T2*-加权磁共振成像联合高氧治疗急性缺血性脑卒中。

T2*-weighted magnetic resonance imaging with hyperoxia in acute ischemic stroke.

机构信息

Division of Clinical Neurosciences, University of Glasgow, Institute of Neurological Sciences, Southern General Hospital, Glasgow, UK.

出版信息

Ann Neurol. 2010 Jul;68(1):37-47. doi: 10.1002/ana.22032.

DOI:10.1002/ana.22032

PMID:20582987

Abstract

OBJECTIVE

We describe the first clinical application of transient hyperoxia ("oxygen challenge") during T2*-weighted magnetic resonance imaging (MRI), to detect differences in vascular deoxyhemoglobin between tissue compartments following stroke.

METHODS

Subjects with acute ischemic stroke were scanned with T2*-weighted MRI and oxygen challenge. For regions defined as infarct core (diffusion-weighted imaging lesion) and presumed penumbra (perfusion-diffusion mismatch [threshold = T(max) > or =4 seconds], or regions exhibiting diffusion lesion expansion at day 3), T2*-weighted signal intensity-time curves corresponding to the duration of oxygen challenge were generated. From these, the area under the curve, gradient of incline of the signal increase, time to maximum signal, and percentage signal change after oxygen challenge were measured.

RESULTS

We identified 25 subjects with stroke lesions >1ml. Eighteen subjects with good quality T2*-weighted signal intensity-time curves in the contralateral hemisphere were analyzed. Curves from the diffusion lesion had a smaller area under the curve, percentage signal change, and gradient of incline, and longer time to maximum signal (p < 0.05, n = 17) compared to normal tissue, which consistently showed signal increase during oxygen challenge. Curves in the presumed penumbral regions (n = 8) showed varied morphology, but at hyperacute time points (<8 hours) showed a tendency to greater percentage signal change.

INTERPRETATION

Differences in T2*-weighted signal intensity-time curves during oxygen challenge in brain regions with different pathophysiological states after stroke are likely to reflect differences in deoxyhemoglobin concentration, and therefore differences in metabolic activity. Despite its underlying complexities, this technique offers a possible novel mode of metabolic imaging in acute stroke.

摘要

目的

我们描述了 T2*-加权磁共振成像（MRI）期间短暂性高氧（“氧挑战”）的首次临床应用，以检测卒中后组织隔室之间血管去氧血红蛋白的差异。

方法

对急性缺血性卒中患者进行 T2*-加权 MRI 和氧挑战扫描。对于定义为梗死核心（弥散加权成像病变）和假定的半影区（灌注-弥散不匹配[阈值 = T(max)≥4 秒]，或在第 3 天出现弥散病变扩展的区域）的区域，生成与氧挑战持续时间相对应的 T2*-加权信号强度时间曲线。从这些曲线上，测量曲线下面积、信号增加斜率的梯度、达到最大信号的时间以及氧挑战后的信号变化百分比。

结果

我们确定了 25 名卒中病变>1ml 的患者。对 18 名对侧半球具有良好质量 T2*-加权信号强度时间曲线的患者进行了分析。与正常组织相比，弥散病变的曲线下面积、信号变化百分比和斜率较小，达到最大信号的时间较长（p<0.05，n=17），正常组织在氧挑战期间始终显示信号增加。假定的半影区（n=8）的曲线显示出不同的形态，但在超急性时间点（<8 小时）显示出更大的信号变化百分比的趋势。

解释

卒中后不同病理生理状态的脑区在氧挑战期间 T2*-加权信号强度时间曲线的差异可能反映了去氧血红蛋白浓度的差异，因此也反映了代谢活性的差异。尽管存在潜在的复杂性，但该技术为急性卒中提供了一种可能的新型代谢成像模式。

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T2*-加权磁共振成像联合高氧治疗急性缺血性脑卒中。

T2*-weighted magnetic resonance imaging with hyperoxia in acute ischemic stroke.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

解释

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