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外周动脉疾病中血管功能的多参数评估:骨骼肌灌注、血氧水平依赖信号和静脉血氧饱和度的动态测量。

Multiparametric assessment of vascular function in peripheral artery disease: dynamic measurement of skeletal muscle perfusion, blood-oxygen-level dependent signal, and venous oxygen saturation.

作者信息

Englund Erin K, Langham Michael C, Ratcliffe Sarah J, Fanning Molly J, Wehrli Felix W, Mohler Emile R, Floyd Thomas F

机构信息

From the Department of Bioengineering (E.K.E.), Department of Radiology (M.C.L., F.W.W.), Department of Biostatistics & Epidemiology (S.J.R.), Department of Medicine (E.R.M.), University of Pennsylvania, Philadelphia; and Department of Anesthesiology, Stony Brook University, NY (T.F.F.).

出版信息

Circ Cardiovasc Imaging. 2015 Apr;8(4). doi: 10.1161/CIRCIMAGING.114.002673.

DOI:10.1161/CIRCIMAGING.114.002673
PMID:25873722
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4399002/
Abstract

BACKGROUND

Endothelial dysfunction present in patients with peripheral artery disease may be better understood by measuring the temporal dynamics of blood flow and oxygen saturation during reactive hyperemia than by conventional static measurements.

METHODS AND RESULTS

Perfusion, Intravascular Venous Oxygen saturation, and T2* (PIVOT), a recently developed MRI technique, was used to measure the response to an ischemia-reperfusion paradigm in 96 patients with peripheral artery disease of varying severity and 10 healthy controls. Perfusion, venous oxygen saturation SvO2, and T2* were each quantified in the calf at 2-s temporal resolution, yielding a dynamic time course for each variable. Compared with healthy controls, patients had a blunted and delayed hyperemic response. Moreover, patients with lower ankle-brachial index had (1) a more delayed reactive hyperemia response time, manifesting as an increase in time to peak perfusion in the gastrocnemius, soleus, and peroneus muscles, and in the anterior compartment, (2) an increase in the time to peak T2* measured in the soleus muscle, and (3) a prolongation of the posterior tibial vein SvO2 washout time. Intrasession and intersession repeatability were also assessed. Results indicated that time to peak perfusion and time to peak T2* were the most reliable extracted time course metrics.

CONCLUSIONS

Perfusion, dynamic SvO2, and T2* response times after induced ischemia are highly correlated with peripheral artery disease severity. Combined imaging of peripheral microvascular blood flow and dynamics of oxygen saturation with Perfusion, intravascular SvO2, and T2* may be a useful tool to investigate the pathophysiology of peripheral artery disease.

摘要

背景

通过测量反应性充血期间血流和氧饱和度的时间动态变化,可能比传统的静态测量方法能更好地理解外周动脉疾病患者存在的内皮功能障碍。

方法和结果

灌注、血管内静脉血氧饱和度和T2*(PIVOT),一种最近开发的MRI技术,用于测量96例不同严重程度外周动脉疾病患者和10名健康对照对缺血-再灌注模式的反应。以2秒的时间分辨率对小腿的灌注、静脉血氧饱和度SvO2和T2进行量化,得出每个变量的动态时间过程。与健康对照相比,患者的充血反应减弱且延迟。此外,踝肱指数较低的患者有:(1)反应性充血反应时间更延迟,表现为腓肠肌、比目鱼肌和腓骨肌以及前间隔灌注峰值时间增加;(2)比目鱼肌测量的T2峰值时间增加;(3)胫后静脉SvO2清除时间延长。还评估了组内和组间的重复性。结果表明,灌注峰值时间和T2*峰值时间是最可靠的提取时间过程指标。

结论

诱导缺血后的灌注、动态SvO2和T2反应时间与外周动脉疾病严重程度高度相关。结合外周微血管血流成像和氧饱和度动态变化,利用灌注、血管内SvO2和T2可能是研究外周动脉疾病病理生理学的有用工具。

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