting that these networks could be used to help nonexperts grade ACL injuries. Supplemental material is available for this article. © RSNA, 2020. 2020 by the Radiological Society of North America, Inc.

Entities: Chemical

Year: 2020 PMID： 32793889 PMCID： PMC7392061 DOI： 10.1148/ryai.2020190207

Source DB: PubMed Journal: Radiol Artif Intell ISSN： 2638-6100

23 in total

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2. The effect of anterior cruciate ligament injury on bone curvature: exploratory analysis in the KANON trial.

Authors: D J Hunter; L S Lohmander; J Makovey; J Tamez-Peña; S Totterman; E Schreyer; R B Frobell
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3. Video Analysis of Anterior Cruciate Ligament Tears in Professional American Football Athletes.

Authors: Jeffrey T Johnston; Bert R Mandelbaum; David Schub; Scott A Rodeo; Matthew J Matava; Holly J Silvers-Granelli; Brian J Cole; Neil S ElAttrache; Tim R McAdams; Robert H Brophy
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4. Whole-Organ Magnetic Resonance Imaging Score (WORMS) of the knee in osteoarthritis.

Authors: C G Peterfy; A Guermazi; S Zaim; P F J Tirman; Y Miaux; D White; M Kothari; Y Lu; K Fye; S Zhao; H K Genant
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5. Intra-articular injection of autologous adipose-derived stromal vascular fractions for knee osteoarthritis: a double-blind randomized self-controlled trial.

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6. Projecting Lifetime Risk of Symptomatic Knee Osteoarthritis and Total Knee Replacement in Individuals Sustaining a Complete Anterior Cruciate Ligament Tear in Early Adulthood.

Authors: Lisa G Suter; Savannah R Smith; Jeffrey N Katz; Martin Englund; David J Hunter; Richard Frobell; Elena Losina
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Review 7. Clinical practice. Anterior cruciate ligament tear.

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8. Speech synthesis from neural decoding of spoken sentences.

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9. Efficacy of magnetic resonance imaging with an SPGR sequence for the early evaluation of knee cartilage degeneration and the relationship between cartilage and other tissues.

Authors: Xin Yang; Zhuoyang Li; Yongping Cao; Yufeng Xu; He Wang; Licheng Wen; Zhichao Meng; Heng Liu; Rui Wang; Xiang Li
Journal: J Orthop Surg Res Date: 2019-05-24 Impact factor: 2.359

10. Deep-learning-assisted diagnosis for knee magnetic resonance imaging: Development and retrospective validation of MRNet.

Authors: Nicholas Bien; Pranav Rajpurkar; Robyn L Ball; Jeremy Irvin; Allison Park; Erik Jones; Michael Bereket; Bhavik N Patel; Kristen W Yeom; Katie Shpanskaya; Safwan Halabi; Evan Zucker; Gary Fanton; Derek F Amanatullah; Christopher F Beaulieu; Geoffrey M Riley; Russell J Stewart; Francis G Blankenberg; David B Larson; Ricky H Jones; Curtis P Langlotz; Andrew Y Ng; Matthew P Lungren
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Review 1. Studying osteoarthritis with artificial intelligence applied to magnetic resonance imaging.

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2. Efficient Detection of Knee Anterior Cruciate Ligament from Magnetic Resonance Imaging Using Deep Learning Approach.

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Journal: Diagnostics (Basel) Date: 2021-01-11

Review 3. Artificial intelligence for MRI diagnosis of joints: a scoping review of the current state-of-the-art of deep learning-based approaches.

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Review 4. Knee Injury Detection Using Deep Learning on MRI Studies: A Systematic Review.

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5. Deep Learning to Detect Triangular Fibrocartilage Complex Injury in Wrist MRI: Retrospective Study with Internal and External Validation.

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