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开发和验证一种基于网络的人工智能预测模型,使用机器学习技术评估转移性脊柱疾病的术中大量失血。

Development and validation of a web-based artificial intelligence prediction model to assess massive intraoperative blood loss for metastatic spinal disease using machine learning techniques.

机构信息

Department of Orthopedic Surgery, Peking University First Hospital, No. 8 Xishiku St, Beijing, Xicheng District, 100032, China.

Department of Orthopedic Surgery, Peking University First Hospital, No. 8 Xishiku St, Beijing, Xicheng District, 100032, China.

出版信息

Spine J. 2024 Jan;24(1):146-160. doi: 10.1016/j.spinee.2023.09.001. Epub 2023 Sep 11.

DOI:10.1016/j.spinee.2023.09.001
PMID:37704048
Abstract

BACKGROUND CONTEXT

Intraoperative blood loss is a significant concern in patients with metastatic spinal disease. Early identification of patients at high risk of experiencing massive intraoperative blood loss is crucial as it allows for the development of appropriate surgical plans and facilitates timely interventions. However, accurate prediction of intraoperative blood loss remains limited based on prior studies.

PURPOSE

The purpose of this study was to develop and validate a web-based artificial intelligence (AI) model to predict massive intraoperative blood loss during surgery for metastatic spinal disease.

STUDY DESIGN/SETTING: An observational cohort study.

PATIENT SAMPLE

Two hundred seventy-six patients with metastatic spinal tumors undergoing decompressive surgery from two hospitals were included for analysis. Of these, 200 patients were assigned to the derivation cohort for model development and internal validation, while the remaining 76 were allocated to the external validation cohort.

OUTCOME MEASURES

The primary outcome was massive intraoperative blood loss defined as an estimated blood loss of 2,500 cc or more.

METHODS

Data on patients' demographics, tumor conditions, oncological therapies, surgical strategies, and laboratory examinations were collected in the derivation cohort. SMOTETomek resampling (which is a combination of Synthetic Minority Oversampling Technique and Tomek Links Undersampling) was performed to balance the classes of the dataset and obtain an expanded dataset. The patients were randomly divided into two groups in a proportion of 7:3, with the most used for model development and the remaining for internal validation. External validation was performed in another cohort of 76 patients with metastatic spinal tumors undergoing decompressive surgery from a teaching hospital. The logistic regression (LR) model, and five machine learning models, including K-Nearest Neighbor (KNN), Decision Tree (DT), XGBoosting Machine (XGBM), Random Forest (RF), and Support Vector Machine (SVM), were used to develop prediction models. Model prediction performance was evaluated using area under the curve (AUC), recall, specificity, F1 score, Brier score, and log loss. A scoring system incorporating 10 evaluation metrics was developed to comprehensively evaluate the prediction performance.

RESULTS

The incidence of massive intraoperative blood loss was 23.50% (47/200). The model features were comprised of five clinical variables, including tumor type, smoking status, Eastern Cooperative Oncology Group (ECOG) score, surgical process, and preoperative platelet level. The XGBM model performed the best in AUC (0.857 [95% CI: 0.827, 0.877]), accuracy (0.771), recall (0.854), F1 score (0.787), Brier score (0.150), and log loss (0.461), and the RF model ranked second in AUC (0.826 [95% CI: 0.793, 0.861]) and precise (0.705), whereas the AUC of the LR model was only 0.710 (95% CI: 0.665, 0.771), the accuracy was 0.627, the recall was 0.610, and the F1 score was 0.617. According to the scoring system, the XGBM model obtained the highest total score of 55, which signifies the best predictive performance among the evaluated models. External validation showed that the AUC of the XGBM model was also up to 0.809 (95% CI: 0.778, 0.860) and the accuracy was 0.733. The XGBM model, was further deployed online, and can be freely accessed at https://starxueshu-massivebloodloss-main-iudy71.streamlit.app/.

CONCLUSIONS

The XGBM model may be a useful AI tool to assess the risk of intraoperative blood loss in patients with metastatic spinal disease undergoing decompressive surgery.

摘要

背景情况

术中失血量是转移性脊柱疾病患者的一个重要关注点。早期识别出术中大量失血风险较高的患者至关重要,因为这可以制定适当的手术计划并及时进行干预。然而,基于先前的研究,术中失血量的准确预测仍然有限。

目的

本研究旨在开发和验证一种基于人工智能(AI)的网络模型,以预测转移性脊柱疾病手术中的大量术中失血。

研究设计/设置:这是一项观察性队列研究。

患者样本

纳入了来自两家医院的 276 名接受减压手术的转移性脊柱肿瘤患者进行分析。其中,200 名患者被分配到推导队列进行模型开发和内部验证,其余 76 名患者被分配到外部验证队列。

主要结局

主要结局是定义为估计失血量为 2500cc 或更多的大量术中失血。

方法

在推导队列中收集患者的人口统计学、肿瘤状况、肿瘤治疗、手术策略和实验室检查数据。使用 SMOTETomek 重采样(一种合成少数过采样技术和 Tomek 链接欠采样的组合)平衡数据集的类别,并获得扩展数据集。患者被随机分为两组,比例为 7:3,其中大部分用于模型开发,其余用于内部验证。在另一家教学医院接受减压手术的 76 名转移性脊柱肿瘤患者的外部验证队列中进行了外部验证。使用逻辑回归(LR)模型和五种机器学习模型,包括 K 近邻(KNN)、决策树(DT)、XGBoosting 机(XGBM)、随机森林(RF)和支持向量机(SVM),开发预测模型。使用曲线下面积(AUC)、召回率、特异性、F1 评分、Brier 评分和对数损失来评估模型预测性能。开发了一种包含 10 项评估指标的评分系统,以全面评估预测性能。

结果

大量术中失血的发生率为 23.50%(47/200)。模型特征包括五个临床变量,包括肿瘤类型、吸烟状况、东部肿瘤协作组(ECOG)评分、手术过程和术前血小板水平。XGBM 模型在 AUC(0.857 [95%CI:0.827,0.877])、准确性(0.771)、召回率(0.854)、F1 评分(0.787)、Brier 评分(0.150)和对数损失(0.461)方面表现最佳,RF 模型在 AUC(0.826 [95%CI:0.793,0.861])和精确率(0.705)方面排名第二,而 LR 模型的 AUC 仅为 0.710(95%CI:0.665,0.771),准确性为 0.627,召回率为 0.610,F1 评分为 0.617。根据评分系统,XGBM 模型获得了最高的总评分 55,表明在评估的模型中具有最佳的预测性能。外部验证表明,XGBM 模型的 AUC 也高达 0.809(95%CI:0.778,0.860),准确性为 0.733。XGBM 模型进一步在网上部署,并可以在 https://starxueshu-massivebloodloss-main-iudy71.streamlit.app/ 上免费访问。

结论

XGBM 模型可能是一种有用的 AI 工具,可以评估接受减压手术的转移性脊柱疾病患者术中失血量的风险。

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