References
1. Belov Yu.V., Fadin B.V. Rekonstruktivnye operatsii v aorto-podvzdoshnoy zone iz mini-dostupa: monografiya. (Reconstructive operations in the aorto-iliac zone from mini-access: monograph.). Ekaterinburg: Tsentr «Uchebnaya kniga», 2007. (in Russian)
2. Jones W.S., Patel M.R., Dai D., et al. High mortality risks after major lower extremity amputation in Medicare patients with peripheral artery disease. Am Heart J. 2013; 165 (5): 809–15.e1.
3. Van D.H., Boesmans E., Defraigne J.O. L-ischémieaigué des membresinférieurs [Acute limb ischemia]. Rev Med Liege. 2018; 73 (5-6): 304-11.
4. Yeung K.K., Conte M.S. Where do we go to in the treatment of acute limb ischaemia? Eur J Vasc Endovasc Surg. 2020; 59 (2): 171–2.
5. Simon F., Oberhuber A., Floros N., et al. Acute limb ischemia-much more than just a lack of oxygen. Int J Mol Sci. 2018; 19 (2): 374.
6. Dormandy J., Heeck L., Vig S. Acute limb ischemia. Semin Vasc Surg. 1999; 12 (2): 148–53.
7. Dillingham T.R., Pezzin L.E., Shore A.D. Reamputation, mortality, and health care costs among persons with dysvascular lower-limb amputations. Arch Phys Med Rehabil. 2005; 86 (3): 480–6.
8. Shah S.K., Bena J.F., Allemang M.T., et al. Lower extremity amputations: factors associated with mortality or contralateral amputation. Vasc Endovasc Surg. 2013; 47 (8): 608–13.
9. Sigvant B., Wiberg-Hedman K., Bergqvist D., Rolandsson O., Andersson B., Persson E., et al. A populationbased study of peripheral arterial disease prevalence with special focus on critical limb ischemia and sex differences. J Vasc Surg. 2007; 45 (6): 1185–91.
10. Rowe V.L., Lee W., Weaver F.A., Etzioni D. Patterns of treatment for peripheral arterial disease in the United States: 1996–2005. J Vasc Surg. 2008; 49 (4): 910–7.
11. Vasil’chenko E.M. Dynamics of the frequency of amputations of the lower limb in Novokuznetsk. A retrospective study. Meditsina v Kuzbasse [Medicine in Kuzbass]. 2018; (4): 5–10. (in Russian)
12. Moysidis T., Nowack T., Eickmeyer F., Waldhausen P., Brunken A., Hochlenert D. Trends in amputations in people with hospital admissions for peripheral arterial disease in Germany. Vasa. 2011; 40 (4): 289–95.
13. Zhu L., She Z.G., Cheng X., et al. Association of blood glucose control and outcomes in patients with COVID-19 and pre-existing type 2 diabetes. Cell Metab. 2020; 31: 1068–77.e3.
14. Feldman E.L., Savelieff M.G., Hayek S.S., Pennathur S., Kretzler M., Pop-Busui R. COVID-19 and diabetes: a collision and collusion of two diseases. Diabetes. 2020; 69 (12): 2549–65.
15. Dedov I.I., Shestakova M.V., Vikulova O.K., Zheleznyakova A.V., Isakov M.A. Diabetes mellitus in the Russian Federation: prevalence, morbidity, mortality, parameters of carbohydrate metabolism and structure of hypoglycemic therapy according to the Federal Register of Diabetes Mellitus, status 2017. Sakharniy diabet [Diabetes Mellitus]. 2018; 21 (3): 144–59. (in Russian)
16. Fokin A.A., Riffel’ A.V., Rudenko A.V., Alekseytsev V.A. «Large» amputations of the lower extremities after unsuccessful reconstructive operations on the arteries: the immediate and distant fate of patients. Patologiya krovoobrashcheniya i kardiokhirurgiya [Pathology of Blood Circulation and Cardiac Surgery]. 2006; (3): 72–6. (in Russian)