Predicting infarct outcomes after extended time window thrombectomy in large vessel occlusion using knowledge guided deep learning.

IF 4.5 1区医学 Q1 NEUROIMAGING

Journal of NeuroInterventional Surgery Pub Date : 2025-06-06 DOI:10.1136/jnis-2025-023355

Lisong Dai, Lei Yuan, Houwang Zhang, Zheng Sun, Jingxuan Jiang, Zhaohui Li, Yuehua Li, Yunfei Zha

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引用次数: 0

Abstract

Background: Predicting the final infarct after an extended time window mechanical thrombectomy (MT) is beneficial for treatment planning in acute ischemic stroke (AIS). By introducing guidance from prior knowledge, this study aims to improve the accuracy of the deep learning model for post-MT infarct prediction using pre-MT brain perfusion data.

Methods: This retrospective study collected CT perfusion data at admission for AIS patients receiving MT over 6 hours after symptom onset, from January 2020 to December 2024, across three centers. Infarct on post-MT diffusion weighted imaging served as ground truth. Five Swin transformer based models were developed for post-MT infarct segmentation using pre-MT CT perfusion parameter maps: BaselineNet served as the basic model for comparative analysis, CollateralFlowNet included a collateral circulation evaluation score, InfarctProbabilityNet incorporated infarct probability mapping, ArterialTerritoryNet was guided by artery territory mapping, and UnifiedNet combined all prior knowledge sources. Model performance was evaluated using the Dice coefficient and intersection over union (IoU).

Results: A total of 221 patients with AIS were included (65.2% women) with a median age of 73 years. Baseline ischemic core based on CT perfusion threshold achieved a Dice coefficient of 0.50 and IoU of 0.33. BaselineNet improved to a Dice coefficient of 0.69 and IoU of 0.53. Compared with BaselineNet, models incorporating medical knowledge demonstrated higher performance: CollateralFlowNet (Dice coefficient 0.72, IoU 0.56), InfarctProbabilityNet (Dice coefficient 0.74, IoU 0.58), ArterialTerritoryNet (Dice coefficient 0.75, IoU 0.60), and UnifiedNet (Dice coefficient 0.82, IoU 0.71) (all P<0.05).

Conclusions: In this study, integrating medical knowledge into deep learning models enhanced the accuracy of infarct predictions in AIS patients undergoing extended time window MT.

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利用知识引导的深度学习预测大血管闭塞患者延长时间窗取栓后的梗死结果。

背景：预测延长时间窗机械取栓（MT）后的最终梗死灶有利于制定急性缺血性卒中（AIS）的治疗计划。通过引入先验知识的指导，本研究旨在提高利用mt前脑灌注数据预测mt后梗死的深度学习模型的准确性。方法：本回顾性研究收集了2020年1月至2024年12月三个中心接受MT治疗的AIS患者在症状出现后6小时内入院时的CT灌注数据。mt后弥散加权成像为梗死区。使用mt前CT灌注参数图，开发了5种基于Swin变压器的mt后梗死分割模型：BaselineNet作为比较分析的基本模型，CollateralFlowNet包括侧支循环评估评分，梗死概率网纳入梗死概率图，ArterialTerritoryNet以动脉区域图为指导，UnifiedNet结合了所有先验知识来源。使用Dice系数和交联（intersection over union, IoU）对模型性能进行评价。结果：共纳入221例AIS患者（65.2%为女性），中位年龄为73岁。基于CT灌注阈值的基线缺血核的Dice系数为0.50，IoU为0.33。BaselineNet的Dice系数为0.69，IoU为0.53。与BaselineNet相比，纳入医学知识的模型表现出更高的性能：CollateralFlowNet （Dice系数0.72,IoU 0.56）、梗死概率网（Dice系数0.74,IoU 0.58）、ArterialTerritoryNet （Dice系数0.75,IoU 0.60）和UnifiedNet (Dice系数0.82,IoU 0.71)（均为pp7）。结论：在本研究中，将医学知识纳入深度学习模型可提高AIS患者接受延长时间窗MT的梗死预测准确性。

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

Journal of NeuroInterventional Surgery NEUROIMAGING-SURGERY

CiteScore

9.50

自引率

14.60%

发文量

291

审稿时长

4-8 weeks

期刊介绍： The Journal of NeuroInterventional Surgery (JNIS) is a leading peer review journal for scientific research and literature pertaining to the field of neurointerventional surgery. The journal launch follows growing professional interest in neurointerventional techniques for the treatment of a range of neurological and vascular problems including stroke, aneurysms, brain tumors, and spinal compression.The journal is owned by SNIS and is also the official journal of the Interventional Chapter of the Australian and New Zealand Society of Neuroradiology (ANZSNR), the Canadian Interventional Neuro Group, the Hong Kong Neurological Society (HKNS) and the Neuroradiological Society of Taiwan.