A deep learning-based model for prediction of hemorrhagic transformation after stroke.

Abstract

Hemorrhagic transformation (HT) is one of the most serious complications after endovascular thrombectomy (EVT) in acute ischemic stroke (AIS) patients. The purpose of this study is to develop and validate deep-learning (DL) models based on multiparametric magnetic resonance imaging (MRI) to automatically predict HT in AIS patients. Multiparametric MRI and clinical data of AIS patients with EVT from two centers (data set 1 for training and testing: n=338; data set 2 for validating: n=54) were used in the DL models. The acute infarction area of diffusion-weighted imaging (DWI) and hypoperfusion of perfusion-weighted imaging (PWI) was labeled manually. Two forms of data sets (volume of interest [VOI] data sets and slice data sets) were analyzed, respectively. The models based on single parameter and multiparameter models were developed and validated to predict HT in AIS patients after EVT. Performance was evaluated by area under the receiver-operating characteristic curve (AUC), accuracy (ACC), sensitivity, specificity, negative predictive value, and positive predictive value. The results showed that the performance of single parameter model based on MTT (VOI data set: AUC=0.933, ACC=0.843; slice data set: AUC=0.945, ACC=0.833) and TTP (VOI data set: AUC=0.916, ACC=0.873; slice data set: AUC=0.889, ACC=0.818) were better than the other single parameter model. The multiparameter model based on DWI & MTT & TTP & Clinical (DMTC) had the best performance for predicting HT (VOI data set: AUC=0.948, ACC=0.892; slice data set: AUC=0.932, ACC=0.873). The DMTC model in the external validation set achieved similar performance with the testing set (VOI data set: AUC=0.939, ACC=0.884; slice data set: AUC=0.927, ACC=0.871) (p>0.05). The proposed clinical, DWI, and PWI multiparameter DL model has great potential for assisting the periprocedural management in the early prediction HT of the AIS patients with EVT.