Tandon Pranai, Nguyen Kim-Anh-Nhi, Edalati Masoud, Parchure Prathamesh, Raut Ganesh, Reich David L, Freeman Robert, Levin Matthew A, Timsina Prem, Powell Charles A, Fayad Zahi A, Kia Arash
Department of Medicine Division of Pulmonary, Critical Care, and Sleep Medicine, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
Institute for Healthcare Delivery Science, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
Bioengineering (Basel). 2024 Jun 19;11(6):626. doi: 10.3390/bioengineering11060626.
The decision to extubate patients on invasive mechanical ventilation is critical; however, clinician performance in identifying patients to liberate from the ventilator is poor. Machine Learning-based predictors using tabular data have been developed; however, these fail to capture the wide spectrum of data available. Here, we develop and validate a deep learning-based model using routinely collected chest X-rays to predict the outcome of attempted extubation. We included 2288 serial patients admitted to the Medical ICU at an urban academic medical center, who underwent invasive mechanical ventilation, with at least one intubated CXR, and a documented extubation attempt. The last CXR before extubation for each patient was taken and split 79/21 for training/testing sets, then transfer learning with k-fold cross-validation was used on a pre-trained ResNet50 deep learning architecture. The top three models were ensembled to form a final classifier. The Grad-CAM technique was used to visualize image regions driving predictions. The model achieved an AUC of 0.66, AUPRC of 0.94, sensitivity of 0.62, and specificity of 0.60. The model performance was improved compared to the Rapid Shallow Breathing Index (AUC 0.61) and the only identified previous study in this domain (AUC 0.55), but significant room for improvement and experimentation remains.
决定对接受有创机械通气的患者进行拔管至关重要;然而,临床医生在识别可脱离呼吸机的患者方面表现不佳。基于表格数据的机器学习预测器已经开发出来;然而,这些预测器未能捕捉到所有可用的数据。在此,我们开发并验证了一种基于深度学习的模型,该模型使用常规收集的胸部X光片来预测拔管尝试的结果。我们纳入了2288例连续入住城市学术医疗中心内科重症监护病房的患者,这些患者接受了有创机械通气,至少有一张插管后的胸部X光片,并有记录在案的拔管尝试。对每位患者拔管前的最后一张胸部X光片进行采集,并按79/21的比例划分为训练/测试集,然后在预训练的ResNet50深度学习架构上使用k折交叉验证的迁移学习。将排名前三的模型进行整合,形成最终分类器。使用Grad-CAM技术可视化驱动预测的图像区域。该模型的AUC为0.66,AUPRC为0.94,敏感性为0.62,特异性为0.60。与快速浅呼吸指数(AUC 0.61)和该领域之前唯一确定的研究(AUC 0.55)相比,该模型的性能有所提高,但仍有很大的改进和实验空间。
