Use of a primary carotid stenting technique does not affect perioperative outcomes

Brazilian Angiology and Vascular Surgery Society Guidelines for the treatment of extracranial cerebrovascular disease

Extracranial cerebrovascular disease has been the subject of intense research throughout the world, and is of paramount importance for vascular surgeons. This guideline, written by the Brazilian Society of Angiology and Vascular Surgery (SBACV), supersedes the 2015 guideline. Non-atherosclerotic carotid artery diseases were not included in this document. The purpose of this guideline is to bring together the most robust evidence in this area in order to help specialists in the treatment decision-making process. The AGREE II methodology and the European Society of Cardiology system were used for recommendations and levels of evidence. The recommendations were graded from I to III, and levels of evidence were classified as A, B, or C. This guideline is divided into 11 chapters dealing with the various aspects of extracranial cerebrovascular disease: diagnosis, treatments and complications, based on up-to-date knowledge and the recommendations proposed by SBACV.

Safety Evaluation of Primary Carotid Stenting: Transcranial Doppler and MRI

BACKGROUND AND PURPOSE

Cerebral emboli are generated by every step of standard carotid angioplasty and stenting. Primary carotid stenting (PCS) is a technique in which the use of balloon angioplasty (BA) is minimized to decrease the embolic load. The primary aim of this study is to establish the number of emboli generated by each step of primary stenting and determine the relationship to new diffusion (DWI) lesions on subsequent magnetic resonance imaging (MRI).

METHODS

Eighty-five patients with severe, symptomatic carotid stenosis were prospectively recruited and underwent carotid stenting. Intraoperative transcranial Doppler was performed in 77 patients. The number and size of microemboli for each of seven procedural steps were recorded. Correlation was made with the number and location of new DWI lesions.

RESULTS

PCS was performed in 73 patients. BA was required in 12 patients. The mean number of microemboli was 114, and most microemboli were generated by stent deployment, followed by BA. Balloon techniques generated significantly more emboli than primary stenting (p = 0.017). There was a significant relationship between total microemboli and new DWI lesions (p = 0.009), and between new DWI lesions in multiple territories and the severity of pretreatment stenosis (p = 0.002).

CONCLUSIONS

During PCS, more emboli are generated by stent deployment than during any other stage of the procedure. When BA is necessary, more malignant emboli are generated but total emboli are unchanged and there is no difference in new diffusion lesions on MRI. PCS is safe and is not inferior to historical controls for the generation of new DWI lesions.

Primary mechanism of stroke reduction in transcarotid artery revascularization is dynamic flow reversal

OBJECTIVE

Recent studies have suggested that the low risk of stroke and death associated with transcarotid artery revascularization (TCAR) is partially attributable to a robust dynamic flow reversal system and the avoidance of the atherosclerotic aortic arch during stenting. However, the benefits of flow reversal compared with distal embolic protection (DEP) in reducing stroke or death in TCAR have not been studied.

METHODS

All patients undergoing carotid artery stenting (CAS) via the transcarotid route with either dynamic flow reversal (TCAR) or DEP (TCAS-DEP) in the Vascular Quality Initiative from September 2016 to November 2019 were analyzed. Both multivariable logistic regression and nearest neighbor propensity score-matched analysis were performed to explore the differences in outcomes between the two procedures. The primary outcome was in-hospital stroke or death. The secondary outcomes were stroke, death, myocardial infarction (MI), and the composite of stroke, death, and MI. A secondary analysis was performed to compare transcarotid stenting with DEP vs transfemoral CAS with DEP to evaluate the effects of crossing the aortic arch.

RESULTS

A total of 8426 patients were identified (TCAS-DEP, n = 287; 3.4%). TCAR was associated with a lower risk of in-hospital stroke or death (1.6% vs 5.2%; odds ratio [OR], 0.35; 95% confidence interval [CI], 0.20-0.64; P = .001), stroke (1.4% vs 4.2%; OR, 0.37; 95% CI, 0.20-0.68; P = .002), and stroke/death/MI (2.0% vs 5.2%; OR, 0.41; 95% CI, 0.23-0.71; P = .001) compared with TCAS-DEP. Among the 274 pairs of patients identified with propensity score matching, TCAR was associated with a lower risk of stroke/death (1.1% vs 4.7%; risk ratio [RR], 0.23; 95% CI, 0.06-0.81; P = .021) and stroke (0.4% vs 4.0%; RR, 0.09; 95% CI, 0.01-0.70; P = .006) compared with TCAS-DEP but no differences in stroke/death/MI (1.8% vs 4.7%; RR, 0.38; 95% CI, 0.15-1.02; P = .077). The secondary analysis found no differences in stroke between TCAS-DEP and transfemoral CAS with DEP (4.9% vs 3.7%; RR, 1.3; 95% CI, 0.36-1.63; P = .65).

CONCLUSIONS

Compared with TCAS-DEP, TCAR was associated with a lower risk of perioperative stroke or death and stroke. This finding implies that dynamic flow reversal might provide better neuroprotection than does a distal embolic filter in reducing the perioperative risk of stroke. Avoiding the aortic arch did not confer any reduction in the stroke rate. The present findings serve to separate the clinical benefit of dynamic flow reversal from that of avoiding the aortic arch during TCAR.

Poststent ballooning during transcarotid artery revascularization

BACKGROUND

Poststent ballooning/angioplasty (post-SB) have been shown to increase the risk of stroke risk after transfemoral carotid artery stenting. With the advancement of transcarotid artery revascularization (TCAR) with dynamic cerebral blood flow reversal, we aimed to study the impact of post-SB during TCAR.

METHODS

Patients undergoing TCAR in the Vascular Quality Initiative between September 2016 and May 2019 were included and were divided into three groups: those who received prestent deployment angioplasty only (pre-SB, reference group), those who received poststent deployment ballooning only (post-SB), and those who received both prestent and poststent deployment ballooning (prepost-SB). Patients who did not receive any angioplasty during their procedure (n = 367 [6.7%]) were excluded because these represent a different group of patients with less complex lesions than those requiring angioplasty. Primary outcome was in-hospital stroke or death. Analysis was performed using univariable and multivariable logistic regression models.

RESULTS

Of 5161 patients undergoing TCAR, 34.7% had pre-SB only, 25% had post-SB only, and 40.3% had both (prepost-SB). No differences in the rates of in-hospital and 30-day stroke, death, and stroke/death were observed among the three groups; in-hospital stroke/death in the pre-SB group was 1.4% (n = 25), post-SB 1.2% (n = 16), and prepost-SB 1.4% (n = 29; P = .92). However, patients undergoing post-SB and prepost-SB had higher rates of in-hospital transient ischemic attacks (TIA) (post-SB, 0.9%; prepost-SB, 1% vs pre-SB, 0.2%, P < .01) and postprocedural hypotension (16.6% and 16.8% vs 13.1%, respectively; P < .001). Post-SB also had longer operative times, as well as flow reversal and fluoroscopy times. On multivariable analysis, no association was seen between post-SB and the primary outcome of in-hospital stroke/death (post-SB odds ratio [OR], 0.88; 95% confidence interval [CI], 0.44-1.73; prepost-SB OR, 0.98; 95% CI, 0.57-1.70). Similarly, no significant differences were noted in terms of postprocedural hemodynamic instability and 30-day outcomes. However, post-SB and prepost-SB were associated with four times the odds of in-hospital TIA compared with pre-SB alone (post-SB OR, 4.24 [95% CI, 1.51-11.8]; prepost-SB OR, 4.76 [95% CI, 1.53-14.79]; P = .01). Symptomatic patients had higher rates of in-hospital stroke/death compared with their asymptomatic counterparts; however, there was no significant interaction between symptomatic status and ballooning in predicting the primary outcome.

CONCLUSIONS

Post-SB was used in 65.3% of TCAR patients. This maneuver seems to be safe without an increase in the odds of postoperative in-hospital stroke/death. However, the increased rates of TIA associated with post-SB requires further investigation.