Development of an automatic surgical planning system for high tibial osteotomy using artificial intelligence

胫骨高位截骨术 截骨术 射线照相术 可靠性(半导体) 口腔正畸科 手术计划 医学 计算机科学 外科 骨关节炎 物理 替代医学 病理 功率(物理) 量子力学
作者
Kazuki Miyama,Takenori Akiyama,Ryoma Bise,Shunsuke Nakamura,Yasuharu Nakashima,Seiichi Uchida
出处
期刊:Knee [Elsevier BV]
卷期号:48: 128-137 被引量:3
标识
DOI:10.1016/j.knee.2024.03.008
摘要

Background This study proposed an automatic surgical planning system for high tibial osteotomy (HTO) using deep learning-based artificial intelligence and validated its accuracy. The system simulates osteotomy and measures lower-limb alignment parameters in pre- and post-osteotomy simulations. Methods A total of 107 whole-leg standing radiographs were obtained from 107 patients who underwent HTO. First, the system detected anatomical landmarks on radiographs. Then, it simulated osteotomy and automatically measured five parameters in pre- and post-osteotomy simulation (hip knee angle [HKA], weight-bearing line ratio [WBL ratio], mechanical lateral distal femoral angle [mLDFA], mechanical medial proximal tibial angle [mMPTA], and mechanical lateral distal tibial angle [mLDTA]). The accuracy of the measured parameters was validated by comparing them with the ground truth (GT) values given by two orthopaedic surgeons. Results All absolute errors of the system were within 1.5° or 1.5%. All inter-rater correlation confidence (ICC) values between the system and GT showed good reliability (>0.80). Excellent reliability was observed in the HKA (0.99) and WBL ratios (>0.99) for the pre-osteotomy simulation. The intra-rater difference of the system exhibited excellent reliability with an ICC value of 1.00 for all lower-limb alignment parameters in pre- and post-osteotomy simulations. In addition, the measurement time per radiograph (0.24 s) was considerably shorter than that of an orthopaedic surgeon (118 s). Conclusion The proposed system is practically applicable because it can measure lower-limb alignment parameters accurately and quickly in pre- and post-osteotomy simulations. The system has potential applications in surgical planning systems.
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