We present a description of a successful recanalization of an intracranial vessel occlusion by stent retriever-based mechanical thrombectomy with a proximal balloon guide catheter introduced via a transradial access. Therefore, we used the radial artery itself as a natural sheath, as the introduction of a balloon guide catheter would not have been possible through a common radial sheath.
PowersWJRabinsteinAAAckersonT, et al. 2018 guidelines for the early management of patients with acute ischemic stroke: A guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke2018; 49: e46–110.
2.
ZaidatOOCastonguayACLinfanteI, et al. First pass effect: A new measure for stroke thrombectomy devices. Stroke2018; 49: 660–666.
3.
Maus V, Henkel S, Riabikin A, et al. The SAVE technique: Large-scale experience for treatment of intracranial large vessel occlusions. Clin Neuroradiol. Epub ahead of print 19 July 2018. DOI: 10.1007/s00062-018-0702-4.
4.
OstojićZBulumJErnstA, et al. Frequency of radial artery anatomic variations in patients undergoing transradial heart catheterization. Acta Clin Croat2015; 54: 65–72.
5.
Chen SH, Snelling BM, Sur S, et al. Transradial versus transfemoral access for anterior circulation mechanical thrombectomy: Comparison of technical and clinical outcomes. J Neurointerv Surg. Epub ahead of print 22 January 2019. DOI: 10.1136/neurintsurg-2018-014485.
6.
TröbsMAchenbachSPlankPM, et al. Predictors of technical failure in transradial coronary angiography and intervention. Am J Cardiol2017; 120: 1508–1513.
7.
OkuyanHHzalFTaçoyG, et al. Angiographic evaluation of the radial artery diameter in patients who underwent coronary angiography or coronary intervention. J Invasive Cardiol2013; 25: 353–357.
