StevensJHBurdonTAPetersWS, et al. Port-access coronary artery bypass grafting: a proposed surgical method. J Thorac Cardiovasc Surg1996; 111: 567–573.
2.
OnnaschJFSchneiderFFalkV, et al. Five years of less invasive mitral valve surgery: from experimental to routine approach. Heart Surg Forum2002; 5: 132–135.
3.
CasselmanFPVan SlyckeSWellensF, et al. Mitral valve surgery can now routinely be performed endoscopically. Circulation2003; 108(suppl 1): II48–II54.
4.
KypsonAPChitwoodWRJr.Robotic mitral valve surgery. Am J Surg2004; 188(4A suppl):83S–88S.
5.
FalkVChengDCMartinJ, et al. Minimally invasive versus open mitral valve surgery: a consensus statement of the International Society of Minimally Invasive Coronary Surgery (ISMICS) 2010. Innovations2011; 6: 66–76.
6.
GoldstoneABAtluriPSzetoWY, et al. Minimally invasive approach provides at least equivalent results for surgical correction of mitral regurgitation: a propensity-matched comparison. J Thorac Cardiovasc Surg2013; 145: 748–756.
7.
GrantSWHickeyGLModiP, et al. Propensity-matched analysis of minimally invasive approach versus sternotomy for mitral valve surgery. Heart2019; 105: 783–789.
8.
AkowuahEFMaierRHHancockHC, et al. Minithoracotomy vs conventional sternotomy for mitral valve repair: a randomized clinical trial. JAMA2023; 329: 1957–1966.
9.
KoKVerhagenAFTMde KroonTL, et al. Decision making during the learning curve of minimally invasive mitral valve surgery: a focused review for the starting minimally invasive surgeon. J Clin Med2022; 11: 5993.
10.
Sardari NiaPOlsthoornJRHeutsS, et al. Effect of a dedicated mitral heart team compared to a general heart team on survival: a retrospective, comparative, non-randomized interventional cohort study based on prospectively registered data. Eur J Cardiothorac Surg2021; 60: 263–273.
11.
SadeghiAHBakhuisWVan SchaagenF, et al. Immersive 3D virtual reality imaging in planning minimally invasive and complex adult cardiac surgery. Eur Heart J Digit Health2020; 1: 62–70.
12.
Sardari NiaPHeutsSDaemenJHT, et al. The EACTS simulation-based training course for endoscopic mitral valve repair: an air-pilot training concept in action. Interact Cardiovasc Thorac Surg2020; 30: 691–698.
13.
GiannopoulosAASteignerMLGeorgeE, et al. Cardiothoracic applications of 3-dimensional printing. J Thorac Imaging2016; 31: 253–272.
14.
ChitwoodWRJr.Historical evolution of robot-assisted cardiac surgery: a 25-year journey. Ann Cardiothorac Surg2022; 11: 564–582.
15.
MurphyDA.Endoscopic robotic mitral surgery: looking for a few good surgeons. Innovations2020; 15: 198–203.
16.
BalkhyHHKitaharaH.First human totally endoscopic robotic-assisted sutureless aortic valve replacement. Ann Thorac Surg2020; 109: e9–e11.
17.
BalkhyHHNisivacoSMHashimotoM, et al. Robotic total endoscopic coronary bypass in 570 patients: impact of anastomotic technique in two eras. Ann Thorac Surg2022; 114: 476–482.
18.
BalkhyHHAmabileATorregrossaG.A shifting paradigm in robotic heart surgery: from single-procedure approach to establishing a robotic heart center of excellence. Innovations2020; 15: 187–194.
19.
Van PraetKMKoflerMKempfertJ.Cannulation techniques for cardiopulmonary bypass in endoscopic cardiac surgery. In: ZachariasJ (ed) Endoscopic cardiac surgery. Cham: Springer, 2023.
20.
LamelasJAberleCMaciasAE, et al. Cannulation strategies for minimally invasive cardiac surgery. Innovations2020; 15: 261–269.
21.
HolzheyDMSeeburgerJMisfeldM, et al. Learning minimally invasive mitral valve surgery: a cumulative sum sequential probability analysis of 3895 operations from a single high-volume center. Circulation2013; 128: 483–491.
22.
AbdelazizHKWiperASaravananP, et al. Iatrogenic left circumflex vessel occlusion after minimal access mitral valve repair: the role of optical coherence tomography. Coron Artery Dis2017; 28: 445–446.
23.
AbdelbarAZachariasJ.Endoscopic surgery for cardiac tumours. In: ZachariasJ (ed) Endoscopic cardiac surgery. Cham: Springer, 2023.
24.
GradyKKitaharaHNisivacoSBalkhyH. Intra-operative balloon tamponade of robotic port sites decreases bleeding complications in robotic endoscopic mitral valve surgery. In: ISMICS 2023 Annual Scientific Meeting, Boston, MA, USA, 31 May-3 June 2023, paper no. C7. Beverly, MA: The International Society for Minimally Invasive Cardiothoracic Surgery.
25.
NisivacoSPatelBColemanCet al. Postoperative day 1 discharge after robotic totally endoscopic coronary bypass: the ultimate in enhanced recovery after surgery. Innovations2023; 18: 159–166.
