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Clinical outcomes of transcarotid artery revascularization vs carotid endarterectomy from a large single-center experience.
Journal of Vascular Surgery 2024 Februrary 6
BACKGROUND: Transcarotid artery revascularization (TCAR) has been practiced as an alternative for both carotid endarterectomy (CEA) and transfemoral carotid artery stenting, specifically in high-risk patients. More recently, the Centers for Medicare and Medicaid Services expanded coverage for TCAR in standard surgical risk patients if done within the Society for Vascular Surgery Vascular Quality Initiative TCAR surveillance project. A few registry studies (primarily from the Society for Vascular Surgery Vascular Quality Initiative) compared the early and up to 1-year outcomes of TCAR vs CEA or transfemoral carotid artery stenting. There is no large single-center study that reported late clinical outcomes. The present study compares intermediate clinical outcomes of TCAR vs CEA.
METHODS: This study retrospectively analyzed collected data from TCAR surveillance project patients enrolled in our institution and compare it with CEA patients done by the same providers at the same time period. The primary outcome was combined perioperative stroke/death and late stroke/death. Secondary outcomes included combined stroke, death, and myocardial infarction, cranial nerve injury (CNI), and bleeding. Propensity matching was done to analyze outcome. Kaplan-Meier analysis was used to estimate freedom from stroke, stroke/death, and ≥50% and ≥80% restenosis.
RESULTS: We analyzed 646 procedures (637 patients) (404 CEA, 242 TCAR). There was no significant difference in the indications for carotid intervention. However, TCAR patients had more high-risk criteria, including hypertension, coronary artery disease, congestive heart failure, and renal failure. There was no significant differences between CEA vs TCAR in 30-day perioperative stroke (1% vs 2%), stroke/death rate (1% vs 3%; P = .0849), or major hematomas (2% vs 2%). The rate of CNI was significantly different (5% for CEA vs 1% for TCAR; P = .0138). At late follow-up (2 years), the rate of stroke was 1% vs 4% (P = .0273), stroke/death 8% vs 15% (P = .008), ≥80 % restenosis 0.5% vs 3% (P = .0139) for CEA patients vs TCAR patients, respectively. After matching 242 CEAs and 242 TCARs, the perioperative stroke rate was 1% for CEA vs 2% for TCAR (P = .5037), the stroke/death rate was 2% vs 3% (P = .2423), and the CNI rate was 3% vs 1% (P = .127). At late follow-up, rates of stroke were 1% for CEA vs 4% for TCAR (P = .0615) and stroke/death were 8% vs 15% (P = .0345). The rate of ≥80% restenosis was 0.9% for CEA vs 3% for TCAR (P = .099). The rates of freedom from stroke at 6, 12, 18, and 24 months for CEA vs TCAR were 99%, 99%, 99%, and 99% vs 97%, 95%, 93% and 93%, respectively (P = .0806); stroke/death were 94%, 90%, 87%, and 86% vs 93%, 87%, 76%, and 75%, respectively (P = .0529); and ≥80% restenosis were 100%, 99%, 98%, and 98% vs 97%, 95%, 93%, and 93%, respectively (P = .1132).
CONCLUSIONS: In a propensity-matched analysis, both CEA and TCAR have similar perioperative clinical outcomes. However, CEA was superior to TCAR for the rates of late stroke/death and had a somewhat lower rate of ≥80% restenosis at 2 years, but this difference was not statistically significant.
METHODS: This study retrospectively analyzed collected data from TCAR surveillance project patients enrolled in our institution and compare it with CEA patients done by the same providers at the same time period. The primary outcome was combined perioperative stroke/death and late stroke/death. Secondary outcomes included combined stroke, death, and myocardial infarction, cranial nerve injury (CNI), and bleeding. Propensity matching was done to analyze outcome. Kaplan-Meier analysis was used to estimate freedom from stroke, stroke/death, and ≥50% and ≥80% restenosis.
RESULTS: We analyzed 646 procedures (637 patients) (404 CEA, 242 TCAR). There was no significant difference in the indications for carotid intervention. However, TCAR patients had more high-risk criteria, including hypertension, coronary artery disease, congestive heart failure, and renal failure. There was no significant differences between CEA vs TCAR in 30-day perioperative stroke (1% vs 2%), stroke/death rate (1% vs 3%; P = .0849), or major hematomas (2% vs 2%). The rate of CNI was significantly different (5% for CEA vs 1% for TCAR; P = .0138). At late follow-up (2 years), the rate of stroke was 1% vs 4% (P = .0273), stroke/death 8% vs 15% (P = .008), ≥80 % restenosis 0.5% vs 3% (P = .0139) for CEA patients vs TCAR patients, respectively. After matching 242 CEAs and 242 TCARs, the perioperative stroke rate was 1% for CEA vs 2% for TCAR (P = .5037), the stroke/death rate was 2% vs 3% (P = .2423), and the CNI rate was 3% vs 1% (P = .127). At late follow-up, rates of stroke were 1% for CEA vs 4% for TCAR (P = .0615) and stroke/death were 8% vs 15% (P = .0345). The rate of ≥80% restenosis was 0.9% for CEA vs 3% for TCAR (P = .099). The rates of freedom from stroke at 6, 12, 18, and 24 months for CEA vs TCAR were 99%, 99%, 99%, and 99% vs 97%, 95%, 93% and 93%, respectively (P = .0806); stroke/death were 94%, 90%, 87%, and 86% vs 93%, 87%, 76%, and 75%, respectively (P = .0529); and ≥80% restenosis were 100%, 99%, 98%, and 98% vs 97%, 95%, 93%, and 93%, respectively (P = .1132).
CONCLUSIONS: In a propensity-matched analysis, both CEA and TCAR have similar perioperative clinical outcomes. However, CEA was superior to TCAR for the rates of late stroke/death and had a somewhat lower rate of ≥80% restenosis at 2 years, but this difference was not statistically significant.
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