在高级闭塞性颈动脉疾病中，T2' 成像在灌注受限组织内。

T2' imaging within perfusion-restricted tissue in high-grade occlusive carotid disease.

机构信息

Department of Neurology, Goethe-University, Schleusenweg 2-16, D-60528 Frankfurt/Main, Germany.

出版信息

Stroke. 2012 Jul;43(7):1831-6. doi: 10.1161/STROKEAHA.111.646109. Epub 2012 May 8.

DOI:10.1161/STROKEAHA.111.646109

PMID:22569938

Abstract

BACKGROUND AND PURPOSE

Quantitative T2' imaging presumably detects regional changes in the relation of oxygenated and deoxygenated hemoglobin. Regional differences in hemoglobin oxygenation might reflect areas with increased oxygen extraction for compensation of reduced perfusion pressure. We investigated quantitative T2' imaging in patients with high-grade stenoses of brain-supplying arteries and hypothesized that T2' values are lower in perfusion-restricted areas as compared with normally perfused tissue.

METHODS

Eighteen patients (15 men; mean age±SD, 54±12.8 years) with unilateral symptomatic or asymptomatic high-grade extracranial or intracranial internal carotid artery or proximal middle cerebral artery stenosis/occlusion were included. MR examination included perfusion-weighted imaging and quantitative, motion-corrected mapping of T2' time. Time-to-peak and mean transit time maps were thresholded for different degrees of perfusion delays (eg, >0 seconds, ≥2 seconds) compared with the contralateral hemisphere. Mean T2' values in areas of impaired perfusion were compared with T2' values in corresponding contralateral or ipsilateral, normoperfused areas.

RESULTS

Mean size of perfusion-impaired areas in time-to-peak maps (time-to-peak delay>0 seconds) was 10.8 mL (±6.3) and 11.5 mL (±6.4) in mean transit time maps (mean transit time delay>0 seconds). T2' values were significantly (P<0.01) lower in all perfusion-restricted compared with corresponding contralateral brain areas (ipsilateral versus contralateral). For time-to-peak delay >0 seconds, T2' values were 115 ms (±9) versus 125 ms (±12). For mean transit time delay>0 seconds, T2' values were 115 ms (±9) versus 128 ms (±10). Differences in T2' values increased with the severity of the perfusion delay. Ipsilateral T2' values outside the perfusion-disturbed areas did not differ from contralateral T2' values.

CONCLUSIONS

Motion-corrected T2' imaging presumably detects areas with increased oxygen extraction within perfusion-restricted tissue in patients with high-grade occlusive vessel disease.

摘要

背景与目的

定量 T2' 成像可能检测到氧合血红蛋白和去氧血红蛋白之间关系的区域性变化。血红蛋白氧合的区域性差异可能反映了氧气提取增加以补偿灌注压降低的区域。我们研究了高分级脑供应动脉狭窄患者的定量 T2' 成像，并假设与正常灌注组织相比，T2' 值在灌注受限区域较低。

方法

纳入 18 例单侧症状性或无症状性高分级颅外或颅内颈内动脉或大脑中动脉近端狭窄/闭塞的患者（15 例男性；平均年龄±标准差，54±12.8 岁）。MR 检查包括灌注加权成像和 T2'时间的定量、运动校正映射。时间峰值和平均通过时间图根据不同程度的灌注延迟（例如，>0 秒，≥2 秒）与对侧半球进行阈值化。在灌注受损区域的平均 T2'值与相应的对侧或同侧正常灌注区域的 T2'值进行比较。

结果

时间峰值图（时间峰值延迟>0 秒）中灌注受损区域的平均大小为 10.8 mL（±6.3），平均通过时间图（平均通过时间延迟>0 秒）中为 11.5 mL（±6.4）。所有灌注受限区域的 T2'值均显著低于相应的对侧脑区（同侧与对侧）（P<0.01）。对于时间峰值延迟>0 秒，T2'值为 115 ms（±9）与 125 ms（±12）。对于平均通过时间延迟>0 秒，T2'值为 115 ms（±9）与 128 ms（±10）。T2'值的差异随灌注延迟的严重程度而增加。在灌注障碍区域之外的同侧 T2'值与对侧 T2'值无差异。

结论

校正运动的 T2'成像可能检测到高分级闭塞性血管疾病患者灌注受限组织内氧气提取增加的区域。

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在高级闭塞性颈动脉疾病中，T2' 成像在灌注受限组织内。

T2' imaging within perfusion-restricted tissue in high-grade occlusive carotid disease.

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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