Volumetric Classification: Unveiling the True Extent of Rotator Cuff Tears

Guilherme Augusto Stirma; Paulo Santoro Belangero; Carlos Vicente Andreoli; Alberto de Castro Pochini; Nitamar Abdala; André Fukunishi Yamada; Benno Ejnisman

doi:10.1016/j.jse.2024.08.030

Volumetric Classification: Unveiling the True Extent of Rotator Cuff Tears

J Shoulder Elbow Surg. 2024 Oct 15:S1058-2746(24)00727-4. doi: 10.1016/j.jse.2024.08.030. Online ahead of print.

Authors

Guilherme Augusto Stirma¹, Paulo Santoro Belangero², Carlos Vicente Andreoli², Alberto de Castro Pochini², Nitamar Abdala², André Fukunishi Yamada², Benno Ejnisman²

Affiliations

¹ Department of Diagnostic Imaging, Universidade Federal de São Paulo/Escola Paulista de Medicina - UNIFESP/EPM, Federal University of São Paulo/Paulista School of Medicine - São Paulo, Brazil. Electronic address: [email protected].
² Department of Diagnostic Imaging, Universidade Federal de São Paulo/Escola Paulista de Medicina - UNIFESP/EPM, Federal University of São Paulo/Paulista School of Medicine - São Paulo, Brazil.

PMID: 39419372
DOI: 10.1016/j.jse.2024.08.030

Abstract

Introduction: Rotator cuff injury diagnosis involves comprehensive clinical, physical, and imaging assessments, with MRI being pivotal for detecting and classifying these injuries. However, the absence of a universally accepted classification system necessitates a more precise approach, advocating for the use of three-dimensional (3D) modeling to better understand and categorize rotator cuff tears.

Methodology: This research was conducted as a prospective, single-institution study on 62 patients exhibiting full-thickness rotator cuff tears. Utilizing preoperative 1.5T MRI, the study aimed to create a more detailed classification system based on volumetric and surface area measurements. Advanced 3D modeling software was employed to transform MRI data into precise 3D representations, facilitating a more accurate analysis of the lesions.

Results: The study unveiled a novel classification system rooted in volumetric and surface area assessments, revealing significant discrepancies in the existing two-dimensional classifications. Approximately 45% of the cases demonstrated inconsistencies between traditional classifications and 3D measurements. Notably, medium-sized lesions were often overestimated, while small and large lesions were consistently underestimated in their severity. The volumetric and surface area-based classifications provided a more accurate depiction, highlighting the limitations of relying solely on coronal plane assessments in MRI. Comparative analysis confirmed the improved accuracy of the 3D method.

Conclusion: The integration of 3D imaging and volumetric analysis offers novel advancement in diagnosing and classifying rotator cuff injuries. This study's findings challenge the conventional reliance on 2D MRI, proposing a more detailed and accurate classification system that enhances the precision of surgical planning and potentially improves patient outcomes. The incorporation of comprehensive 3D assessments into the diagnostic process represents a significant step forward in the orthopedic imaging field.

Keywords: 3D Classification of Rotator Cuff tears; 3D classification; 3D modeling in orthopedic diagnosis; 3D rotator cuff; MRI rotator cuff; Surgical planning 3D images; rotator cuff tear; rotator cuff tear classification.