Development and validation of machine-learning algorithms predicting retention, overdoses, and all-cause mortality among US military veterans treated with buprenorphine for opioid use disorder.

IF 1.6 4区 医学 Q3 SUBSTANCE ABUSE Journal of Addictive Diseases Pub Date : 2024-06-30 DOI:10.1080/10550887.2024.2363035
Corey J Hayes, Nahiyan Bin Noor, Rebecca A Raciborski, Bradley Martin, Adam Gordon, Katherine Hoggatt, Teresa Hudson, Michael Cucciare
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Abstract

Background: Buprenorphine for opioid use disorder (B-MOUD) is essential to improving patient outcomes; however, retention is essential.

Objective: To develop and validate machine-learning algorithms predicting retention, overdoses, and all-cause mortality among US military veterans initiating B-MOUD.

Methods: Veterans initiating B-MOUD from fiscal years 2006-2020 were identified. Veterans' B-MOUD episodes were randomly divided into training (80%;n = 45,238) and testing samples (20%;n = 11,309). Candidate algorithms [multiple logistic regression, least absolute shrinkage and selection operator regression, random forest (RF), gradient boosting machine (GBM), and deep neural network (DNN)] were used to build and validate classification models to predict six binary outcomes: 1) B-MOUD retention, 2) any overdose, 3) opioid-related overdose, 4) overdose death, 5) opioid overdose death, and 6) all-cause mortality. Model performance was assessed using standard classification statistics [e.g., area under the receiver operating characteristic curve (AUC-ROC)].

Results: Episodes in the training sample were 93.0% male, 78.0% White, 72.3% unemployed, and 48.3% had a concurrent drug use disorder. The GBM model slightly outperformed others in predicting B-MOUD retention (AUC-ROC = 0.72). RF models outperformed others in predicting any overdose (AUC-ROC = 0.77) and opioid overdose (AUC-ROC = 0.77). RF and GBM outperformed other models for overdose death (AUC-ROC = 0.74 for both), and RF and DNN outperformed other models for opioid overdose death (RF AUC-ROC = 0.79; DNN AUC-ROC = 0.78). RF and GBM also outperformed other models for all-cause mortality (AUC-ROC = 0.76 for both). No single predictor accounted for >3% of the model's variance.

Conclusions: Machine-learning algorithms can accurately predict OUD-related outcomes with moderate predictive performance; however, prediction of these outcomes is driven by many characteristics.

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开发和验证机器学习算法,预测接受丁丙诺啡治疗阿片类药物使用障碍的美国退伍军人的保留率、过量使用率和全因死亡率。
背景:治疗阿片类药物使用障碍的丁丙诺啡(B-MOUD)对改善患者的治疗效果至关重要;然而,患者的保留率也至关重要:丁丙诺啡治疗阿片类药物使用障碍(B-MOUD)对改善患者的治疗效果至关重要,但保留率也至关重要:目的:开发并验证机器学习算法,预测开始接受 B-MOUD 治疗的美国退伍军人的保留率、过量用药率和全因死亡率:方法: 对 2006-2020 财年开始接受 B-MOUD 治疗的退伍军人进行识别。退伍军人的 B-MOUD 事件被随机分为训练样本(80%;n = 45238)和测试样本(20%;n = 11309)。候选算法[多重逻辑回归、最小绝对收缩和选择算子回归、随机森林(RF)、梯度提升机(GBM)和深度神经网络(DNN)]被用来建立和验证分类模型,以预测六种二元结果:1)B-MOUD 保留率;2)任何用药过量;3)阿片类药物相关用药过量;4)用药过量死亡;5)阿片类药物用药过量死亡;6)全因死亡率。使用标准分类统计[如接收者操作特征曲线下面积(AUC-ROC)]评估模型性能:训练样本中 93.0% 为男性,78.0% 为白人,72.3% 为失业者,48.3% 同时患有药物使用障碍。GBM模型在预测B-MOUD保留率方面略优于其他模型(AUC-ROC = 0.72)。RF 模型在预测任何药物过量(AUC-ROC = 0.77)和阿片类药物过量(AUC-ROC = 0.77)方面的表现优于其他模型。RF 和 GBM 在预测过量用药死亡方面的表现优于其他模型(两者的 AUC-ROC 均为 0.74),RF 和 DNN 在预测阿片类药物过量用药死亡方面的表现优于其他模型(RF AUC-ROC = 0.79;DNN AUC-ROC = 0.78)。在全因死亡率方面,RF 和 GBM 的表现也优于其他模型(两者的 AUC-ROC 均为 0.76)。没有一个预测因子占模型方差的 3% 以上:机器学习算法可以准确预测与 OUD 相关的结果,预测效果一般;但是,这些结果的预测受许多特征的影响。
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来源期刊
CiteScore
4.30
自引率
4.30%
发文量
69
期刊介绍: The Journal of Addictive Diseases is an essential, comprehensive resource covering the full range of addictions for today"s addiction professional. This in-depth, practical journal helps you stay on top of the vital issues and the clinical skills necessary to ensure effective practice. The latest research, treatments, and public policy issues in addiction medicine are presented in a fully integrated, multi-specialty perspective. Top researchers and respected leaders in addiction issues share their knowledge and insights to keep you up-to-date on the most important research and practical applications.
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