Development of a convolutional neural network for diagnosing osteoarthritis, trained with knee radiographs from the ELSA-Brasil Musculoskeletal

Domingues, Júlio Guerra; Araujo, Daniella Castro; Costa-Silva, Luciana; Machado, Alexei Manso Corrêa; Machado, Luciana Andrade Carneiro; Veloso, Adriano Alonso; Barreto, Sandhi Maria; Telles, Rosa Weiss

doi:10.1590/0100-3984.2023.0020-en

Radiol Bras

2023

DOI: 10.1590/0100-3984.2023.0020-en

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Development of a convolutional neural network for diagnosing osteoarthritis, trained with knee radiographs from the ELSA-Brasil Musculoskeletal

Júlio Guerra Domingues,

Daniella Castro Araujo,

Luciana Costa-Silva

et al.

Abstract: Objective: To develop a convolutional neural network (CNN) model, trained with the Brazilian “Estudo Longitudinal de Saúde do Adulto Musculoesquelético” (ELSA-Brasil MSK, Longitudinal Study of Adult Health, Musculoskeletal) baseline radiographic examinations, for the automated classification of knee osteoarthritis. Materials and Methods: This was a cross-sectional study carried out with 5,660 baseline posteroanterior knee radiographs from the ELSA-Brasil MSK database (5,660 baseline posteroanterior knee radio… Show more

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Adapting the Dejour classification of trochlear dysplasia from qualitative radiograph‐ and CT‐based assessments to quantitative MRI‐based measurements

Dejour,

de Sanctis,

Müller

et al. 2024

Knee surg. sports traumatol. arthrosc.

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PurposeTo adapt the current D. Dejour trochlear dysplasia classification (v2.0) to only rely on quantitative magnetic resonance imaging (MRI) measurements (v3.0) to maximize objectivity and repeatability.MethodsA consecutive series of adult knee MRIs were divided into objective patellar instability (OPI, n = 127) or controls (n = 103; isolated meniscal tears) and postprocessed with multiplanar reconstruction (MPR) to standardize the sagittal plane and ensure true lateral views. Thresholds for sulcus angle, lateral trochlear inclination (LTI) and central bump were established using regression tree models to distinguish OPI from controls. The sensitivity and specificity of sulcus angle and LTI combinations to diagnose OPI were then evaluated, and the combination yielding the highest sensitivity was selected as basis for trochlear dysplasia classification. Finally, sulcus angle and LTI measurability and presence of a central bump >5 mm were used to grade dysplasia as low, moderate or high.ResultsThe regression tree models produced thresholds of ≥157° for sulcus angle and <14° for LTI to distinguish OPI from controls. ‘Sulcus angle ≥157° OR LTI < 14°’ yielded the highest sensitivity (87%) to diagnose OPI. The quantitative MRI classification was sulcus angle <157° AND LTI ≥ 14° for Type 0 (No dysplasia); (sulcus angle ≥ 157° OR LTI < 14°) AND central bump <5 mm for Type 1 (Low‐grade dysplasia); (sulcus angle OR LTI are ‘unmeasurable’) AND central bump <5 mm for Type 2 (Moderate‐grade dysplasia); (sulcus angle ≥ 157° OR ‘unmeasurable’ OR LTI < 14° OR ‘unmeasurable’) AND central bump ≥5 mm for Type 3 (High‐grade dysplasia).ConclusionThis MRI classification depends exclusively on quantitative measurements, has excellent interobserver agreement, and yields high sensitivity to diagnose OPI. The MRI imaging protocol with MPR mode and standardized measurements could be quickly adopted and correctly applied by clinicians worldwide in any type of institution to determine the ideal treatment plan.Level of EvidenceLevel III.

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Adapting the Dejour classification of trochlear dysplasia from qualitative radiograph‐ and CT‐based assessments to quantitative MRI‐based measurements

Dejour,

de Sanctis,

Müller

et al. 2024

Knee surg. sports traumatol. arthrosc.

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show abstract

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Development of a convolutional neural network for diagnosing osteoarthritis, trained with knee radiographs from the ELSA-Brasil Musculoskeletal

Cited by 1 publication

References 27 publications

Adapting the Dejour classification of trochlear dysplasia from qualitative radiograph‐ and CT‐based assessments to quantitative MRI‐based measurements

Adapting the Dejour classification of trochlear dysplasia from qualitative radiograph‐ and CT‐based assessments to quantitative MRI‐based measurements

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