Outcomes of Transcarotid Artery Revascularization Stratified by Institutional Designation: Academic Versus Community Hospitals.

BACKGROUND: The extent of practice setting's influence on transcarotid artery revascularization (TCAR) outcomes is not yet established. This study seeks to assess and compare TCAR outcomes in academic and community-based healthcare settings. METHODS: Retrospective review of prospectively maintained, systemwide TCAR databases from 2 institutions was performed between 2015 and 2022. Patients were stratified based on the setting of surgical intervention (i.e., academic or community-based hospitals). Relevant demographics, medical conditions, anatomic characteristics, intraoperative and postoperative courses, and adverse events were captured for multivariate analysis. RESULTS: We identified 973 patients who underwent TCAR, 570 (58.6%) were performed at academic and 403 (41.4%) at community-based hospitals. An academic facility was defined as a designated teaching hospital with 24/7 service-line coverage by a trainee-led surgical team. Baseline comorbidity between cohorts were similar but cases performed at academic institutions were associated with increased complexity, defined by high cervical stenosis (P < 0.001), prior dissection (P < 0.01), and prior neck radiation (P < 0.001). Intraoperatively, academic hospitals were associated with longer operative time (67 min vs. 58 min, P < 0.001), higher blood loss (55 mLs vs. 37 mLs, P < 0.001), and longer flow reversal time (9.5 min vs. 8.4 min, P < 0.05). Technical success rate was not statistically different. In the 30-day perioperative period, we observed no significant difference with respect to reintervention (1.5% vs. 1.5%, P ≥ 0.9) or ipsilateral stroke (2.7% vs. 2.0%, P = 0.51). Additionally, no difference in postoperative myocardial infarction (academic 0.7% vs. community 0.2%, P < 0.32), death (academic 1.9% vs. community 1.4%, P < 0.57), or length of stay (1 day vs. 1 day, P < 0.62) was seen between the cohorts. CONCLUSIONS: Cases performed at academic centers were characterized by more challenging anatomy, more frequent cardiovascular risk factors, and less efficient intraoperative variables, potentially attributable to case complexity and trainee involvement. However, there were no differences in perioperative outcomes and adverse events between the cohorts, suggesting TCAR can be safely performed regardless of practice setting.

Effect of Perioperative Stroke on Survival After Carotid Intervention.

OBJECTIVES: Perioperative stroke is the most dreaded complication of carotid artery interventions and can severely affect patients' quality of life. This study evaluated the impact of this event on mortality for patients undergoing interventional treatment of carotid artery stenosis with three different modalities. METHODS: Patients undergoing carotid revascularization at participating Memorial Hermann Health System facilities were captured from 2003-2022. These patients were treated with either carotid endarterectomy (CEA), transfemoral carotid stenting (TF-CAS), or transcarotid artery revascularization (TCAR). Perioperative outcomes, including stroke and mortality, as well as follow-up survival data at 6-month intervals, were analyzed and stratified per treatment modality. RESULTS: Of the 1681 carotid revascularization patients identified, 992 underwent CEA (59.0%), 524 underwent TCAR (31.2%), and 165 underwent TF-CAS (9.8%). The incidence of stroke was 2.1% (CEA 2.1%, TCAR 1.7%, and TF-CAS 3.6%; P = .326). The perioperative (30-day) death rate was 2.1% (n = 36). The perioperative death rate was higher in patients who suffered from an intraoperative stroke than in those who did not (8.3% vs 1.9%, P = .007). Perioperative death was also different between CEA, TCAR, and TF-CAS for patients who had an intraoperative stroke (.0% vs 33.3% vs .0%, P = .05). TCAR patients were likely to be older (P < .001), have a higher body mass index (P < .001), and have diabetes mellitus (P < .001). Patients who suffered from an intraoperative stroke were more likely to have a symptomatic carotid lesion (58.3% vs 28.8%, P < .001). The TCAR group had a significantly lower survival at 6 months and 12 months when compared to the other two groups (64.9% vs 100% P = .007). CONCLUSION: Perioperative stroke during carotid interventions significantly impacts early patient survival with otherwise no apparent change in mid-term outcomes at 5 years. This difference appears to be even more significant in patients undergoing TCAR, possibly due to their baseline higher-risk profile and lower functional reserve.

Hybrid management of type B aortic dissection in a patient with right-sided aortic arch and aberrant left subclavian artery.

This report describes a patient with a right-sided aortic arch, aberrant left subclavian artery and Kommerell diverticulum, who presented with aneurysmal degeneration of the aortic root to the descending aorta, in addition to an acute type B2-10 aortic dissection. He underwent hybrid treatment with a valve-sparing aortic root replacement, transverse arch replacement with reattachment of the right subclavian artery, bilateral common carotid arteries, and thoracic endovascular aneurysm repair with left subclavian artery embolization and a left common carotid to subclavian artery bypass.

Dual Institutional Experience with Transcarotid Artery Revascularization.

INTRODUCTION: Transcarotid artery revascularization (TCAR) is a hybrid open and endovascular technique to treat carotid stenosis. The purpose of this study is to present a large cohort of patients who underwent TCAR at 2 high-volume TCAR health systems. METHODS: This study was a retrospective chart review of all instances of TCAR within the Memorial Hermann Health System and Indiana University Health, from December 2015-January 2022, using the ENROUTE Neuroprotection Device (Silk Road Medical, Sunnyvale, CA). We report patient demographics, intraoperative metrics, 30-day results and long-term results. RESULTS: In all, 750 patients underwent TCAR in the designated time period. Average patient age was 73 years, with 68% being male. Overall, 53.9% of patients had coronary artery disease, 45.4% had diabetes, and 36.9% were symptomatic. Technical success was achieved in 98.8% of patients with conversion to open endarterectomy in 1.1%. Average reverse flow time was 9.1 minutes with length of stay greater than 1 day 38%. Ipsilateral stroke rate within 30 days was 2.3% and long-term cumulative stroke rate was 3.0%. Death within 30 days occurred in 1.2% of patients and in 5.9% over long-term follow up. In all, 1% of patients required reintervention. CONCLUSIONS: TCAR is a safe and effective treatment modality for carotid artery stenotic disease. Its outcomes are similar to historical results associated with carotid endarterectomy, long considered the gold standard.

An Analysis of Sex-Based Outcomes Following Transcarotid Artery Revascularization.

OBJECTIVE: Several studies suggest that females have higher perioperative adverse events and decreased benefit from carotid artery revascularization with transfemoral carotid artery stenting and carotid endarterectomy (CEA) compared to males. However, there are limited data of sex-based outcomes for transcarotid artery revascularization (TCAR). METHODS: A retrospective review of prospectively maintained system-wide TCAR databases was performed between December 2015-January 2022. Patients who underwent TCAR were stratified based on sex. Relevant demographics, medical conditions, anatomical characteristics, intra- and postoperative courses, and adverse events were captured. RESULTS: 729 patients underwent TCAR, 486 (66.6%) male and 243 (33.3%) female. Males were more likely to be diagnosed with coronary artery disease (56.9% vs 47.7%, P<.01) and were active smokers (30.4% vs 21.4%, P < .01). Age, symptomatic status, BMI, hypertension, hyperlipidemia, diabetes mellitus, arrhythmia, chronic obstructive pulmonary disease, history of myocardial infarction, heart failure with reduced ejection fraction <30%, end-stage renal disease and Charlson Comorbidity Index were similar. In the perioperative period, there was no significant difference in reintervention rates (1.6% vs 1.2%, P = .75), cranial nerve palsy (.6% vs .4%, P > .99), ipsilateral stroke (1.9% vs 3.3%, P = .29), stent thrombosis (.4% vs .8%, P > .99), myocardial infarction (0% vs 0%, P > .99) and death (1.2% vs 1.2%, P > .99). In follow-up, no significant difference was found in reintervention, ipsilateral stroke, contralateral stroke, myocardial infarction, in-stent restenosis >50%, stent thrombosis, and death. CONCLUSIONS: Males and females did not have a statistically significant difference in outcomes when comparing ipsilateral stroke, in-stent thrombosis, conversion to CEA, and death after TCAR. However, our cohort comprised predominantly male patients and may conceal statistical significance as the females in our cohort did have a higher tendency toward developing complications. Future studies with a larger female cohort should be conducted to determine whether there is a true disparity of outcomes between the males and females undergoing TCAR.

Spontaneous celiac artery dissection treated by balloon angioplasty.

Spontaneous isolated celiac artery dissection (SICAD) is a rare condition, defined as dissection of the celiac artery without aortic involvement. Because of its low prevalence, most studies have been limited to case reports and case series. We have described the case of a 44-year-old woman who had presented with symptomatic SICAD that had resulted in compromised flow to the hepatic arteries and was successfully treated with balloon angioplasty. Angioplasty alone might be effective for cases of extensive false lumen thrombosis in SICAD for immediate flow restoration to the true lumen, expediting positive remodeling.

Adverse events are not increased with trainee participation in transcarotid revascularization.

OBJECTIVE: To determine whether a vascular surgery trainee's participation in transcarotid revascularization (TCAR), a new technology, affects patient safety and outcomes. DESIGN: Retrospective, institutional review of our carotid database was performed. Patients who underwent TCAR were stratified based on whether a vascular trainee was present during the procedure. Relevant demographics, comorbidities, anatomical indication, perioperative courses, and adverse events in the postoperative period were captured for statistical analysis. SETTING: Data were obtained from affiliated Memorial Hermann Hospitals in Houston, Texas. PARTICIPANTS: All patients who underwent TCAR from September 2017 to January 2022 were included. RESULTS: Of 486 patients who underwent TCAR, 173 (35.6%) were performed in the presence of a trainee, and 313 (64.4%) were performed without a trainee. Subjects in the trainee cohort had more challenging anatomy, defined as a higher rate of carotid bifurcation above C2, restenotic disease, previous ipsilateral neck dissection, and neck radiation. The trainee cohort had higher rates of estimated blood loss (61.1 ± 66 vs. 35.5 ± 39 mL, p < 0.01), longer operative time (64.8 ± 30.3 vs. 57.9 ± 20.4 min, p < .01), longer cerebral blood flow reversal time (8.9 ± 6.1 vs. 7.9 ± 6.6 min, p = .01), and higher contrast administration (25.7 ± 12.0 vs. 21.1 ± 9.4 mL, p < .01). The ability to achieve technical success was similar between the two cohorts. There was no difference in the rates of cranial nerve palsy, ipsilateral stroke, hematoma, and stent thrombosis. Hospital length of stay, death (0% vs. 1.6%, p = .10), and stroke (1.1% vs. 2.8%, p = .22) were also similar between the two cohorts. CONCLUSION: Vascular surgery trainee's involvement during TCAR did not increase adverse outcomes, such as stroke and death, in the perioperative period. The results presented herein should encourage other teaching institutions to provide surgical trainees with supervised, hands-on experience during TCAR.

Transcarotid artery revascularization is safe in necks with anatomy hostile for carotid endarterectomy.

OBJECTIVE: The outcomes associated with transcarotid revascularization (TCAR) have proved to be noninferior to the historical results established for carotid endarterectomy (CEA). Therefore, TCAR has been increasingly offered to patients with neck anatomy hostile for traditional CEA. The present investigation was completed to evaluate whether a difference exists for patients undergoing TCAR in de novo anatomy with unviolated surgical planes compared with those undergoing TCAR in necks with hostile anatomy. METHODS: The demographic data and outcomes were captured at two high-volume TCAR institutions from December 2015 to December 2021 via a query of two parallel, prospectively maintained, carotid intervention databases at these two health institutions. A hostile neck anatomy was defined as a history of previous ipsilateral neck radiation, oncologic dissection, or CEA. Univariate analysis was performed to compare the two cohorts at an α of 0.05. RESULTS: During the inclusion period, the data from 750 TCARs were captured, including 108 procedures in hostile neck anatomy and 642 in de novo necks. No significant differences were found in the baseline comorbidity burden using the Charlson comorbidity index or the indication for revascularization. Intraoperatively, no significant increase in case complexity was observed with respect to those with a hostile neck, except for the operative time, which was 10% longer (69.5 vs 63.4 minutes; P = .01). The flow reversal and fluoroscopic times, blood loss, radiation exposure, and contrast use were identical. Postoperatively, no differences were observed between the hostile and de novo necks with respect to stroke (0.9% vs 2.5%; P = .49), myocardial infarction (0.9% vs 0.2%; P = .27), and death (0% vs 1.5%; P = .37). Additionally, hematoma formation and the need for reintervention did not seem to vary between the two groups. Similarly, no differences in the two cohorts were noted during follow-up. CONCLUSIONS: According to the findings from our large, dual-institutional series, the performance of TCAR in surgical fields traditionally hostile for CEA was not associated with increased intraoperative complexity or postoperative morbidity.

Results associated with the health system-wide adoption of transcarotid revascularization.

BACKGROUND: In the present report, we have detailed the results derived from the adoption of transcarotid artery revascularization (TCAR) at a large health system based in the United States. METHODS: A retrospective review was performed of a prospectively maintained database capturing all carotid stents deployed using the ENROUTE neuroprotection device (Silk Road Medical, Sunnyvale, CA) and cerebral flow reversal. The demographics, intraoperative findings, and postoperative results were tabulated and reported. RESULTS: From September 2017 to December 2021, 429 TCAR procedures were attempted within the Memorial Hermann Health System. Preoperatively, all the patients were either asymptomatic with >70% stenosis (66.9%) or symptomatic with >50% stenosis (33.1%). The degree of stenosis was determined using computed tomography angiography and/or duplex ultrasound. We achieved a technical success rate of 99.1%, with the failures attributed to an inability to cross the lesion, an inability to track the stent, visualization of a flow-limiting dissection, and stent maldeployment for one patient each. During the 30-day perioperative period, nine strokes (2.3%) had occurred, three of which had occurred after discharge from the index operation and before the end of the 30-day period. No patient had experienced myocardial infarction. Five patients had died in the perioperative period. Three of the deaths were related to stroke, and two were attributed to cardiopulmonary events secondary to aspiration and likely pulmonary embolus. The mean follow-up after TCAR was 14.5 ± 12.0 months. During the follow-up period, two patients had required reintervention for in-stent stenosis. Ipsilateral to the implanted carotid stent, the overall (including perioperative) stroke incidence was 2.5%. Contralateral to the stent, the stroke incidence was 0.8%. The myocardial infarction rate was 0.8% during follow-up. Mortality in our study population was 5.1% during the follow-up period. CONCLUSIONS: After adoption of TCAR across the Memorial Hermann Health System, we found this procedure to be safe and efficacious with minimal perioperative risks comparable to the historically reported results associated with alternative carotid interventions.

Aged Mice Demonstrate Greater Muscle Degeneration of Chronically Injured Rotator Cuff.

Massive tears of the rotator cuff (RC) are often associated with progressive and irreversible muscle degeneration due to fibrosis, fatty infiltration, and muscle atrophy. RC tears are common in individuals older than 60 years and the repair of these tears is amongst the most prevalent of orthopedic procedures. However, most current models of this injury are established in young animals, which may not accurately recapitulate the clinical condition. In this study, we used a murine model of massive RC tears to evaluate age-related muscle degeneration following chronic injury. The expression of the fibro-adipogenic genes encoding collagen type III and leptin was higher in aged RC compared with matched injured young tissue at 2 weeks post-injury, and development of fibrosis was accelerated in aged mice within 5 days post-injury. Furthermore, the synthesis of collagens type I and III and fat tissue accumulation were significantly higher in injured RCs of aged mice. Similar frequency of fibro-adipogenic PDGFRß+ PDGFRα+ progenitor cells was measured in non-injured RC of aged and young mice, but PDGFRß+ PDGFRα+ cells contributed to significantly larger fibrotic lesions in aged RCs within 2 weeks post-injury, implying a more robust fibrotic environment in the aged injured muscle. Altogether, these findings demonstrate age-dependent differences in RC response to chronic injury with a more profound fibro-adipogenic change in aged muscles. Clinically, cell therapies for muscular pathologies should not only consider the cell type being transplanted but also the recipient milieu into which these cells are seeded. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 38:320-328, 2020.

Non-fibro-adipogenic pericytes from human embryonic stem cells attenuate degeneration of the chronically injured mouse muscle.

Massive tears of the rotator cuff (RC) are associated with chronic muscle degeneration due to fibrosis, fatty infiltration, and muscle atrophy. The microenvironment of diseased muscle often impairs efficient engraftment and regenerative activity of transplanted myogenic precursors. Accumulating myofibroblasts and fat cells disrupt the muscle stem cell niche and myogenic cell signaling and deposit excess disorganized connective tissue. Therefore, restoration of the damaged stromal niche with non-fibro-adipogenic cells is a prerequisite to successful repair of an injured RC. We generated from human embryonic stem cells (hES) a potentially novel subset of PDGFR-ß+CD146+CD34-CD56- pericytes that lack expression of the fibro-adipogenic cell marker PDGFR-α. Accordingly, the PDGFR-ß+PDGFR-α- phenotype typified non-fibro-adipogenic, non-myogenic, pericyte-like derivatives that maintained non-fibro-adipogenic properties when transplanted into chronically injured murine RCs. Although administered hES pericytes inhibited developing fibrosis at early and late stages of progressive muscle degeneration, transplanted PDGFR-ß+PDGFR-α+ human muscle-derived fibro-adipogenic progenitors contributed to adipogenesis and greater fibrosis. Additionally, transplanted hES pericytes substantially attenuated muscle atrophy at all tested injection time points after injury. Coinciding with this observation, conditioned medium from cultured hES pericytes rescued atrophic myotubes in vitro. These findings imply that non-fibro-adipogenic hES pericytes recapitulate the myogenic stromal niche and may be used to improve cell-based treatments for chronic muscle disorders.