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CT 灌注平均通过时间图最佳地区分良性低灌注与真正的“危险”缺血半影区,但阈值因后处理技术而异。

CT perfusion mean transit time maps optimally distinguish benign oligemia from true "at-risk" ischemic penumbra, but thresholds vary by postprocessing technique.

机构信息

Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts 02114-9657, USA.

出版信息

AJNR Am J Neuroradiol. 2012 Mar;33(3):545-9. doi: 10.3174/ajnr.A2809. Epub 2011 Dec 22.

DOI:10.3174/ajnr.A2809
PMID:22194372
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3746025/
Abstract

BACKGROUND AND PURPOSE

Various CTP parameters have been used to identify ischemic penumbra. The purpose of this study was to determine the optimal CTP parameter and threshold to distinguish true "at-risk" penumbra from benign oligemia in acute stroke patients without reperfusion.

MATERIALS AND METHODS

Consecutive stroke patients were screened and 23 met the following criteria: 1) admission scanning within 9 hours of onset, 2) CTA confirmation of large vessel occlusion, 3) no late clinical or radiographic evidence of reperfusion, 4) no thrombolytic therapy, 5) DWI imaging within 3 hours of CTP, and 6) either CT or MR follow-up imaging. CTP was postprocessed with commercial software packages, using standard and delay-corrected deconvolution algorithms. Relative cerebral blood flow, volume, and mean transit time (rCBF, rCBV and rMTT) values were obtained by normalization to the uninvolved hemisphere. The admission DWI and final infarct were transposed onto the CTP maps and receiver operating characteristic curve analysis was performed to determine optimal thresholds for each perfusion parameter in defining penumbra destined to infarct.

RESULTS

Relative and absolute MTT identified penumbra destined to infarct more accurately than CBF or CBV*CBF (P < .01). Absolute and relative MTT thresholds for defining penumbra were 12s and 249% for the standard and 13.5s and 150% for the delay-corrected algorithms, respectively.

CONCLUSIONS

Appropriately thresholded absolute and relative MTT-CTP maps optimally distinguish "at-risk" penumbra from benign oligemia in acute stroke patients with large-vessel occlusion and no reperfusion. The precise threshold values may vary, however, depending on the postprocessing technique used for CTP map construction.

摘要

背景与目的

各种 CTP 参数已被用于识别缺血半暗带。本研究旨在确定最佳 CTP 参数和阈值,以区分无再灌注的急性卒中患者中真正的“危险”半暗带与良性低灌注。

材料与方法

连续筛选卒中患者,符合以下标准的 23 例患者入组:1)发病后 9 小时内进行入院扫描,2)CTA 证实大血管闭塞,3)无晚期临床或影像学再灌注证据,4)无溶栓治疗,5)CTP 扫描后 3 小时内行 DWI 成像,6)CT 或 MR 随访成像。CTP 采用商业软件包进行后处理,使用标准和延迟校正的去卷积算法。通过与未受累半球归一化,获得相对脑血流量(rCBF)、相对脑血容量(rCBV)和平均通过时间(rMTT)值。入院 DWI 和最终梗死灶被转移到 CTP 图上,进行受试者工作特征曲线分析,以确定每个灌注参数在定义注定要梗死的半暗带时的最佳阈值。

结果

相对和绝对 MTT 比 CBF 或 CBV*CBF(P<.01)更准确地识别出注定要梗死的半暗带。用于定义半暗带的绝对和相对 MTT 阈值分别为标准算法的 12s 和 249%,以及延迟校正算法的 13.5s 和 150%。

结论

适当地阈值化的绝对和相对 MTT-CTP 图可以最佳地区分无再灌注的大血管闭塞的急性卒中患者中的“危险”半暗带与良性低灌注。然而,由于 CTP 图构建的后处理技术不同,精确的阈值可能会有所不同。

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本文引用的文献

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Multimodal CT-assisted thrombolysis in patients with acute stroke: a cohort study.多模态 CT 辅助急性脑卒中患者溶栓治疗:一项队列研究。
Stroke. 2011 Apr;42(4):1129-31. doi: 10.1161/STROKEAHA.110.605766. Epub 2011 Feb 17.
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EPITHET: Positive Result After Reanalysis Using Baseline Diffusion-Weighted Imaging/Perfusion-Weighted Imaging Co-Registration.形容词:使用基线弥散加权成像/灌注加权成像配准后重新分析的阳性结果。
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Evidence-based guideline: The role of diffusion and perfusion MRI for the diagnosis of acute ischemic stroke: report of the Therapeutics and Technology Assessment Subcommittee of the American Academy of Neurology.循证指南:弥散和灌注 MRI 在急性缺血性卒中诊断中的作用:美国神经病学学会治疗与技术评估分会的报告。
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