1. Bokeriya L.A., Pursnov M.G., Sobolev A.V. i dr. Analiz rezul'tatov intraoperatsionnoi shuntografii u 600 bol'nykh ishemicheskoi bolezn'yu serdtsa posle operatsii koronarnogo shuntirovaniya. Grudnaya i serdechno-sosudistaya khirurgiya. 2016; 58(3): 143– 151.

2. Shumkov K.V., Lefterova N.P., Pak N.L. i dr. Aortokoronarnoe shuntirovanie v usloviyakh iskusstvennogo krovoobrashcheniya i na rabotayushchem serdtse: sravnitel'nyi analiz blizhaishikh i otdalennykh rezul'tatov i posleoperatsionnykh oslozhnenii (narusheniya ritma serdtsa, kognitivnye i nevrologicheskie rasstroistva, reologicheskie osobennosti i sostoyanie sistemy gemostaza). Kreativnaya kardiologiya. 2009; 1: 28–50.

3. Sevost'yanova V.V., Golovkin A.S., Filip'ev D.E. i dr. Vybor optimal'nykh parametrovelektrospinninga dlya izgotovleniya sosudistogo grafta malogo diametra iz polikaprolaktona. Fundamental'nye issledovaniya. 2014; 10(1): 180–184.

4. Jantzen A.E., Lane W.O., Gage S.M., et al. Autologous endothelial progenitor cell-seeding technology and bio-compatibility testing for cardiovascular devices in large animal model. J. Vis. Exp. (55), e3197.

5. Laube H.R., Duwe J., Rutsch W., et al. Clinical experience with autologous endothelial cell-seeded polytetra-fluoroethylene coronary artery bypass grafts. J. Thorac. Cardiovasc. Surg. 2000; 120(1): 134–141.