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急性卒中缺血性病变进展:水摄取定量可区分水肿和组织梗死。

Ischemic lesion growth in acute stroke: Water uptake quantification distinguishes between edema and tissue infarct.

机构信息

Department of Diagnostic and Interventional Neuroradiology, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.

Institute of Medical Biometry and Epidemiology, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.

出版信息

J Cereb Blood Flow Metab. 2020 Apr;40(4):823-832. doi: 10.1177/0271678X19848505. Epub 2019 May 9.

DOI:10.1177/0271678X19848505
PMID:31072174
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7168794/
Abstract

Infarct growth from the early ischemic core to the total infarct lesion volume (LV) is often used as an outcome variable of treatment effects, but can be overestimated due to vasogenic edema. The purpose of this study was (1) to assess two components of early lesion growth by distinguishing between water uptake and true net infarct growth and (2) to investigate potential treatment effects on edema-corrected net lesion growth. Sixty-two M1-MCA-stroke patients with acute multimodal and follow-up CT (FCT) were included. Ischemic lesion growth was calculated by subtracting the initial CTP-derived ischemic core volume from the LV in the FCT. To determine edema-corrected net lesion growth, net water uptake of the ischemic lesion on FCT was quantified and subtracted from the volume of uncorrected lesion growth. The mean lesion growth without edema correction was 20.4 mL (95% CI: 8.2-32.5 mL). The mean net lesion growth after edema correction was 7.3 mL (95% CI: -2.1-16.7 mL;  < 0.0001). Lesion growth was significantly overestimated due to ischemic edema when determined in early-FCT imaging. In 18 patients, LV was lower than the initial ischemic core volume by CTP. These apparently "reversible" core lesions were more likely in patients with shorter times from symptom onset to imaging and higher recanalization rates.

摘要

梗死从早期缺血核心到总梗死病变体积(LV)的生长通常被用作治疗效果的结果变量,但由于血管源性水肿可能会被高估。本研究的目的是(1)通过区分水摄取和真正的净梗死生长来评估早期病变生长的两个组成部分,(2)研究潜在的治疗效果对水肿校正的净病变生长的影响。62 名 M1-MCA 中风患者接受了急性多模态和随访 CT(FCT)检查。缺血性病变生长通过从 FCT 中的 LV 中减去初始 CTP 衍生的缺血核心体积来计算。为了确定水肿校正的净病变生长,在 FCT 上量化缺血病变的净水摄取量,并从未校正病变生长的体积中减去。未经水肿校正的平均病变生长为 20.4 mL(95%CI:8.2-32.5 mL)。水肿校正后的平均净病变生长为 7.3 mL(95%CI:-2.1-16.7 mL;<0.0001)。在早期 FCT 成像中,由于缺血性水肿,病变生长被显著高估。在 18 名患者中,LV 低于 CTP 确定的初始缺血核心体积。这些明显的“可逆”核心病变更可能出现在症状发作到成像时间较短和再通率较高的患者中。

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