Artificial intelligence in predicting postoperative heterotopic ossification following anterior cervical disc replacement.

IF 2.6 3区 医学 Q2 CLINICAL NEUROLOGY European Spine Journal Pub Date : 2024-11-01 Epub Date: 2024-07-29 DOI:10.1007/s00586-024-08396-2
Rui Zong, Can Guo, Jun-Bo He, Ting-Kui Wu, Hao Liu
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Abstract

Objective: This study aimed to develop and validate a machine learning (ML) model to predict high-grade heterotopic ossification (HO) following Anterior cervical disc replacement (ACDR).

Methods: Retrospective review of prospectively collected data of patients undergoing ACDR or hybrid surgery (HS) at a quaternary referral medical center was performed. Patients diagnosed as C3-7 single- or multi-level cervical disc degeneration disease with > 2 years of follow-up and complete pre- and postoperative radiological imaging were included. An ML-based algorithm was developed to predict high grade HO based on perioperative demographic, clinical, and radiographic parameters. Furthermore, model performance was evaluated according to discrimination and overall performance.

Results: In total, 339 ACDR segments were included (61.65% female, mean age 45.65 ± 8.03 years). Over 45.65 ± 8.03 months of follow-up, 48 (14.16%) segments developed high grade HO. The model demonstrated good discrimination and overall performance according to precision (High grade HO: 0.71 ± 0.01, none-low grade HO: 0.85 ± 0.02), recall (High grade HO: 0.68 ± 0.03, none-low grade HO: 0.87 ± 0.01), F1-score (High grade HO: 0.69 ± 0.02, none-low grade HO: 0.86 ± 0.01), and AUC (0.78 ± 0.08), with lower prosthesis‑endplate depth ratio, higher height change, male, and lower postoperative-shell ROM identified as the most important predictive features.

Conclusion: Through an ML approach, the model identified risk factors and predicted development of high grade HO following ACDR with good discrimination and overall performance. By addressing the shortcomings of traditional statistics and adopting a new logical approach, ML techniques can support discovery, clinical decision-making, and intraoperative techniques better.

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人工智能预测颈椎椎间盘前路置换术后异位骨化。
目的本研究旨在开发并验证一种机器学习(ML)模型,用于预测颈椎间盘前路置换术(ACDR)后的高级别异位骨化(HO):方法:对一家四级转诊医疗中心前瞻性收集的接受颈椎间盘置换术(ACDR)或杂交手术(HS)的患者数据进行回顾性分析。纳入的患者均被诊断为C3-7单层或多层颈椎间盘退行性病变,随访时间超过2年,术前术后均有完整的放射影像学检查。根据围手术期的人口统计学、临床和放射学参数,开发了一种基于 ML 的算法来预测高级别 HO。此外,还根据区分度和整体性能对模型性能进行了评估:共纳入 339 个 ACDR 节段(61.65% 为女性,平均年龄为 45.65 ± 8.03 岁)。在 45.65 ± 8.03 个月的随访中,有 48 个节段(14.16%)发展为高级别 HO。根据精确度(高级别 HO:0.71 ± 0.01,非低级 HO:0.85 ± 0.02)、召回率(高级别 HO:0.68 ± 0.03,非低级 HO:0.87 ± 0.01)、F1 分数(高级别 HO:0.69±0.02,非低等HO:0.86±0.01)和AUC(0.78±0.08),其中较低的假体-终板深度比、较高的高度变化、男性和较低的术后外壳ROM被认为是最重要的预测特征:该模型通过多重多重方法识别了风险因素,并预测了ACDR术后高级别HO的发生,具有良好的区分度和整体性能。通过解决传统统计学的缺陷并采用新的逻辑方法,ML 技术可以更好地支持发现、临床决策和术中技术。
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来源期刊
European Spine Journal
European Spine Journal 医学-临床神经学
CiteScore
4.80
自引率
10.70%
发文量
373
审稿时长
2-4 weeks
期刊介绍: "European Spine Journal" is a publication founded in response to the increasing trend toward specialization in spinal surgery and spinal pathology in general. The Journal is devoted to all spine related disciplines, including functional and surgical anatomy of the spine, biomechanics and pathophysiology, diagnostic procedures, and neurology, surgery and outcomes. The aim of "European Spine Journal" is to support the further development of highly innovative spine treatments including but not restricted to surgery and to provide an integrated and balanced view of diagnostic, research and treatment procedures as well as outcomes that will enhance effective collaboration among specialists worldwide. The “European Spine Journal” also participates in education by means of videos, interactive meetings and the endorsement of educative efforts. Official publication of EUROSPINE, The Spine Society of Europe
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