Page 202 - Read Online

P. 202

Page 14 of 16 Harik et al. Vessel Plus 2023;7:30 https://dx.doi.org/10.20517/2574-1209.2023.124
2006;132:373-8. DOI
25. Souza DS, Dashwood MR, Tsui JC, et al. Improved patency in vein grafts harvested with surrounding tissue: results of a randomized
study using three harvesting techniques. Ann Thorac Surg 2002;73:1189-95. DOI
26. Deb S, Singh SK, de Souza D, et al. SUPERIOR SVG: no touch saphenous harvesting to improve patency following coronary bypass
grafting (a multi-Centre randomized control trial, NCT01047449). J Cardiothorac Surg 2019;14:85. DOI PubMed PMC
27. Tian M, Wang X, Sun H, et al. No-touch versus conventional vein harvesting techniques at 12 months after coronary artery bypass
grafting surgery: multicenter randomized, controlled trial. Circulation 2021;144:1120-9. DOI
28. Ragnarsson S, Janiec M, Modrau IS, et al. No-touch saphenous vein grafts in coronary artery surgery (SWEDEGRAFT): rationale
and design of a multicenter, prospective, registry-based randomized clinical trial. Am Heart J 2020;224:17-24. DOI
29. Davis Z, Jacobs HK, Zhang M, Thomas C, Castellanos Y. Endoscopic vein harvest for coronary artery bypass grafting: technique and
outcomes. J Thorac Cardiovasc Surg 1998;116:228-35. DOI PubMed
30. Li G, Zhang Y, Wu Z, Liu Z, Zheng J. Mid-term and long-term outcomes of endoscopic versus open vein harvesting for coronary
artery bypass: a systematic review and meta-analysis. Int J Surg 2019;72:167-73. DOI
31. Deppe AC, Liakopoulos OJ, Choi YH, et al. Endoscopic vein harvesting for coronary artery bypass grafting: a systematic review with
meta-analysis of 27,789 patients. J Surg Res 2013;180:114-24. DOI
32. Kodia K, Patel S, Weber MP, et al. Graft patency after open versus endoscopic saphenous vein harvest in coronary artery bypass
grafting surgery: a systematic review and meta-analysis. Ann Cardiothorac Surg 2018;7:586-97. DOI PubMed PMC
33. Woodward LC, Antoniades C, Taggart DP. Intraoperative vein graft preservation: what is the solution? Ann Thorac Surg
2016;102:1736-46. DOI PubMed
34. Harik L, Perezgrovas-Olaria R, Soletti G Jr, et al. Graft thrombosis after coronary artery bypass surgery and current practice for
prevention. Front Cardiovasc Med 2023;10:1125126. DOI PubMed PMC
35. Motwani JG, Topol EJ. Aortocoronary saphenous vein graft disease: pathogenesis, predisposition, and prevention. Circulation
1998;97:916-31. DOI PubMed
36. Wan S, Arifi AA, Chan MC, et al. Differential, time-dependent effects of perivenous application of fibrin glue on medial thickening
in porcine saphenous vein grafts. Eur J Cardiothorac Surg 2006;29:742-6. DOI
37. Schoettler J, Jussli-Melchers J, Grothusen C, et al. Highly flexible nitinol mesh to encase aortocoronary saphenous vein grafts: first
clinical experiences and angiographic results nine months postoperatively. Interact Cardiovasc Thorac Surg 2011;13:396-400. DOI
38. Murphy GJ, Newby AC, Jeremy JY, Baumbach A, Angelini GD. A randomized trial of an external Dacron sheath for the prevention
of vein graft disease: the extent study. J Thorac Cardiovasc Surg 2007;134:504-5. DOI PubMed
39. Taggart DP, Ben Gal Y, Lees B, et al. A randomized trial of external stenting for saphenous vein grafts in coronary artery bypass
grafting. Ann Thorac Surg 2015;99:2039-45. DOI
40. Taggart DP, Webb CM, Desouza A, et al. Long-term performance of an external stent for saphenous vein grafts: the VEST IV trial. J
Cardiothorac Surg 2018;13:117. DOI PubMed PMC
41. Taggart DP, Amin S, Djordjevic J, et al. A prospective study of external stenting of saphenous vein grafts to the right coronary artery:
the VEST II study. Eur J Cardiothorac Surg 2017;51:952-8. DOI
42. Taggart DP, Gavrilov Y, Krasopoulos G, et al. External stenting and disease progression in saphenous vein grafts two years after
coronary artery bypass grafting: a multicenter randomized trial. J Thorac Cardiovasc Surg 2022;164:1532-41.e2. DOI
43. Park SJ, Kim HJ, Kim JB, et al. Sequential versus individual saphenous vein grafting during coronary arterial bypass surgery. Ann
Thorac Surg 2020;109:1165-73. DOI
44. Mehta RH, Ferguson TB, Lopes RD, et al. Saphenous vein grafts with multiple versus single distal targets in patients undergoing
coronary artery bypass surgery: one-year graft failure and five-year outcomes from the Project of ex-vivo vein graft engineering via
transfection (PREVENT) IV trial. Circulation 2011;124:280-8. DOI
45. Xenogiannis I, Zenati M, Bhatt DL, et al. Saphenous vein graft failure: from pathophysiology to prevention and treatment strategies.
Circulation 2021;144:728-45. DOI
46. Goldman S, Zadina K, Moritz T, et al. Long-term patency of saphenous vein and left internal mammary artery grafts after coronary
artery bypass surgery: results from a department of veterans affairs cooperative study. J Am Coll Cardiol 2004;44:2149-56. DOI
PubMed
47. Lorenz RL, Weber M, Kotzur J, et al. Improved aortocoronary bypass patency by low-dose aspirin (100 mg daily). Effects on platelet
aggregation and thromboxane formation. Lancet 1984;323:1261-4. DOI
48. Kulik A, Abreu AM, Boronat V, Kouchoukos NT, Ruel M. Ticagrelor versus aspirin and vein graft patency after coronary bypass: a
randomized trial. J Card Surg 2022;37:563-70. DOI
49. Kulik A, Abreu AM, Boronat V, Kouchoukos NT, Ruel M. Ticagrelor versus aspirin 2 years after coronary bypass: observational
analysis from the TARGET trial. J Card Surg 2022;37:1969-77. DOI
50. Sandner S, Redfors B, Angiolillo DJ, et al. Association of dual antiplatelet therapy with ticagrelor with vein graft failure after
coronary artery bypass graft surgery: a systematic review and meta-analysis. JAMA 2022;328:554-62. DOI
51. Solo K, Lavi S, Kabali C, et al. Antithrombotic treatment after coronary artery bypass graft surgery: systematic review and network
meta-analysis. BMJ 2019;367:l5476. DOI PubMed PMC
52. Lamy A, Browne A, Sheth T, et al. Skeletonized vs pedicled internal mammary artery graft harvesting in coronary artery bypass
surgery: a post hoc analysis from the COMPASS trial. JAMA Cardiol 2021;6:1042-9. DOI

197 198 199 200 201 202 203 204 205 206 207