腿部反应性充血期间灌注、静脉血氧饱和度和骨骼肌 T2* 的联合测量。

Combined measurement of perfusion, venous oxygen saturation, and skeletal muscle T2* during reactive hyperemia in the leg.

机构信息

Department of Radiology, Laboratory of Structural NMR Imaging, University of Pennsylvania Medical Center, 3400 Spruce Street, Philadelphia, PA 19104, USA.

出版信息

J Cardiovasc Magn Reson. 2013 Aug 19;15(1):70. doi: 10.1186/1532-429X-15-70.

DOI:10.1186/1532-429X-15-70

PMID:23958293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3765712/

Abstract

BACKGROUND

The function of the peripheral microvascular may be interrogated by measuring perfusion, tissue oxygen concentration, or venous oxygen saturation (SvO2) recovery dynamics following induced ischemia. The purpose of this work is to develop and evaluate a magnetic resonance (MR) technique for simultaneous measurement of perfusion, SvO2, and skeletal muscle T2*.

METHODS

Perfusion, Intravascular Venous Oxygen saturation, and T2* (PIVOT) is comprised of interleaved pulsed arterial spin labeling (PASL) and multi-echo gradient-recalled echo (GRE) sequences. During the PASL post-labeling delay, images are acquired with a multi-echo GRE to quantify SvO2 and T2* at a downstream slice location. Thus time-courses of perfusion, SvO2, and T2* are quantified simultaneously within a single scan. The new sequence was compared to separately measured PASL or multi-echo GRE data during reactive hyperemia in five young healthy subjects. To explore the impairment present in peripheral artery disease patients, five patients were evaluated with PIVOT.

RESULTS

Comparison of PIVOT-derived data to the standard techniques shows that there was no significant bias in any of the time-course-derived metrics. Preliminary data show that PAD patients exhibited alterations in perfusion, SvO2, and T2* time-courses compared to young healthy subjects.

CONCLUSION

Simultaneous quantification of perfusion, SvO2, and T2* is possible with PIVOT. Kinetics of perfusion, SvO2, and T2* during reactive hyperemia may help to provide insight into the function of the peripheral microvasculature in patients with PAD.

摘要

背景

外周微血管的功能可以通过测量灌注、组织氧浓度或静脉血氧饱和度（SvO2）在诱导缺血后的恢复动力学来检测。本研究的目的是开发和评估一种磁共振（MR）技术，用于同时测量灌注、SvO2 和骨骼肌 T2*。

方法

灌注、血管内静脉血氧饱和度和 T2*（PIVOT）由交替的脉冲动脉自旋标记（PASL）和多回波梯度回波（GRE）序列组成。在 PASL 后标记延迟期间，使用多回波 GRE 采集图像，以在下游切片位置量化 SvO2 和 T2*。因此，在单次扫描中同时定量灌注、SvO2 和 T2*的时间过程。新序列在 5 名年轻健康受试者的反应性充血期间与单独测量的 PASL 或多回波 GRE 数据进行了比较。为了探索外周动脉疾病患者的损伤情况，对 5 名 PIVOT 患者进行了评估。

结果

将 PIVOT 衍生数据与标准技术进行比较表明，任何时间过程衍生指标都没有显著偏差。初步数据表明，与年轻健康受试者相比，PAD 患者的灌注、SvO2 和 T2*时间过程发生了改变。

结论

PIVOT 可同时定量灌注、SvO2 和 T2*。反应性充血期间灌注、SvO2 和 T2*的动力学可能有助于深入了解 PAD 患者外周微血管的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9220/3765712/6c113327a210/1532-429X-15-70-1.jpg

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腿部反应性充血期间灌注、静脉血氧饱和度和骨骼肌 T2* 的联合测量。

Combined measurement of perfusion, venous oxygen saturation, and skeletal muscle T2* during reactive hyperemia in the leg.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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