Radial Vs. Femoral Artery Access for Procedural Success in Diagnostic Cerebral Angiography : A Randomized Clinical Trial

Overview

Journal Clin Neuroradiol

Specialties Neurology
Radiology

Date 2020 Dec 29

PMID 33373017

Citations 6

Authors

Kartik Bhatia

William Guest

Hubert Lee

Jesse Klostranec

Hans Kortman

Emanuele Orru

Ayman Qureshi

Alexander Kostynskyy

Ronit Agid

Richard Farb

Ivan Radovanovic

Patrick Nicholson

Timo Krings

Vitor Mendes Pereira

Affiliations

Soon will be listed here.

Abstract

Background And Purpose: Radial artery access has become the standard of care in percutaneous coronary procedures due to demonstrated patient safety and comfort benefits; however, uptake of radial access for diagnostic cerebral angiography has been limited by practitioner concerns over the ability to achieve procedural success. We aimed to provide randomized clinical trial evidence for the non-inferiority of radial access to achieve procedural success.

Material And Methods: Monocentric open label randomized controlled trial with a non-inferiority design and blinded primary outcome assessment. Adult patients referred in-hours for diagnostic cerebral angiography were eligible. Participants underwent permuted block randomization to radial or femoral artery access with an intention-to-treat analysis. The primary outcome was procedural success, defined as selective cannulation and/or diagnostic angiography of predetermined supra-aortic vessels of interest. The non-inferiority limit was 10.0%. Secondary outcomes included postprocedural complications, fluoroscopy and procedural times, radiation dose, contrast volume and rates of vertebral artery cannulation.

Results: A total of 80 participants were enrolled (female 42, male 38, mean age 47.0 years, radial access group n = 43, femoral n = 37). One patient in the radial group was excluded after enrollment due to insufficient sonographic radial artery internal diameter. Procedural success was achieved in 41 of 42 participants in the radial group (97.6%) and 36 of 37 in the femoral group (97.3%). The difference between groups was -0.3% (one-sided 95% confidence interval, CI 6.7%) and the null hypothesis was rejected.

Conclusion: Radial artery access is non-inferior to femoral artery access for procedural success in cerebral angiography. A large multicenter trial is recommended as the next step.

Citing Articles

Distal radial access for neuroangiography and neurointerventions: systematic review and meta-analysis.

Wang J, Ma L, Cai H, Zeng H, Pei F, Cao J BMC Neurol. 2023; 23(1):405.

PMID: 37968640 PMC: 10648363. DOI: 10.1186/s12883-023-03416-y.

Safety Aspects and Procedural Characteristics of Ambulatory Diagnostic Cerebral Catheter Angiography.

Behrens L, Adam A, Rubeck A, Schiele S, Muller G, Abrishami Y Clin Neuroradiol. 2023; 34(1):155-162.

PMID: 37712974 PMC: 10881604. DOI: 10.1007/s00062-023-01345-4.

Predicting difficult transradial approach guiding into left internal carotid artery on unruptured intracranial aneurysms.

Fuga M, Tanaka T, Tachi R, Tomoto K, Wachi R, Teshigawara A Surg Neurol Int. 2023; 14:233.

PMID: 37560592 PMC: 10408647. DOI: 10.25259/SNI_355_2023.

Rate of periprocedural stroke in diagnostic cerebral angiograms comparing transradial versus transfemoral access.

Kuhn A, Puri A, de Macedo Rodrigues K, Massari F, Singh J Interv Neuroradiol. 2022; 30(5):679-682.

PMID: 36451543 PMC: 11569464. DOI: 10.1177/15910199221142653.

Complications and risk factors after digital subtraction angiography: 1-year single-center study.

Nam H, Jang D, Cho B J Cerebrovasc Endovasc Neurosurg. 2022; 24(4):335-340.

PMID: 36153862 PMC: 9829562. DOI: 10.7461/jcen.2022.E2022.05.001.

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