1. Brott T.G., Halperin J.L., Abbara S. et al. American College of Cardiology Founda-tion/American Heart Association Task Force on Practice Guidelines: American Stroke Association; American Association of Neuroscience Nurses; American Association of Neurological Surgeons; American College of Radiology; American Society of Neuroradiology; Congress of Neurological Surgeons; Society of Atherosclerosis Imaging and Prevention; Society for Cardiovascular Angi-ography and Interventions; Society of Interventional Radiology; Society of NeuroInterventional Surgery; Society for Vascular Medicine; Society for Vascular Surgery; American Academy of Neu-rology and Society of Cardiovascular Computed Tomography: 2011 ASA/ACCF/AHA/AANN/AANS/ACR/ASNR/CNS/SAIP/CAI/SIR/SNIS/SVM/SVS guideline on the management of patients with extracranial carotid and vertebral artery disease: executive sum-mary // Stroke.- 2011. №42. – P. 420–463.
2. Gaudry M., Bartoli J.-M., Bal L. et al. Anatomical and technical factors influence the rate of in-stent restenosis following carotid artery stenting for the treatment of post-carotid endarterectomy stenosis // PLOS ONE. – 2016. – V.9. – P.1-15.
3. Akgul E. A new concept for carotid artery stenting: coating the atherosclerotic plaque by cov-ered stent before bare stent implantation // Case reports in neurological medicine. – 2016. – №1. – P.21-25.
4. Li J., Shalabi A., Ji F., Meng L. Monitoring cerebral ischemia during carotid endarterectomy and stenting // J. Biomed. Res. – 2016. – V.31. – P.121-127
5. Liu J., Lieb M, Shah U, Hines GL. Cerebral hyperperfusion syndrome after carotidinterven-tion: a review // Cardiol Rev. – 2012. V. 20. - №2. – P. 84-9.
6. Matsumoto N., Enatsu R., Matsui Y. et al. Perioperative Evaluation of Cerebral Blood Flow Using 123I‐labeled N‐isopropyl‐p‐iodoamphetamine Single‐Photon Emission Computed Tomog-raphy without Blood Sampling in Patients Who Underwent Carotid Artery Stenting // Chinese Med-ical J. – 2016. – V.129. – p.1616-1618.
7. Popova L.A. The optimization of diagnostic algorithms and surgery of carotid stenosis. PhD thesis. Moscow. 2001. 147 p. Russian (Попова Л.А. Оптимизация алгоритмов диагностики и тактики хирургического лечения больных со стенозами сонных артерий // Дис. на соиск. учен. степ. канд. мед. наук. – Москва: 2011. – 147 с.)
8. Sharova I.M. The complex instrumental estimation of cerebrovascular reactivity carotid ath-erosclerosis and the mathmodeling of haemodynamic affectivity of cerebral revascularization. PhD thesis. Moscow. 2007. 161 p. Russian (Шарова И.М. Комплексная инструментальная оценка церебрососудистой реактивности у больных с каротидным и коронарным атеросклерозом и математическое моделирование гемодинамической эффективности реваскуляризации голов-ного мозга // Дис. на соиск. учен. степ. канд. мед. наук. – Москва: 2007. – 161с.)
9. Bessonov N., Sequeira A., Simakov S., Vassilevskii Y., Volpert V. Methods of blood flow modelling // Mathematical modelling of natural phenomena, 2016, 11(1), 1-25.
10. Kholodov A.S. Some dynamical models of external breathing and blood circulation regarding to their interaction and substances transfer // Computational Models and Medical Progress, 2001, P. 127-163. Russian (Холодов А.С. Некоторые динамические модели внешнего дыхания и кровообращения с учетом их связности и переноса веществ // в сб. Компьютерные модели и прогресс медицины, под ред. О.М. Белоцерковский, А.С. Холодов, М.: Наука, 2001, с.127-163.)
11. Müller L.O., Toro E. A global multiscale mathematical model for the human circulation with emphasis on the venous system // International journal for numerical methods in biomedical engineering, 2014, 30(7), 681-725.
12. Alastruey J., Moore S.M., Parker K.H. et al. Reduced modelling of blood flow in the cerebral circulation: Coupling 1-D, 0-D and cerebral auto-regulation models // International journal for numerical methods in fluids, 2008, 56(8), 1061-1067.
13. Gamilov T., Pryamonosov R., Simakov S. Modeling of patient-specific cases of atherosclerosis in carotid arteries // Proceedings of the VII European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2016, 2016, vol.2, 81-89, ISBN 978-618-82844-01.
14. Blanco P.J., Watanabe S.M., Passos M.A.R.F., Lemos P.A., Feij´oo R.A. An anatomically detailed arterial network model for one-dimensional computational hemodynamics // IEEE Transactions on biomedical engineering, 2015, 62(2), 736-753.
15. Danilov A., Ivanov Y., Pryamonosov R., Vassilevski Y. Methods of graph network recon-struction in personalized medicine // International journal for numerical methods in biomedical en-gineering, 2016, 32(8), doi: 10.1002/cnm.2754.
