Machine Learning Algorithms Exceed Comorbidity Indices in Prediction of Short-Term Complications After Hip Fracture Surgery.

IF 2.6 2区医学 Q1 ORTHOPEDICS Journal of the American Academy of Orthopaedic Surgeons Pub Date : 2024-11-19 DOI:10.5435/JAAOS-D-23-01144

Anirudh K Gowd, Edward C Beck, Avinesh Agarwalla, Dev M Patel, Ryan C Godwin, Brian R Waterman, Milton T Little, Joseph N Liu

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Abstract

Background: Hip fractures are among the most morbid acute orthopaedic injuries often due to accompanying patient frailty. The purpose of this study was to determine the reliability of assessing surgical risk after hip fracture through machine learning (ML) algorithms.

Methods: The American College of Surgeons National Surgical Quality Improvement Program was queried from 2011 to 2018 and the American College of Surgeons National Surgical Quality Improvement Program hip fracture-targeted data set was queried from 2016 to 2018 for all patients undergoing surgical fixation for a diagnosis of an acute primary hip fracture. The data set was randomly split into training (80%) and testing (20%) sets. 3 ML algorithms were used to train models in the prediction of extended hospital length of stay (LOS) >13 days, death, readmissions, home discharge, transfusion, and any medical complication. Testing sets were assessed by receiver operating characteristic, positive predictive value (PPV), and negative predictive value (NPV) and were compared with models constructed from legacy comorbidity indices such as American Society of Anesthesiologists (ASA) score, modified Charlson Comorbidity Index, frailty index, and Nottingham Hip Fracture Score.

Results: Following inclusion/exclusion criteria, 95,745 cases were available in the overall data set and 22,344 in the targeted data set. ML models outperformed comorbidity indices for each complication by area under the curve (AUC) analysis (P < 0.01 for each): medical complications (AUC = 0.65, PPV = 67.5, NPV = 71.7), death (AUC = 0.80, PPV = 46.7, NPV = 94.9), extended LOS (AUC = 0.69, PPV = 71.4, NPV = 94.1), transfusion (AUC = 0.79, PPV = 64.2, NPV = 77.4), readmissions (AUC = 0.63, PPV = 0, NPV = 96.8), and home discharge (AUC = 0.74, PPV = 65.9, NPV = 76.7). In comparison, the best performing legacy index for each complication was medical complication (ASA: AUC = 0.60), death (NHFS: AUC = 0.70), extended LOS (ASA: AUC = 0.62), transfusion (ASA: AUC = 0.57), readmissions (CCI: AUC = 0.58), and home discharge (ASA: AUC = 0.61).

Conclusions: ML algorithms offer an improved method to holistically calculate preoperative risk of patient morbidity, mortality, and discharge destination. Through continued validation, risk calculators using these algorithms may inform medical decision making to providers and payers.

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机器学习算法在预测髋部骨折术后短期并发症方面优于合并症指数

背景：髋部骨折是发病率最高的急性骨科损伤之一，这通常是由于伴随而来的患者体质虚弱所致。本研究旨在确定通过机器学习（ML）算法评估髋部骨折后手术风险的可靠性：查询了美国外科学院国家外科质量改进计划 2011 年至 2018 年的数据，并查询了美国外科学院国家外科质量改进计划髋部骨折目标数据集 2016 年至 2018 年所有因诊断为急性原发性髋部骨折而接受手术固定的患者的数据。数据集被随机分成训练集（80%）和测试集（20%）。在预测住院时间延长（LOS）>13 天、死亡、再入院、出院回家、输血和任何医疗并发症时，使用了 3 种 ML 算法来训练模型。通过接收者操作特征、阳性预测值（PPV）和阴性预测值（NPV）对测试集进行评估，并与根据美国麻醉医师协会（ASA）评分、改良查尔森合并症指数、虚弱指数和诺丁汉髋部骨折评分等传统合并症指数构建的模型进行比较：根据纳入/排除标准，总体数据集中有 95,745 个病例，目标数据集中有 22,344 个病例。通过曲线下面积（AUC）分析，ML 模型在每种并发症上的表现均优于合并症指数（P < 0.01）：医疗并发症（AUC = 0.65，PPV = 67.5，NPV = 71.7）、死亡（AUC = 0.80，PPV = 46.7，NPV = 94.9）、延长 LOS（AUC = 0.69，PPV = 71.4，NPV = 94.1）、输血（AUC = 0.79，PPV = 64.2，NPV = 77.4）、再入院（AUC = 0.63，PPV = 0，NPV = 96.8）和出院回家（AUC = 0.74，PPV = 65.9，NPV = 76.7）。相比之下，每种并发症表现最好的遗留指数是医疗并发症（ASA：AUC = 0.60）、死亡（NHFS：AUC = 0.70）、延长 LOS（ASA：AUC = 0.62）、输血（ASA：AUC = 0.57）、再入院（CCI：AUC = 0.58）和出院回家（ASA：AUC = 0.61）：ML 算法为全面计算患者术前发病率、死亡率和出院风险提供了一种改进方法。通过不断验证，使用这些算法的风险计算器可为医疗服务提供者和支付者提供医疗决策信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the American Academy of Orthopaedic Surgeons 医学-整形外科

CiteScore

6.10

自引率

6.20%

发文量

529

审稿时长

4-8 weeks

期刊介绍： The Journal of the American Academy of Orthopaedic Surgeons was established in the fall of 1993 by the Academy in response to its membership’s demand for a clinical review journal. Two issues were published the first year, followed by six issues yearly from 1994 through 2004. In September 2005, JAAOS began publishing monthly issues. Each issue includes richly illustrated peer-reviewed articles focused on clinical diagnosis and management. Special features in each issue provide commentary on developments in pharmacotherapeutics, materials and techniques, and computer applications.