Talus‐derived reference coordinate system for 3D calcaneal assessment: A novel approach to improve morphological measurements

Author:

Wakker Alexander M.12ORCID,Verhofstad Michael H. J.1,Visser Jacob J.2,Van Vledder Mark G.1,Van Walsum Theo3

Affiliation:

1. Trauma Research Unit, Department of Surgery Erasmus MC, University Medical Center Rotterdam Rotterdam The Netherlands

2. Department of Radiology & Nuclear Medicine Erasmus MC, University Medical Center Rotterdam Rotterdam The Netherlands

3. Biomedical Imaging Group Rotterdam, Department of Radiology & Nuclear Medicine Erasmus MC, University Medical Center Rotterdam Rotterdam The Netherlands

Abstract

AbstractIn 3D‐analysis of the calcaneus, a consistent coordinate system aligned with the original anatomical directions is crucial for pre‐ and postoperative analysis. This importance stems from the calcaneus's key role in weight‐bearing and biomechanical alignment. However, defining a reliable coordinate system based solely on fractured or surgically reconstructed calcanei presents significant challenges. Given its anatomical prominence and consistent orientation, the talus offers a potential solution to this challenge. Our work explores the feasibility of talus‐derived coordinate systems for 3D‐modeling of the calcaneus across its various conditions. Four methods were tested on nonfractured, fractured and surgically reconstructed calcanei, utilizing Principal Component Analysis, anatomical landmarks, bounding box, and an atlas‐based approach. The methods were compared with a self‐defined calcaneus reference coordinate system. Additionally, the impact of deviation of the coordinate system on morphological measurements was investigated. Among methods for constructing nonfractured calcanei coordinate systems, the atlas‐based method displayed the lowest Root Mean Square value in comparison with the reference coordinate system. For morphological measures like Böhler's Angle and the Critical angle of Gissane, the atlas talus‐based system closely aligned with ground truth, yielding differences of 0.6° and 1.2°, respectively, compared to larger deviations seen in other talus‐based coordinate systems. In conclusion, all tested methods were feasible for creating a talus derived coordinate system. A talus derived coordinate system showed potential, offering benefits for morphological measurements and clinical scenarios involving fractured and surgically reconstructed calcanei. Further research is recommended to assess the impact of these coordinate systems on surgical planning and outcomes.

Funder

Osteosynthesis and Trauma Care Foundation

Publisher

Wiley

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