<p>This review investigates the various methods used for carotid endarterectomy (CEE). These methods are presented, and allow us to analyse effective revascularisation with extended damage to the internal carotid artery. The data of studies comparing the results of eversion and classical carotid endarterectomy with plasty of the reconstruction zone with a patch made of diepoxy-treated pericardium are presented. Special attention is paid to emergency carotid endarterectomy and carotid endarterectomy in the acute period of ischemic stroke. The important and main aspects of the glomus-saving species of CEE are also demonstrated. The main complications behind operations, and causes of restenosis in long-term follow-up periods are also duly noted. Similarly, suggestions to eliminate these issues are also proposed. This review comprehensively covers the state of the art of carotid endarterectomy and dissects current techniques and methods in the area.</p><p>Received 16 July 2020. Revised 24 August 2020. Accepted 25 August 2020.</p><p><strong>Conflict of interest:</strong> Authors declare no conflicts of interest.</p><p><strong>Funding:</strong> The study did not have sponsorship.</p><p><strong>Author contributions</strong><br />Conception and study design: G.G. Khubulava<br />Drafting the article: A.N. Kazantsev<br />Critical revision of the article: A.A. Erofeev, V.N. Kravchuk, K.P. Chernykh<br />Final approval of the version to be published: G.G. Khubulava, A.N. Kazantsev, A.A. Erofeev, V.N. Kravchuk, K.P. Chernykh</p>
The article describes a computer modeling technique that allows predicting the development of restenosis of the internal carotid artery after carotid endarterectomy (CEE). A clinical case has been demonstrated that proves the effectiveness of the developed method. It is indicated that for the correct formation of the geometric model, data from multispiral computed tomography with angiography of the patient after CEE with a layer thickness of 0.6 mm and a current of 355 mA are required. To build a flow model, data of color duplex scanning in three sections are required: 1. In the proximal section of the common carotid artery (3 cm proximal to the bifurcation); 2. In the section of the external carotid artery, 2 cm distal to the carotid sinus; 3. In the section of the internal carotid artery, 2 cm distal to the carotid sinus. The result of computer calculations using specialized software (Sim Vascular, Python, Open Foam) is a mathematical model of blood flow in a vessel. It is an array of calculated data describing the speed and other characteristics of the flow at each point of the artery. Based on the analysis of RRT and TAWSS indicators, a computer model of bifurcation is formed, which makes it possible to predict areas of increased risk of restenosis development. Thus, the developed technique is able to identify a cohort of patients after CEE, subjected to a high probability of loss of the vessel lumen. Such an opportunity will provide a more precise supervision of these patients in the postoperative period with the aim of early diagnosis of restenosis and timely prevention of the development of adverse cardiovascular events.
Objective: to analyze the in-hospital and long-term outcomes of classical carotid endarterectomy (CEE) in extended atherosclerotic lesions in comparison with the outcomes of this operation in local atherosclerotic plaque (AP). Materials and Methods. This study, which lasted from January 2010 to December 2020, included 148 patients with extended AP and hemodynamically significant internal carotid artery (ICA) stenosis. The term “extended” was understood as a hemodynamically significant lesion ≥ 5 cm long. These patients made up Group 1. Group 2 was formed over the same period of time from 632 patients with hemodynamically significant stenosis <5 cm long. In both cohorts, CEE with repair of the reconstruction zone with a diepoxide-treated xenopericardial patch was performed. Long-term follow-up was 71.4 ± 45.6 months. Results. The groups were comparable in terms of frequency of in-hospital complications: death (group 1: 0.67%, n = 1; group 2: 0.5%, n = 3; p = 0.74; OR = 1.42; 95% Cl 0.14-13.6), myocardial infarction (MI) (group 1: 0.67%, n = 1; group 2: 0.5%, n = 3; p = 0.74; OR = 1.42; 95% CI 0.14-13.6), ischemic stroke (group 1: 0%; group 2: 0.5%, n = 3; p = 0.91; OR = 0.6; 95% CI 0.03-11.8), combined endpoint (death + MI + stroke) (group 1: 1.35%, n = 2; group 2: 1.4%, n = 9; p = 0.74; OR = 0.94; 95% CI 0.2-4.43). The groups were also comparable in terms of frequency of long-term complications: death (group 1: 2.0%, n = 3; group 2: 2.05%, n = 13; p = 0.76; OR = 0.98; 95% CI 0.27-3.5), MI (group 1: 2.7%, n = 4; group 2: 2.4%, n = 15; p = 0.95; OR = 1.14; 95% CI 0.37-3.49), ischemic stroke (group 1: 5.4%, n = 8; group 2: 5.2%, n = 33; p = 0.9; OR = 1.03; 95% CI 0.46-2.29), ICA occlusion and restenosis (group 1: 12.8%, n = 19; group 2: 13.3%, n = 84; p = 0.99; OR = 0.96; 95% CI 0.56-1.63), combined endpoint (death + MI + stroke) (group 1: 10.1%, n = 15; group 2: 9.6%, n = 61; p = 0.98; OR = 1.05; 95% CI 0.58-1.91). Analysis of survival graphs revealed no significant intergroup differences for all types of complications (lethal outcome: p = 0.56; MI: p = 0.73; stroke/mini-stroke: p = 0.89; ICA restenosis/occlusion: p = 0.82; combined end point: p = 0.71). Their increase was uniform in both groups. However, more than half of all ICA restenoses and occlusions were visualized in the first 6 months after CEE. Conclusion. Implantation of a long patch (≥ 5 cm) is not characterized by increased incidence of restenosis and all adverse cardiovascular events during in-hospital and long-term follow-up.
Изучение госпитальных результатов экстренной каротидной эндартерэктомии (КЭЭ) и каротидной ангиопластики со стентированием (КАС) в острейшем периоде острого нарушения мозгового кровообращения (ОНМК). МАТеРИАЛ И МеТОдыC января 2008 по август 2020 г. в исследование вошли 615 пациентов с гемодинамически значимыми стенозами внутренних сонных артерий (ВСА), оперированными в острейшем периоде ишемического инсульта (в течение 3 суток от дебюта ОНМК). В зависимости от реализованного вида реваскуляризации все больные были распределены на две группы: 1-я группа -КАС (n=312); 2-я группа -КЭЭ (n=357). Критериями включения стали: 1. Неврологические нарушения легкой степени: от 3 до 8 баллов по шкале NIHSS; не более 2 баллов по модификационной шкале Рэнкина; более 61 балла по шкале Бартел; 2. Показания для КЭЭ/КАС согласно действующим национальным рекомендациям; 3. Ишемический очаг в головном мозге не более 2,5 см в диаметре.
BACKGROUND: The circle of Willis (CW) is an important network of collaterals that provide compensatory redistribution of hemodynamic load. Several studies showed that the CW is open in approximately 50%90% of cases, and the number of missing segments correlates with low brain tolerance to ischemia in internal carotid artery (ICA) compression. Currently, studies dedicated to the relationship of different configurations of CW with the risk of ischemic brain damage. AIM: The analyze the immediate results of eversion carotid endarterectomy (CEA) in patients with different configurations of the structure of the CW. MATERIALS AND METHODS: We included 641 patients with hemodynamically significant stenosis of the internal carotid arteries (ICA) in a study period from 2010 to 2020. All patients underwent multispiral computed tomography with angiography of the extracranial and CW arteries. Based on the structural variants of the CW, six groups of patients were studied: group 1 (64.9%, n = 416) closed posterior part (CPP) with the existence of posterior communicative artery (PCA) and P1 segment of the posterior cerebral artery (PCerA); group 2 (27%, n = 173) an intermediate structure of the posterior part (IPP) with hypoplasia of the PCA or PCerA; group 3 (8.1%, n = 52) open posterior part (OPP) with the absence of PCA or PCerA; group 4 (85.95%, n = 551) closed anterior part (CAP) with the presence of the anterior communicating artery (ACA) and A1 segment of the anterior cerebral artery (ACerA); group 5 (7.95%, n = 51) an intermediate structure of the anterior part (IAP) with hypoplasia of ACA or ACerA; group 6 (6.1%, n = 39) open anterior part (OAP) with the absence of ACA or ACerA. To assess the compensatory potentials of the brain, all patients underwent measurement of the retrograde pressure in the ICA and intraoperative cerebral oximetry. RESULTS: In the postoperative period, 1 death was recorded in group 4 (CAP) due to a hemorrhagic transformation in the zone of ischemic stroke, on the background development of hyperperfusion syndrome. The largest number of ischemic strokes of the cardioembolic subtype was diagnosed in the ACerA territory in the presence of an unstable atherosclerotic plaque: group 1 (CPP) 0%; group 2 (IPP) 0%; group 3 (OPP) 0.24%, n = 1; group 4 (CAP) 0.18%, n = 1; group 5 (IAP) 1.96%, n = 1; group 6 (OAP) 5.1%, n = 2; p 0.9999. The probable cause was embolization against the background increase in the arterial pressure before ICA clamping. In turn, the majority of ischemic strokes of the hemodynamic subtype developed in the territory of PCerA: group 1 (CPP) 0%; group 2 (IPP) 1.73%, n = 3; group 3 (OPP) 3.8%, n = 2; group 4 (CAP) 0.18%, n = 1; group 5 (IAP) 0%; group 6 (OAP) 2.56%, n = 1; p 0.9999. This pattern coincided with the largest number of patients with CW of the IPP and OPP types among all open variants of the structure. CONCLUSION: Parameters of retrograde pressure in the ICA and intraoperative cerebral oximetry do not always demonstrate the need for a temporary shunt (TS). Due to the opened structure of CW, the redistribution of blood flow occurs with the formation of zones of hypo- and hyperperfusion, causing ischemic alterations in the brain matter. Thus, in order to maintain adequate cerebral hemodynamics, to mitigate the effect of hypo- and hyperperfusion, and reduce the risk of ischemic stroke, the open variant of the CW structure should be considered as an indication for a TS.
This article provides data from the current Russian (National guidelines for the management of patients with diseases of the brachiocephalic arteries of 2013; Recommendations “Blockage and stenosis of the carotid artery” of the Ministry of Health of the Russian Federation, 2016) and foreign (European Society of Cardiology / European Society of Vascular Surgeons for Diagnosis and Treatment Peripheral Artery Diseases 2017; Recommendations for myocardial revascularization of the European Society of Cardiology and the European Association of Cardio-Thoracic Surgeons 2018) recommendations regarding the choice of a revascularization strategy for combined coronary and carotid artery disease. Conclusions are drawn about the unresolved issue. A literature review of the largest series of Russian articles by one institution devoted to this topic was carried out. Hospital and long-term outcomes have been demonstrated, as well as predictors of complications for various revascularization strategies. The stages of creation and the results of approbation of a new computer program for risk stratifi cation, which makes it possible to determine the mathematical probability of the development of unfavorable cardiovascular events during the implementation of various surgical tactics, taking into account the individual characteristics of the patient. A conclusion was made about the effectiveness of this development.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.