Lownie Stephen P, Larrazabal Ramiro, Kole Maximilian K
1Departments of Clinical Neurological Sciences and Medical Imaging,University of Western Ontario,London Health Sciences Centre,London OntarioCanada.
2Department of Radiology,McMaster University,Hamilton Health Sciences,Hamilton OntarioCanada.
Can J Neurol Sci. 2016 Jul;43(4):533-7. doi: 10.1017/cjn.2016.9. Epub 2016 Mar 31.
Impaired collateral circulation can lead to stroke during carotid endarterectomy. Carotid stump pressure (CSP) is used as a surrogate measure of collateral flow. The objective was to determine whether anatomical features obtained from digital subtraction angiography correlate with CSP during temporary internal carotid artery occlusion. The second objective was to use these features in combination to predict CSP.
Digital subtraction angiographies from 102 patients obtained before endarterectomy were reviewed for anatomical variables including: degree of ipsilateral and contralateral carotid artery stenosis; patency of the anterior communicating artery; presence of cross-flow into ipsilateral middle cerebral artery branches; and size (< or ≥1 mm calibre) of the ipsilateral proximal anterior cerebral (A1), the contralateral A1, and the ipsilateral posterior communicating arteries. At surgery, systemic mean arterial pressure (MAP) and CSP were recorded. Multiple regression analysis was used to assess for anatomical features significantly associated with CSP. A "predicted CSP" equation was applied to 54 subsequent patients and correlated with measured CSP.
Variables correlating with CSP included MAP (p=0.001); the presence of severe contralateral carotid stenosis (p=0.002); patency of the anterior communicating artery (p=0.013); and the size of the contralateral A1 segment (p=0.029). Angiographic cross-flow, ipsilateral A1 size, and ipsilateral posterior communicating artery size were not significant. Predicted CSP correlated significantly with measured CSP (p<0.0001; R 2=0.34).
Anatomical features and systemic MAP are associated with carotid stump pressure during internal carotid artery occlusion and account for a significant amount of its variation.
侧支循环受损可导致颈动脉内膜切除术中发生卒中。颈动脉残端压力(CSP)被用作侧支血流的替代指标。目的是确定数字减影血管造影获得的解剖学特征与临时阻断颈内动脉期间的CSP是否相关。第二个目的是综合使用这些特征来预测CSP。
回顾了102例患者在动脉内膜切除术前行数字减影血管造影的解剖学变量,包括:同侧和对侧颈动脉狭窄程度;前交通动脉的通畅情况;同侧大脑中动脉分支有无交叉血流;同侧近端大脑前动脉(A1段)、对侧A1段以及同侧后交通动脉的管径大小(<或≥1mm)。手术过程中,记录全身平均动脉压(MAP)和CSP。采用多元回归分析评估与CSP显著相关的解剖学特征。将“预测CSP”方程应用于随后的54例患者,并与实测CSP进行相关性分析。
与CSP相关的变量包括MAP(p = 0.001);对侧颈动脉严重狭窄(p = 0.002);前交通动脉通畅(p = 0.013);对侧A1段管径大小(p = 0.029)。血管造影显示的交叉血流、同侧A1段大小和同侧后交通动脉大小无显著相关性。预测CSP与实测CSP显著相关(p<0.0001;R² = 0.34)。
解剖学特征和全身MAP与颈内动脉阻断期间的颈动脉残端压力相关,并可解释其很大一部分变异性。
