Evidence - Percutaneous transluminal angioplasty and stenting of the right internal carotid artery in recurrent stenosis– Vascular surgery

  1. Literature summary

    Extracranial carotid artery stenosis

    1. Randomized trials on open versus endovascular approach

    The Asymptomatic Carotid Trial (ACT) I evaluated outcomes after carotid endarterectomy (CEA) and carotid stenting (CAS) in asymptomatic patients with high-grade carotid stenosis [1]. This randomized trial enrolled 1453 patients between 2005 and 2013, 1089 in the CAS group and 364 in the CEA group. The endpoints of the study were death, stroke, or myocardial infarction within 30 and 365 days post intervention. Outcome: CAS was not inferior to CEA with respect to either the 30-day end point or at 1 year.

    Another randomized trial comparing CEA and CAS was the CREST trial (Carotid Revascularization Endarterectomy versus Stenting Trial) [2]. The trial enrolled 2502 patients with asymptomatic as well as symptomatic carotid stenosis. Periprocedural stroke was more common following CAS than after CEA (4.1% vs. 2.3%); in contrast, myocardial infarction was significantly less frequent (1.1% vs. 2.3%). At 10 years, both groups did not differ significantly in the study end point (periprocedural all-cause stroke, myocardial infarction, or subsequent death or ipsilateral stroke), with 11.8% in CAS and 9.9% in CEA. CAS and CEA did not differ in terms of symptoms (asymptomatic/symptomatic stenosis). Nor were there any significant differences regarding postprocedural restenting or revascularization: 12,2 % following CAS and 9,7 % after CEA.

     The randomized International Carotid Stenting Study (ICSS) compared CEA and CAS in patients with recent symptomatic carotid stenosis [3]. There were a total of 853 patients in the CAS arm and 857 in the CEA arm. The rate of stroke, death, or myocardial infarction within 120 days after the procedure was significantly higher in the CAS group than in the CEA group (8.5% versus 5.2%). After a median of 4.2 years no differences were found between both groups regarding severe restenosis or occlusion, but the rate of stroke of any severity remained significantly higher in the CAS arm (CAS 15.2%, CEA 9.4%).

    2.  Meta-analyses of open versus endovascular procedures

    There is one systematic review with meta-analysis from 2017 regarding the efficacy and safety of CAS and CEA in 3019 patients with asymptomatic carotid stenosis [4]. The rates of periprocedural stroke and death revealed an increase in risk for CAS vs. CEA of borderline statistical significance. The long-term follow-up did not reliably rule out clinically significant differences in the rates of stroke, death, and myocardial infarction. The authors concluded that CEA appeared to be the safer and more effective procedure in the management of asymptomatic carotid artery stenosis compared with CAS. Another meta-analysis from 2017 and a third analysis from 2018 reached similar conclusions [5, 6].

    While the above analyses referred to patients with asymptomatic carotid stenosis, a 2017 meta-analysis studied 7005 patients with asymptomatic and symptomatic stenosis [7].  In that study, CAS was associated with significantly lower risk of myocardial infarction but higher risk of stroke and death compared with CEA. No significant difference was found between CAS and CEA with regard to long-term all-cause mortality and re-stenting rate. Based on these results, CEA was recommended as the first-line modality in patients with carotid stenosis.

    3. Registry data

    3.1. CEA vs. CAS

    In 2017, a report was published addressing the issue of CEA versus CAS in the U.S. Medicare population from 1999 to 2014 [8]. 937,111 patients underwent CEA, and 231,077 underwent CAS. During the period observed, the number of CEA cases decreased and the number of CAS patients increased. Regarding mortality or stroke within 30 days, and myocardial infarction, death and the risk of ischemic stroke at 1 year, outcomes improved despite increasing vascular risk factors. Interestingly enough, the number of procedures decreased over the period observed, which was explained with optimized drug therapy and better health literacy.

    The outcome of CEA and CAS in high-risk patients was examined based on the Nationwide Inpatient Sample (NIS) from 2005 to 2011 [9]. Data from 23,526 patients were included, of whom 3447 (14.7%) underwent CAS with the remainder undergoing CEA. More than 90% of cases presented with asymptomatic stenosis. In-hospital mortality was 0.4%, with no difference between CAS (0.6%) and CEA (0.4%). However, in symptomatic patients, in-hospital mortality was significantly higher with CAS than with CEA (4.7% vs. 2.0%). The periprocedural stroke rate was 0.9%, with a significantly higher rate in CAS (1.4% vs. 0.9%). However, the rate did not differ in symptomatic patients. During the period observed, the number of procedures performed annually remained stable, while the number of treated high-risk patients increased slightly, but significantly. As expected, the share of CAS increased over the observation period, with a corresponding decrease in CEA. The authors concluded that CAS was increasingly performed in high-risk patients, but that this increased the periprocedural stroke rate in all high-risk patients compared with CEA and led to an additional increase in hospital mortality in symptomatic patients.

    3.2. Effect of contralateral stenosis on CEA

    Drawing on the Vascular Study Group of New England (VSGNE) registry from 2003 to 2015, the impact of contralateral stenosis and occlusion on CEA outcome in 15,487 symptomatic and asymptomatic patients with carotid stenosis was studied [10]. The study concluded that although contralateral carotid occlusion slightly increased stroke/mortality rates in CEA, contralateral occlusion should still not be considered a high-risk criterion because in both symptomatic and asymptomatic patients the 30-day rate of stroke/death remained within the limits specified by the guidelines.

    3.3. Effect of age and gender on CEA

    The impact of age and gender on CEA outcome was studied based on the German quality assurance database [11]. The analysis included 142,074 interventions between 2009 and 2014. Patients were mostly male (68%), with a mean age of 71 years. The study found that in CEA increasing patient age, but not gender, was associated with a higher perioperative risk of stroke or death.  While mortality risk alone correlated significantly with patient age, this was true only to a rather limited degree for stroke risk. Although in older patients perioperative neurologic complications increased significantly, in the end they were so low that age alone cannot be an exclusion criterion for CEA.

    The impact of patient age on CEA outcome was also reviewed based on the Society for Vascular Surgery Vascular Quality Initiative (VQI) database [12]. 7390 patients aged eighty and older were compared with 35,303 younger patients. Although in the older patients perioperative neurologic complications increased significantly, in the end they were so low that age alone cannot be an exclusion criterion for CEA. However, at 93.74% versus 97.18% in the younger patients, 1-year survival was significantly less favorable.

    3,4. Early carotid revascularization by CEA

    One study from 2017 examined "optimal" CEA timing after the onset of neurologic symptoms due to carotid stenosis [13]. The Vascular Study Group of New England (VSGNE) database contained 989 symptomatic patients with carotid stenosis who underwent CEA within 1 month of the neurological event. When CEA was performed less than 2 days after the onset of neurological symptoms, the rate of postoperative stroke was 7.3% versus 4.0% in the group with surgery after 2-5 days and 2.1% for procedures after ≥6 days. Both groups did not differ in their outcome after 1 year. It was concluded that CEA for prevention of recurrent stroke should be performed as early as possible, but not within the first 2 days after the neurological event. Intervention within the first week after the event was recommended.

    The Carotid Alarm Study also found an increased risk for CEA within the first 48 hours after the neurological event [14].

    3.5. CAS

    In 2017, the ACS NSQIP (American College of Surgeons National Surgical Quality Improvement Program) database identified roughly 450 patients who had undergone CAS for carotid artery stenosis [15]. The rate of adverse postoperative events at 30 days was 7.1%. Among them, postoperative stroke or death was seen in 3.6% of asymptomatic and 2.8% of symptomatic patients. It was concluded that CAS should only be performed in symptomatic patients, but not in asymptomatic patients because here the defined thresholds for postoperative death or stroke were exceeded. Older patients (>80 years), women, patients of color, and those with more than one stent were specifically at increased risk.

    Another study reported on 13,086 CAS cases entered into the German quality assurance database between 2009 and 2014 [16]. Nearly 64% of the procedures were performed in asymptomatic patients. Periprocedural stroke or death was reported in 1.7% of asymptomatic patients and 3.7% of symptomatic patients. Use of an embolic protection system was associated with a significant reduction in death and stroke.

    A study of 4717 elective procedures from the German quality assurance database [17] explored the relationship between the postoperative outcome of CAS and the time interval between the onset of neurologic symptoms and the procedure. The study demonstrated that early CAS within the first 7 days following the neurological event was associated with an increased risk of postinterventional stroke/death.

  2. Ongoing trials on this topic

  3. Literatur zu diesem Thema

    1. Rosenfield K, Matsumura JS, Chaturvedi S, Riles T, Ansel GM, Metzger DC, Wechsler L, Jaff MR, Gray W, ACT I Investigators (2016) Randomized trial of stent versus surgery for asymptomatic carotid stenosis. N Engl J Med 374:1011–1020

    2. Brott TG, Howard G, Roubin GS, CREST Investigators et al (2016) Long-term results of stenting versus endarterectomy for carotid-artery stenosis. N Engl J Med 374:1021–1031

    3. Featherstone RL, Dobson J, Ederle J, Doig D, Bonati LH, Morris S, Patel NV, Brown MM (2016) Carotid artery stenting compared with endarterectomy in patients with symptomatic carotid stenosis (International Carotid Stenting Study): a randomised controlled trial with cost-effectiveness analysis. Health Technol Assess 20(20):1–94

    4. Moresoli P, Habib B, Reynier P, Secrest MH, Eisenberg MJ, Filion KB (2017) Carotid stenting versus endarterectomy for asymptomatic carotid artery stenosis: a systematic review and meta-analysis. Stroke 48:2150–2157

    5. Kakkos SK, Kakisis I, Tsolakis IA, Geroulakos G (2017) Endarterectomy achieves lower stroke and death rates compared with stenting in patients with asymptomatic carotid stenosis. J Vasc Surg 66:607–617

    6. Cui L, Han Y, Zhang S, Liu X, Zhang J (2018) Safety of stenting and endarterectomy for asymptomatic carotid artery stenosis: a meta-analysis of randomised controlled trials. Eur J Vasc Endovasc Surg

    7. Li Y, Yang JJ, Zhu SH, Xu B, Wang L (2017) Long-term efficacy and safety of carotid artery stenting versus endarterectomy: a meta-analysis of randomized controlled trials. PLoS One 12(7):e0180804  

    8. Lichtman JH, Jones MR, Leifheit EC, Sheffet AJ, Howard G, Lal BK, Howard VJ, Wang Y, Curtis J, Brott TG (2017) Carotid endarterectomy and carotid artery stenting in the US medicare population. JAMA 318:1035–1046 (1999–2014)

    9. Salzler GG, Farber A, Rybin DV, Doros G, Siracuse JJ, Eslami MH (2017) The association of Carotid Revascularization Endarterectomy versus Stent Trial (CREST) and Centers for Medicare and Medicaid Services Carotid Guideline Publication on utilization and outcomes of carotid stenting among „high-risk“ patients. J Vasc Surg 66:104–111

    10. Pothof AB, Soden PA, Fokkema M, Zettervall SL, Deery SE, Bodewes TCF, de Borst GJ, Schermerhorn ML, Vascular Study Group of New England (2017) The impact of contralateral carotid artery stenosis on outcomes after carotid endarterectomy. J Vasc Surg 66:1727–1734

    11. Schmid S, Tsantilas P, Knappich C, Kallmayer M, König T, Breitkreuz T, Zimmermann A, Kuehnl A,   Eckstein HH (2017) Risk of inhospital stroke or death is associated with age but not sex in patients treated with carotid endarterectomy for asymptomatic or symptomatic stenosis in routine practice: secondary data analysis of the nationwide German statutory quality assurance database from 2009 to 2014. J Am Heart Assoc 13 6(3) pii:e004764

    12. Schneider JR, Jackson CR, Helenowski IB, Verta MJ, Wilkinson JB, Kim S, Hoel AW (2017) A comparison of results of carotid endarterectomy in octogenarians and nonagenarians to younger patients from the Mid-America Vascular Study Group and the Society for Vascular Surgery Vascular Quality Initiative. J Vasc Surg 65:1643–1652

    13. Avgerinos ED, Farber A, Abou Ali AN, Rybin D, Doros G, Eslami MH; Vascular Study Group of New England (2017) Early carotid endarterectomy performed 2 to 5 days after the onset of neurologic symptoms leads to comparable results to carotid endarterectomy performed at later time points. J Vasc Surg 66:1719–1726

    14. Nordanstig A, Rosengren L, Strömberg S, Österberg K, Karlsson L, Bergström G, Fekete Z, Jood K (2017) Editor’s choice – Very urgent carotid endarterectomy is associated with an increased procedural risk: The Carotid Alarm Study. Eur J Vasc Endovasc Surg 54:278–286

    15. Bennett KM, Hoch JR, Scarborough JE (2017) Predictors of 30-day postoperative major adverse   clinical events after carotid artery stenting: An analysis of the procedure-targeted American College of Surgeons National Surgical Quality Improvement Program. J Vasc Surg 66:1093–1099

    16. Knappich C, Kuehnl A, Tsantilas P, Schmid S,  Breitkreuz T, Kallmayer M, Zimmermann A,  Eckstein HH (2017b) The use of embolic protection devices is associated with a lower stroke and death rate after carotid stenting. JACC Cardiovasc Interv 10:1257–1265

    17. Tsantilas P, Kuehnl A, Kallmayer M, Knappich C,  Schmid S, Breitkreuz T, Zimmermann A, Eckstein HH (2018) Risk of stroke or death is associated with the timing of carotid artery stenting for symptomatic carotid stenosis: a secondary data analysis of the German statutory quality assurance database. J Am Heart Assoc 7(7) pii:e007983

Reviews

Aber A, Howard A, Woods HB, Jones G, Michaels J. Impact of Carotid Artery Stenosis on Quality of Li

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