Arsava Ethem M, Hansen Mikkel B, Kaplan Berkan, Peker Ahmet, Gocmen Rahsan, Arat Anil, Oguz Kader K, Topcuoglu Mehmet A, Østergaard Leif, Dalkara Turgay
Department of Neurology, Faculty of Medicine, Hacettepe University, Turkey.
Department of Clinical Medicine, Center of Functionally Integrative Neuroscience, Aarhus University, Denmark.
Eur Stroke J. 2018 Sep;3(3):263-271. doi: 10.1177/2396987318772686. Epub 2018 Apr 26.
Carotid revascularisation improves haemodynamic compromise in cerebral circulation as an additional benefit to the primary goal of reducing future thromboembolic risk. We determined the effect of carotid artery stenting on cerebral perfusion and oxygenation using a perfusion-weighted MRI algorithm that is based on assessment of capillary transit-time heterogeneity together with other perfusion and metabolism-related metrics.
A consecutive series of 33 patients were evaluated by dynamic susceptibility contrast perfusion-weighted MRI prior to and within 24 h of the endovascular procedure. The level of relative change induced by stenting, and relationship of these changes with respect to baseline stenosis degree were analysed.
Stenting led to significant increase in cerebral blood flow ( < 0.001), and decrease in cerebral blood volume ( = 0.001) and mean transit time ( < 0.001); this was accompanied by reduction in oxygen extraction fraction ( < 0.001) and capillary transit-time heterogeneity ( < 0.001), but an overall increase in relative capillary transit-time heterogeneity (RTH: CTH divided by MTT; = 0.008). No significant change was observed with respect to cerebral metabolic rate of oxygen. The median volume of tissue with MTT > 2s decreased from 24 ml to 12 ml ( = 0.009), with CTH > 2s from 29 ml to 19 ml ( = 0.041), and with RTH < 0.9 from 61 ml to 39 ml ( = 0.037) following stenting. These changes were correlated with the baseline degree of stenosis. Stenting improved the moderate stage of haemodynamic compromise at baseline in our cohort. The decreased relative transit-time heterogeneity, which increases following stenting, is probably a reflection of decreased functional capillary density secondary to chronic hypoperfusion induced by the proximal stenosis. Carotid artery stenting, is not only important for prophylaxis of future vascular events, but also is critical for restoration of microvascular function in the cerebral tissue.
颈动脉血运重建可改善脑循环中的血流动力学障碍,这是降低未来血栓栓塞风险这一主要目标之外的额外益处。我们使用一种基于毛细血管通过时间异质性评估以及其他灌注和代谢相关指标的灌注加权MRI算法,确定了颈动脉支架置入术对脑灌注和氧合的影响。
对33例连续患者在血管内介入治疗前及治疗后24小时内进行了动态磁敏感对比灌注加权MRI评估。分析了支架置入引起的相对变化水平,以及这些变化与基线狭窄程度的关系。
支架置入导致脑血流量显著增加(<0.001),脑血容量减少(=0.001),平均通过时间缩短(<0.001);同时氧摄取分数降低(<0.001),毛细血管通过时间异质性降低(<0.001),但相对毛细血管通过时间异质性总体增加(RTH:CTH除以MTT;=0.008)。脑氧代谢率未见显著变化。支架置入后,MTT>2秒的组织中位数体积从24毫升降至12毫升(=0.009),CTH>2秒的组织中位数体积从29毫升降至19毫升(=0.041),RTH<0.9的组织中位数体积从61毫升降至39毫升(=0.037)。这些变化与基线狭窄程度相关。在我们的队列中,支架置入改善了基线时的中度血流动力学障碍阶段。支架置入后增加的相对通过时间异质性降低,可能反映了近端狭窄引起的慢性低灌注继发的功能性毛细血管密度降低。颈动脉支架置入术不仅对预防未来血管事件很重要,而且对恢复脑组织的微血管功能也至关重要。