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Semiautomated detection of cerebral microbleeds in magnetic resonance images.磁共振成像中脑微出血的半自动检测。
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Signal changes in the brain on susceptibility-weighted imaging under reduced cerebral blood flow: a preliminary study.在脑血流量减少的情况下,磁共振磁敏感加权成像的脑信号变化:初步研究。
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Investigations on the effect of caffeine on cerebral venous vessel contrast by using susceptibility-weighted imaging (SWI) at 1.5, 3 and 7 T.利用1.5T、3T和7T场强的磁共振成像易感加权序列(SWI)研究咖啡因对脑静脉血管造影的影响。
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成像自主呼吸暂停和过度通气时血氧饱和度变化对磁敏感加权成像的影响。

Imaging the effects of oxygen saturation changes in voluntary apnea and hyperventilation on susceptibility-weighted imaging.

作者信息

Chang K, Barnes S, Haacke E M, Grossman R I, Ge Y

机构信息

From the Department of Radiology (K.C., R.I.G., Y.G.), Center for Biomedical Imaging, New York University School of Medicine, New York, New York.

Division of Biology (S.B.), Caltech, Pasadena, California.

出版信息

AJNR Am J Neuroradiol. 2014 Jun;35(6):1091-5. doi: 10.3174/ajnr.A3818. Epub 2013 Dec 26.

DOI:10.3174/ajnr.A3818
PMID:24371029
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4057294/
Abstract

BACKGROUND AND PURPOSE

Cerebrovascular oxygenation changes during respiratory challenges have clinically important implications for brain function, including cerebral autoregulation and the rate of brain metabolism. SWI is sensitive to venous oxygenation level by exploitation of the magnetic susceptibility of deoxygenated blood. We assessed cerebral venous blood oxygenation changes during simple voluntary breath-holding (apnea) and hyperventilation by use of SWI at 3T.

MATERIALS AND METHODS

We performed SWI scans (3T; acquisition time of 1 minute, 28 seconds; centered on the anterior commissure and the posterior commissure) on 10 healthy male volunteers during baseline breathing as well as during simple voluntary hyperventilation and apnea challenges. The hyperventilation and apnea tasks were separated by a 5-minute resting period. SWI venograms were generated, and the signal changes on SWI before and after the respiratory stress tasks were compared by means of a paired Student t test.

RESULTS

Changes in venous vasculature visibility caused by the respiratory challenges were directly visualized on the SWI venograms. The venogram segmentation results showed that voluntary apnea decreased the mean venous blood voxel number by 1.6% (P < .0001), and hyperventilation increased the mean venous blood voxel number by 2.7% (P < .0001). These results can be explained by blood CO2 changes secondary to the respiratory challenges, which can alter cerebrovascular tone and cerebral blood flow and ultimately affect venous oxygen levels.

CONCLUSIONS

These results highlight the sensitivity of SWI to simple and noninvasive respiratory challenges and its potential utility in assessing cerebral hemodynamics and vasomotor responses.

摘要

背景与目的

呼吸挑战期间脑血管氧合变化对脑功能具有重要临床意义,包括脑自动调节和脑代谢率。磁敏感加权成像(SWI)通过利用脱氧血液的磁敏感性,对静脉氧合水平敏感。我们使用3T场强的SWI评估了简单的自主屏气(呼吸暂停)和过度通气期间脑静脉血氧合变化。

材料与方法

我们对10名健康男性志愿者在基线呼吸以及简单的自主过度通气和屏气挑战期间进行了SWI扫描(3T场强;采集时间1分28秒;以前连合和后连合为中心)。过度通气和屏气任务之间间隔5分钟的休息期。生成SWI静脉造影图像,并通过配对t检验比较呼吸应激任务前后SWI上的信号变化。

结果

呼吸挑战引起的静脉血管可见性变化在SWI静脉造影图像上直接可见。静脉造影分割结果显示,自主屏气使平均静脉血体素数量减少1.6%(P <.0001),过度通气使平均静脉血体素数量增加2.7%(P <.0001)。这些结果可以通过呼吸挑战继发的血液二氧化碳变化来解释,这种变化可改变脑血管张力和脑血流量,并最终影响静脉氧水平。

结论

这些结果突出了SWI对简单且无创的呼吸挑战的敏感性及其在评估脑血流动力学和血管舒缩反应方面的潜在效用。