Royse et al. Vessel Plus 2020;4:5  I  http://dx.doi.org/10.20517/2574-1209.2019.34                                                   Page 21 of 22

               65.  Gaudino M, Luciani N, Nasso G, Salica A, Canosa C, et al. Is postoperative calcium channel blocker therapy needed in patients with
                   radial artery grafts? J Thorac Cardiovasc Surg 2005;129:532-5.
               66.  Gaudino M, Benedetto U, Fremes SE, Hare DL, Hayward P, et al. Effect of calcium-channel blocker therapy on radial artery grafts after
                   coronary bypass surgery. J Am Coll Cardiol 2019;73:2299-306.
               67.  Royse AG, Pawanis Z, Clarke-Errey S, Royse CF. Calcium-channel blockers and radial artery grafting. J Am Coll Cardiol 2019;74:1422.
               68.  Glineur D, Hanet C, D’Hoore W, Poncelet A, De Kerchove L, et al. Causes of non-functioning right internal mammary used in a Y-graft
                   configuration: insight from a 6-month systematic angiographic trial. Eur J Cardiothorac Surg 2009;36:129-35.
               69.  Khot UN, Friedman DT, Pettersson G, Smedira NG, Li J, et al. Radial artery bypass grafts have an increased occurrence of
                   angiographically severe stenosis and occlusion compared with left internal mammary arteries and saphenous vein grafts. Circulation
                   2004;109:2086-91.
               70.  Nakajima H, Kobayashi J, Tagusari O, Bando K, Niwaya K, et al. Competitive flow in arterial composite grafts and effect of graft
                   arrangement in Off-Pump coronary revascularization. Ann Thorac Surg 2004;78:481-6.
               71.  Nakajima H, Kobayashi J, Toda K, Fujita T, Shimahara Y, et al. A 10-year angiographic follow-up of competitive flow in sequential and
                   composite arterial grafts. Eur J Cardiothorac Surg 2011;40:399-404.
               72.  Nakajima H, Kobayashi J, Toda K, Fujita T, Shimahara Y, et al. Angiographic evaluation of flow distribution in sequential and composite
                   arterial grafts for three vessel disease. Eur J Cardiothorac Surg 2012;41:763-9.
               73.  Paterson HS, Bannon PG. Composite Y grafts from the left internal mammary artery: current considerations. Heart Lung Circ
                   2018;27:133-7.
               74.  Yanagawa B, Verma S, Juni P, Tam DY, Mazine A, et al. A systematic review and meta-analysis of in situ versus composite bilateral
                   internal thoracic artery grafting. J Thorac Cardiovasc Surg 2017;153:1108-16.e16.
               75.  Glineur D, Hanet C, Poncelet A, D’Hoore W, Funken JC, et al. Comparison of bilateral internal thoracic artery revascularization using
                   in situ or Y graft configurations: a prospective randomized clinical, functional, and angiographic midterm evaluation. Circulation
                   2008;118:S216-21.
               76.  Hwang HY, Kim JS, Cho KR, Kim KB. Bilateral internal thoracic artery in situ versus y-composite graftings: five-year angiographic
                   patency and long-term clinical outcomes. Ann Thorac Surg 2011;92:579-85.
               77.  Birkmeyer JD, Stukel TA, Siewers AE, Goodney PP, Wennberg DE, et al. Surgeon volume and operative mortality in the united states. N
                   Engl J Med 2003;349:2117-27.
               78.  Finks JF, Osborne NH, Birkmeyer JD. Trends in hospital volume and operative mortality for high-risk surgery. N Engl J Med
                   2011;364:2128-37.
               79.  Glance LG, Dick AW, Mukamel DB, Osler TM. Is the hospital volume-mortality relationship in coronary artery bypass surgery the same
                   for low-risk versus high-risk patients? Ann Thorac Surg 2003;76:1155-62.
               80.  Gutacker N, Bloor K, Cookson R, Gale CP, Maynard A, et al. Hospital surgical volumes and mortality after coronary artery bypass
                   grafting: using international comparisons to determine a safe threshold. Health Serv Res 2017;52:863-78.
               81.  Díaz de Tuesta I, Cuenca J, Fresneda PC, Calleja M, Llorens R, et al. Volume-outcome relationship between surgical volume and
                   mortality in cardiac surgery units in Spain. 2008;61:276-82. (in Spanish)
               82.  Ricciardi R, Virnig BA, Ogilvie JW Jr, Dahlberg PS, Selker HP, et al. Volume-outcome relationship for coronary artery bypass grafting in
                   an era of decreasing volume. Arch Surg 2008;143:338-44.
               83.  Royse AG, Royse CF, Tatoulis J. Total arterial coronary revascularization and factors influencing in- hospital mortality. Eur J Cardiothorac
                   Surg 1999;16:499-505.
               84.  Suzuki T, Asai T, Nota H, Kinoshita T, Fujino S. Impact of total arterial reconstruction on long-term mortality and morbidity: off-pump
                   total arterial reconstruction versus non-total arterial reconstruction. Ann Thorac Surg 2015;100:2244-9.
               85.  Kobayashi J, Tagusari O, Bando K, Niwaya K, Nakajima H, et al. Total arterial off-pump coronary revascularization with only internal
                   thoracic artery and composite radial artery grafts. Heart Surg Forum 2002;6:30-7.
               86.  Muneretto C, Negri A, Manfredi J, Terrini A, Rodella G, et al. Safety and usefulness of composite grafts for total arterial myocardial
                   revascularization: a prospective randomized evaluation. J Thorac Cardiovasc Surg 2003;125:826-35.
               87.  Kamiya H, Watanabe G, Takemura H, Tomita S, Nagamine H, et al. Total arterial revascularization with composite skeletonized
                   gastroepiploic artery graft in off-pump coronary artery bypass grafting. J Thorac Cardiovasc Surg 2004;127:1151-7.
               88.  Raja SG, Haider Z, Zaman H, Ahmed M. Total arterial myocardial revascularization: analysis of initial experience. Ann Saudi Med
                   2005;25:13-7.
               89.  Damgaard S, Lund JT, Lilleor NB, Perko MJ, Sander K, et al. Comparable three months’ outcome of total arterial revascularization versus
                   conventional coronary surgery: copenhagen arterial revascularization randomized patency and outcome trial. J Thorac Cardiovasc Surg
                   2008;135:1069-75.
               90.  Festinger L. Cognitive dissonance. Sci Am 1962;207:93-106.
               91.  Festinger L. A Theory of Cognitive Dissonance IL: Row, Peterson, Evanston; 1957.
               92.  McBride LR, Barner HB. The left internal mammary artery as a sequential graft to the left anterior descending system. J Thorac
                   Cardiovasc Surg 1983;86:703-5.
               93.  Rammos KS, Koullias GJ, Pappou TJ, Bakas AJ, Panagopoulos PG, et al. A computer model for the prediction of left epicardial coronary
                   blood flow in normal, stenotic and bypassed coronary arteries, by single or sequential grafting. Cardiovasc Surg 1998;6:635-48.
               94.  Glineur D, Etienne PY, Kuschner CE, Shaw RE, Ferrari G, et al. Bilateral internal mammary artery Y construct with multiple sequential
                   grafting improves survival compared to bilateral internal mammary artery with additional vein grafts: 10-year experience at 2 different