Refinement of machine learning arterial waveform models for predicting blood loss in canines.

IF 3 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Frontiers in Artificial Intelligence Pub Date : 2024-08-21 eCollection Date: 2024-01-01 DOI:10.3389/frai.2024.1408029
Jose M Gonzalez, Thomas H Edwards, Guillaume L Hoareau, Eric J Snider
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Abstract

Introduction: Hemorrhage remains a leading cause of death in civilian and military trauma. Hemorrhages also extend to military working dogs, who can experience injuries similar to those of the humans they work alongside. Unfortunately, current physiological monitoring is often inadequate for early detection of hemorrhage. Here, we evaluate if features extracted from the arterial waveform can allow for early hemorrhage prediction and improved intervention in canines.

Methods: In this effort, we extracted more than 1,900 features from an arterial waveform in canine hemorrhage datasets prior to hemorrhage, during hemorrhage, and during a shock hold period. Different features were used as input to decision tree machine learning (ML) model architectures to track three model predictors-total blood loss volume, estimated percent blood loss, and area under the time versus hemorrhaged blood volume curve.

Results: ML models were successfully developed for total and estimated percent blood loss, with the total blood loss having a higher correlation coefficient. The area predictors were unsuccessful at being directly predicted by decision tree ML models but could be calculated indirectly from the ML prediction models for blood loss. Overall, the area under the hemorrhage curve had the highest sensitivity for detecting hemorrhage at approximately 4 min after hemorrhage onset, compared to more than 45 min before detection based on mean arterial pressure.

Conclusion: ML methods successfully tracked hemorrhage and provided earlier prediction in canines, potentially improving hemorrhage detection and objectifying triage for veterinary medicine. Further, its use can potentially be extended to human use with proper training datasets.

改进机器学习动脉波形模型,用于预测犬失血量。
导言:大出血仍然是导致平民和军人创伤死亡的主要原因。军犬也会发生大出血,因为它们可能会受到与人类类似的伤害。遗憾的是,目前的生理监测往往不足以对出血进行早期检测。在此,我们评估了从动脉波形中提取的特征是否可以用于早期出血预测和改善犬类干预:在这项工作中,我们从犬出血数据集中的出血前、出血期间和休克维持期的动脉波形中提取了 1900 多个特征。不同的特征被用作决策树机器学习(ML)模型架构的输入,以跟踪三个模型预测因子--总失血量、估计失血百分比以及时间与出血血量曲线下的面积:针对总失血量和估计失血百分比成功开发出了 ML 模型,其中总失血量的相关系数更高。面积预测因子无法通过决策树 ML 模型直接预测,但可以通过失血量的 ML 预测模型间接计算。总体而言,出血曲线下面积在出血发生后约 4 分钟时检测出血的灵敏度最高,而根据平均动脉压检测则需要超过 45 分钟:ML 方法成功地追踪了犬类的出血情况,并提供了更早的预测,有可能改进出血检测和兽医客观分诊。此外,如果有适当的训练数据集,还可将其应用扩展到人类。
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
CiteScore
6.10
自引率
2.50%
发文量
272
审稿时长
13 weeks
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