Occlusive disease of the common carotid and subclavian arteries treated by carotid-subclavian bypass: Analysis of 125 cases☆,☆☆
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Cited by (139)
Safety and durability of concomitant carotid endarterectomy with carotid-subclavian bypass grafting
2021, Journal of Vascular SurgeryA Meta-Analysis of Transfemoral Endovascular Treatment of Common Carotid Artery Lesions
2019, World NeurosurgeryOpen reconstructions for symptomatic atherosclerotic lesions of the supra-aortic vessels: Thirty years results from two university hospitals
2015, Annals of Vascular SurgeryCitation Excerpt :The first series of brachiocephalic vessel reconstructions via a transthoracic approach were reported by Davis et al.2 and DeBakey et al.3 Although the therapeutic efficacy was satisfactory, the initial operative mortality rates of subsequent series ranged from 3% to 22%.4,5 In 1967, Diethrich et al.6 reported the first carotid–subclavian bypass (CSBP), with an operative mortality rate of 4.8% and complete symptom resolution in 93% of 125 patients. During the last 15 years, the percutaneous transluminal angioplasty (PTA) techniques have been applied to the supra-aortic vessels as well.
Contemporary comparison of supra-aortic trunk surgical reconstructions for occlusive disease
2014, Journal of Vascular SurgeryMidterm outcomes of carotid-to-carotid bypass for hybrid treatment of aortic arch disease
2014, Annals of Vascular SurgeryCitation Excerpt :Considering these results and the perceived less invasive nature of TEVAR, this may be indicative of our patients’ high operative risk as predicted by preoperative risk scores. Most of the literature has focused on supra-aortic reconstruction for occlusive disease, reporting satisfactory mid- to long-term results.26,27 The most recent series was published by Ozsvath et al.,28 who described 24 cases of CCB with primary patency of 88% at 3 years and a stroke-free survival rate of 94% at 4 years.
Subclavian revascularization in the age of thoracic endovascular aortic repair and comparison of outcomes in patients with occlusive disease
2013, Journal of Vascular SurgeryCitation Excerpt :Significant subclavian artery OD (≥15 mm Hg inter-arm pressure difference) is estimated to be present in 2% to 7% of the general population; however, the true prevalence is not known because most lesions are found incidentally in asymptomatic patients.17-19 Historically, direct repair of subclavian OD was performed through a thoracotomy,1,3 but the high morbidity and mortality of this approach led to increased adoption of extra-anatomic bypass methods, including carotid-subclavian, axilloaxillary bypass, and carotid-ST.4,5,7 Indeed, C-SBP/ST quickly supplanted virtually all direct or alternative extra-anatomic (eg axilloaxillary or femoroaxillary bypass) strategies for open surgical reconstruction of subclavian OD after multiple reports documented low 30-day major morbidity (2%-15%) and mortality (0%-2%) as well as excellent 5-year primary patency (82%-95%).4,5,10,18,20 The outcomes after C-SBP/ST have most commonly been described in the context of an isolated subclavian revascularization without adjunctive procedures.
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This work was supported in part by U.S.P.H.S. Grants No. HE-05435 and GRS-P-6714.
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Presented at the Nineteenth Annual Meeting of the Southwestern Surgical Congress, Phoenix, Arizona, April 10–13, 1967.
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From the Cora and Webb Mading Department of Surgery, Baylor University College of Medicine, Houston, Texas.