1.Arterial Steal to the Penumbra Area in Patients with Acute MCA Occlusion: A Quantitative Angiographic Analysis
René VAN DEN BERG ; Jenna J. WILDEMAN ; Olvert A. BERKHEMER ; Rogier V. IMMINK ; Henk A. MARQUERING ; Charles B.L.M. MAJOIE ; Dagmar VERBAAN ; Ed T. VAN BAVEL
Neurointervention 2020;15(3):126-132
Purpose:
In acute middle cerebral artery (MCA) occlusion, collateral vessels provide retrograde supply to the occluded territory. We hypothesized that such collateral flow reduces perfusion of the non-occluded donor region (steal effect).
Materials and Methods:
Patients with an MCA occlusion with opacification of both ipsi- and contralateral anterior cerebral arteries (ACA) on angiography prior to endovascular treatment were selected. Arteriovenous transit time (AVTT) for both ACA territories was compared for different grades of collateral supply to the MCA territory. In addition, the influence of diabetes and hypertension was analyzed. After successful revascularization, AVTT was re-assessed to determine reversibility.
Results:
Forty-one patients were analyzed. An AVTT of 8.6 seconds (standard deviation [SD] 2.4 seconds) was seen in the ACA territory of the affected hemisphere in comparison to 6.6 seconds (SD 2.1 seconds) for the contralateral side (P<0.001). A more prolonged (but not significant) AVTT was seen in cases with a higher collateral grade. No difference in AVTT was seen in patients with diabetes or hypertension. After successful MCA revascularization, AVTT delay was 7.4 seconds (SD 2.1 seconds).
Conclusion
A cerebral steal effect occurs in patients with an acute MCA occlusion, probably related to augmented flow to the penumbra area.
2.External Validation of the ELAPSS Score for Prediction of Unruptured Intracranial Aneurysm Growth Risk
Mayte Sánchez VAN KAMMEN ; Jacoba P GREVING ; Satoshi KURODA ; Daina KASHIWAZAKI ; Akio MORITA ; Yoshiaki SHIOKAWA ; Toshikazu KIMURA ; Christophe COGNARD ; Anne C JANUEL ; Antti LINDGREN ; Timo KOIVISTO ; Juha E JÄÄSKELÄINEN ; Antti RONKAINEN ; Liisa PYYSALO ; Juha ÖHMAN ; Melissa RAHI ; Johanna KUHMONEN ; Jaakko RINNE ; Eva L LEEMANS ; Charles B MAJOIE ; W Peter VANDERTOP ; Dagmar VERBAAN ; Yvo B W E M ROOS ; René VAN DEN BERG ; Hieronymus D BOOGAARTS ; Walid MOUDROUS ; Ido R VAN DEN WIJNGAARD ; Laura ten HOVE ; Mario TEO ; Edward J ST GEORGE ; Katharina A M HACKENBERG ; Amr ABDULAZIM ; Nima ETMINAN ; Gabriël J E RINKEL ; Mervyn D I VERGOUWEN
Journal of Stroke 2019;21(3):340-346
BACKGROUND AND PURPOSE: Prediction of intracranial aneurysm growth risk can assist physicians in planning of follow-up imaging of conservatively managed unruptured intracranial aneurysms. We therefore aimed to externally validate the ELAPSS (Earlier subarachnoid hemorrhage, aneurysm Location, Age, Population, aneurysm Size and Shape) score for prediction of the risk of unruptured intracranial aneurysm growth. METHODS: From 11 international cohorts of patients ≥18 years with ≥1 unruptured intracranial aneurysm and ≥6 months of radiological follow-up, we collected data on the predictors of the ELAPSS score, and calculated 3- and 5-year absolute growth risks according to the score. Model performance was assessed in terms of calibration (predicted versus observed risk) and discrimination (c-statistic). RESULTS: We included 1,072 patients with a total of 1,452 aneurysms. During 4,268 aneurysm-years of follow-up, 199 (14%) aneurysms enlarged. Calibration was comparable to that of the development cohort with the overall observed risks within the range of the expected risks. The c-statistic was 0.69 (95% confidence interval [CI], 0.64 to 0.73) at 3 years, compared to 0.72 (95% CI, 0.68 to 0.76) in the development cohort. At 5 years, the c-statistic was 0.68 (95% CI, 0.64 to 0.72), compared to 0.72 (95% CI, 0.68 to 0.75) in the development cohort. CONCLUSIONS: The ELAPSS score showed accurate calibration for 3- and 5-year risks of aneurysm growth and modest discrimination in our external validation cohort. This indicates that the score is externally valid and could assist patients and physicians in predicting growth of unruptured intracranial aneurysms and plan follow-up imaging accordingly.
Aneurysm
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Calibration
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Cohort Studies
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Discrimination (Psychology)
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Follow-Up Studies
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Humans
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Intracranial Aneurysm
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Risk Factors
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Subarachnoid Hemorrhage