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Automatic software-based 3D-angular measurement for weight-bearing CT (WBCT) is valid

Martinus Richter, Stefan Zech, Issam Naef, Fabian Duerr, Regina Schilke

2024Foot and Ankle Surgery14 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The purpose of this study was to compare automatic software-based angular measurement (AM) with validated measurement by hand (MBH) regarding angle values and time spent for Weight-Bearing CT (WBCT) generated datasets. METHODS: Five-hundred WBCT scans from different pathologies were included in the study. 1st - 2nd intermetatarsal angle, talo-1st metatarsal angle dorsoplantar and lateral, hindfoot angle, calcaneal pitch angle were measured and compared between MBH and AM. RESULTS: The pathologies were ankle osteoarthritis/instability, n = 147 (29%); Haglund deformity/Achillodynia, n = 41 (8%); forefoot deformity, n = 108 (22%); Hallux rigidus, n = 37 (7%); flatfoot, n = 35 (7%); cavus foot, n = 10 (2%); osteoarthritis except ankle, n = 82 (16%). The angles did not differ between MBH and AM (each p > 0.36). The time spent for MBH / AM was 44.5 / 1 s on average per angle (p < .001). CONCLUSIONS: AM provided angles which were not different from validated MBH and can be considered as a validated angle measurement method. The time spent was 97% lower for AM than for MBH. LEVELS OF EVIDENCE: Level III.

Topics & Concepts

MedicineForefootAnkleOsteoarthritisOrthodonticsNuclear medicineWeight-bearingDeformityGoniometerSurgeryGeometryMathematicsPathologyAlternative medicineComplicationFoot and Ankle SurgeryLower Extremity Biomechanics and PathologiesDiabetic Foot Ulcer Assessment and Management