Browsing by Subject "Transcarotid artery revascularization"
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Item Balloon dilation strategy does not affect outcomes for transcarotid artery revascularization in prospective trials(Elsevier, 2022) Thomas, Jones P.; Kumins, Norman H.; Schneider , Peter A.; Kwolek , Christopher J.; Malas , Mahmoud B.; Schermerhorn, Marc L.; Patel , Avkash J.; Motaganahalli, Raghu L.; Stoner , Michael C.; Cambria, Richard P.; Kashyap , Vikram S.; Surgery, School of MedicineObjectives: Strategies of balloon dilation during transfemoral carotid artery stenting include prestent dilation only (PRE), post-stent dilation only (POST), or both predilation and postdilation (PRE+POST). Concerns over higher neurological risk have been raised with POST and PRE+POST during transfemoral carotid artery stenting. Whether these concerns are applicable to transcarotid artery revascularization (TCAR), which uses proximal clamping and cerebral blood flow reversal during stent deployment and balloon angioplasty remains unknown. Our aim is to analyze outcomes of PRE, POST, or PRE+POST balloon dilation strategies during TCAR. Methods: We analyzed the prospectively collected data from the ROADSTER1 (pivotal), ROADSTER2 (US Food and Drug Administration indicated postmarket), and ROADSTER Extended Access TCAR trials. All trial patients had a high risk anatomic or clinical factors for carotid endarterectomy and were included, unless they did not undergo stent deployment or balloon dilation. For trial inclusion, asymptomatic patients had a carotid stenosis of more than 80%, and symptomatic patients had stenosis of more than 50%. Primary outcome measures were stroke, death, and myocardial infarction (MI) at 30 days. Data were statistically analyzed with χ2, analysis of variance, and multivariable analysis, as appropriate. Results: There were 851 patients (566 male) who underwent dilation by PRE (n = 216), POST (n = 249), or PRE+POST (n = 386). Patients had carotid stenosis of greater than 70% (n = 828, 97%), and 207 (24%) were symptomatic. Flow reversal times were longer in the PRE+POST group (PRE 10.2 minutes, POST 9.8 minutes, and PRE+POST 13.3 minutes; P < .001). The 30-day stroke rate for the whole cohort was 1.9%, mortality was 0.5%, and MI rate was 0.94%. Stroke rates for the PRE cohort (1.9%), POST cohort (2.0%), and PRE+POST cohort (1.8%; P = .98) were similar. Also, death rates at 30 days, and composite stroke, death, and MI rates were similar in the three cohorts. No significant differences in adverse outcomes were noted among the various dilation strategies for both symptomatic and asymptomatic patients. Conclusions: Based on these prospective trial data, there is no difference in neurological complications owing to balloon dilation strategy during TCAR. The balloon dilation technique best suited to the patient's specific lesion morphology should be used. Further studies are needed to evaluate the relationship of these dilation strategies to long-term outcomes, including stent patency, restenosis, and reintervention.Item Outcomes after Transcarotid Artery Revascularization Stratified by Pre-procedural Symptom Status(Elsevier, 2022) Solomon, Yoel; Rastogi, Vinamr; Marcaccio, Christina L.; Patel, Priya B.; Wang, Grace J.; Malas, Mahmoud B.; Motaganahalli, Raghu L.; Nolan, Brian W.; Verhagen, Hence J. M.; de Borst, Gert J.; Schermerhorn, Marc L.; Surgery, School of MedicineObjective: Previous studies on carotid endarterectomy and transfemoral carotid artery stenting demonstrated that perioperative outcomes differed according to preoperative neurologic injury severity, but this has not been assessed in transcarotid artery revascularization (TCAR). In this study, we examined contemporary perioperative outcomes in patients who underwent TCAR stratified by specific preprocedural symptom status. Methods: Patients who underwent TCAR between 2016 and 2021 in the Vascular Quality Initiative were included. We stratified patients into the following groups based on preprocedural symptoms: asymptomatic, recent (symptoms occurring <180 days before TCAR) ocular transient ischemic attack (TIA), recent hemispheric TIA, recent stroke, or formerly symptomatic (symptoms occurring >180 days before TCAR). First, we used trend tests to assess outcomes in asymptomatic patients versus those with an increasing severity of recent neurologic injury (recent ocular TIA vs recent hemispheric TIA vs recent stroke). Then, we compared outcomes between asymptomatic and formerly symptomatic patients. Our primary outcome was in-hospital stroke/death rates. Multivariable logistic regression was used to adjust for demographics and comorbidities across groups. Results: We identified 18,477 patients undergoing TCAR, of whom 62.0% were asymptomatic, 3.2% had a recent ocular TIA, 7.6a % had recent hemispheric TIA, 18.0% had a recent stroke, and 9.2% were formerly symptomatic. In patients with recent symptoms, we observed higher rates of stroke/death with increasing neurologic injury severity: asymptomatic 1.1% versus recent ocular TIA 0.8% versus recent hemispheric TIA 2.1% versus recent stroke 3.1% (Ptrend < .01). In formerly symptomatic patients, the rate of stroke/death was higher compared with asymptomatic patients, but this difference was not statistically significant (1.7% vs 1.1%; P = .06). After risk adjustment, compared with asymptomatic patients, there was a higher odds of stroke/death in patients with a recent stroke (odds ratio [OR], 2.8; 95% confidence interval [CI], 2.1-3.7; P < .01), a recent hemispheric TIA (OR, 2.0; 95% CI, 1.3-3.0; P < .01), and former symptoms (OR, 1.6; 95% CI, 1.1-2.5; P = .02), but there was no difference in stroke/death rates in patients with a recent ocular TIA (OR, 0.9; 95% CI, 0.4-2.2; P = .78). Conclusions: After TCAR, compared with asymptomatic status, a recent stroke and a recent hemispheric TIA were associated with higher stroke/death rates, whereas a recent ocular TIA was associated with similar stroke/death rates. In addition, a formerly symptomatic status was associated with higher stroke/death rates compared with an asymptomatic status. Overall, our findings suggest that classifying patients undergoing TCAR as symptomatic versus asymptomatic may be an oversimplification and that patients' specific preoperative neurologic symptoms should instead be used in risk assessment and outcome reporting for TCAR.Item Outcomes after transcarotid artery revascularization stratified by preprocedural symptom status(Elsevier, 2022-11) Solomon, Yoel; Rastogi, Vinamr; Marcaccio, Christina L.; Patel, Priya B.; Wang, Grace J.; Malas, Mahmoud B.; Motaganahalli, Raghu L.; Nolan, Brian W.; Verhagen, Hence J. M.; de Borst, Gert J.; Schermerhorn, Marc L.; Surgery, School of MedicineObjective Previous studies on carotid endarterectomy and transfemoral carotid artery stenting demonstrated that perioperative outcomes differed according to preoperative neurologic injury severity, but this has not been assessed in transcarotid artery revascularization (TCAR). In this study, we examined contemporary perioperative outcomes in patients who underwent TCAR stratified by specific preprocedural symptom status. Methods Patients who underwent TCAR between 2016 and 2021 in the Vascular Quality Initiative were included. We stratified patients into the following groups based on preprocedural symptoms: asymptomatic, recent (symptoms occurring <180 days before TCAR) ocular transient ischemic attack (TIA), recent hemispheric TIA, recent stroke, or formerly symptomatic (symptoms occurring >180 days before TCAR). First, we used trend tests to assess outcomes in asymptomatic patients versus those with an increasing severity of recent neurologic injury (recent ocular TIA vs recent hemispheric TIA vs recent stroke). Then, we compared outcomes between asymptomatic and formerly symptomatic patients. Our primary outcome was in-hospital stroke/death rates. Multivariable logistic regression was used to adjust for demographics and comorbidities across groups. Results We identified 18,477 patients undergoing TCAR, of whom 62.0% were asymptomatic, 3.2% had a recent ocular TIA, 7.6a % had recent hemispheric TIA, 18.0% had a recent stroke, and 9.2% were formerly symptomatic. In patients with recent symptoms, we observed higher rates of stroke/death with increasing neurologic injury severity: asymptomatic 1.1% versus recent ocular TIA 0.8% versus recent hemispheric TIA 2.1% versus recent stroke 3.1% (Ptrend < .01). In formerly symptomatic patients, the rate of stroke/death was higher compared with asymptomatic patients, but this difference was not statistically significant (1.7% vs 1.1%; P = .06). After risk adjustment, compared with asymptomatic patients, there was a higher odds of stroke/death in patients with a recent stroke (odds ratio [OR], 2.8; 95% confidence interval [CI], 2.1-3.7; P < .01), a recent hemispheric TIA (OR, 2.0; 95% CI, 1.3-3.0; P < .01), and former symptoms (OR, 1.6; 95% CI, 1.1-2.5; P = .02), but there was no difference in stroke/death rates in patients with a recent ocular TIA (OR, 0.9; 95% CI, 0.4-2.2; P = .78). Conclusions After TCAR, compared with asymptomatic status, a recent stroke and a recent hemispheric TIA were associated with higher stroke/death rates, whereas a recent ocular TIA was associated with similar stroke/death rates. In addition, a formerly symptomatic status was associated with higher stroke/death rates compared with an asymptomatic status. Overall, our findings suggest that classifying patients undergoing TCAR as symptomatic versus asymptomatic may be an oversimplification and that patients’ specific preoperative neurologic symptoms should instead be used in risk assessment and outcome reporting for TCAR.