Clinical efficacy of minimally invasive multi-vessel coronary artery bypass grafting assisted by Da Vinci robot_Chinese Journal of Clinical Thoracic and Cardiovascular Surgery

Authors：

LI Jiahui , CUI Chenyi , LI Haoqi , XUAN Jizhong , LI Zhao , WANG Sheng , SUN Junjie ,  CHENG Zhaoyun

Department of Cardiac Surgery, Central China Fuwai Hospital of Zhengzhou University, Zhengzhou, 450000, P. R. China;

Corresponding?author：

CHENG Zhaoyun, Email: Chengzhy@zzu.edu.cn

Keywords：

Coronary heart disease; Da Vinci robot; minimally invasive surgery; off-pump coronary artery bypass grafting

DOI：

10.7507/1007-4848.202412033

Video：

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Objective To explore the clinical efficacy of robot-assisted coronary artery bypass grafting through a small incision in the left intercostal space in the treatment of multivessel coronary disease. Methods A retrospective analysis was conducted on the clinical data of patients who underwent coronary artery bypass grafting through a small incision in the left intercostal space at Central China Fuwai Hospital of Zhengzhou University from January 1, 2023 to October 15, 2024. Patients were divided into a robotic group and a minimally invasive group based on whether the surgery was assisted by the Da Vinci robot. Results A total of 81 patients were included, with 57 in the minimally invasive group, including 41 males and 16 females, with a median age of 65.0 (57.5, 69.5) years; and 24 in the robotic group, including 17 males and 7 females, with a median age of 61.0 (56.0, 69.0) years. There was no statistically significant difference in baseline data between the two groups (P>0.05). The robotic group had less intraoperative bleeding [300 (200, 438) mL vs. 500 (375, 600) mL, P=0.006], shorter postoperative mechanical ventilation time [15.0 (13.3, 23.5) h vs. 22.0 (15.5, 39.5) h, P=0.037], and lower incidence of postoperative pain [8 (33.3%) vs. 33 (57.9%), P=0.043]. The hospitalization cost in the robotic group was higher than that in the minimally invasive group [130491 (123298, 135691) yuan vs. 123892 (115543, 133449) yuan, P=0.023]. There was no statistical difference in postoperative laboratory indicators between the two groups (P>0.05). There was also no statistical difference in the duration of surgery, postoperative 24 h drainage volume, ICU stay time, postoperative hospital stay or incidences of perioperative compications including pleural effusion, transfusion, new-onset atrial fibrillation, acute kidney injury, non-union of incision, major cardiovascular and cerebrovascular adverse events, and reoperation between the two groups (P>0.05). Conclusion Compared with the minimally invasive group, the robotic group shows satisfactory efficacy and can effectively reduce postoperative pain and intraoperative bleeding, and shorten postoperative mechanical ventilation time.

1.	劉明波, 何新葉, 楊曉紅, 等. 《中國心血管健康與疾病報告2023》要點解讀. 中國心血管雜志, 2024, 29(4): 305-324.Liu MB, He XY, Yang XH, et al. Interpretation of report on cardiovascular health and diseases in China 2023. Chin J Cardiovasc Dis, 2024, 29(4): 305-324.
2.	Giambruno V, Chu MW, Fox S, et al. Robotic-assisted coronary artery bypass surgery: An 18-year single-centre experience. Int J Med Robot, 2018, 14(3): e1891.
3.	趙澤原, 王志華, 王圣, 等. 左側肋間小切口微創多支冠狀動脈旁路移植術療效的單中心回顧性研究. 中國胸心血管外科臨床雜志, 2024. [Epub ahead of print ].Zhao ZY, Wang ZH, Wang S, et al. Clinical efficacy of minimally invasive coronary artery bypass grafting for multivessel coronary artery disease. Chin J Clin Thorac Cardiovasc Surg, 2024. [Epub ahead of print].
4.	Gong W, Cai J, Wang Z, et al. Robot-assisted coronary artery bypass grafting improves short-term outcomes compared with minimally invasive direct coronary artery bypass grafting. J Thorac Dis, 2016, 8(3): 459-468.
5.	Song Y, Zhai W, Ma S, et al. Machine learning-based prediction of off-pump coronary artery bypass grafting-associated acute kidney injury. J Thorac Dis, 2024, 16(7): 4535-4542.
6.	Takemura H. Robot-assisted coronary artery bypass. Circ J, 2014, 78(2): 313-314.
7.	Van Praet KM, Kofler M, Shafti TZN, et al. Minimally invasive coronary revascularisation surgery: A focused review of the available literature. Interv Cardiol, 2021, 16: e08.
8.	Lapierre H, Chan V, Sohmer B, et al. Minimally invasive coronary artery bypass grafting via a small thoracotomy versus off-pump: A case-matched study. Eur J Cardiothorac Surg, 2011, 40(4): 804-810.
9.	Gofus J, Cerny S, Shahin Y, et al. Robot-assisted vs. conventional MIDCAB: A propensity-matched analysis. Front Cardiovasc Med, 2022, 9: 943076.
10.	Cerny S, Oosterlinck W, Onan B, et al. Robotic cardiac surgery in Europe: Status 2020. Front Cardiovasc Med, 2022, 8: 827515.
11.	Sellin C, Laube S, Demianenko V, et al. Renal outcome in patients undergoing minimally invasive total coronary revascularization via anterior minithoracotomy compared to full median sternotomy coronary artery bypass grafting. J Clin Med, 2024, 13(18): 5418.
12.	Zhang WR, Garg AX, Coca SG, et al. Plasma IL-6 and IL-10 concentrations predict AKI and long-term mortality in adults after cardiac surgery. J Am Soc Nephrol, 2015, 26(12): 3123-3132.
13.	Cao C, Indraratna P, Doyle M, et al. A systematic review on robotic coronary artery bypass graft surgery. Ann Cardiothorac Surg, 2016, 5(6): 530-543.
14.	Van den Eynde J, Vaesen Bentein H, Decaluwé T, et al. Safe implementation of robotic-assisted minimally invasive direct coronary artery bypass: Application of learning curves and cumulative sum analysis. J Thorac Dis, 2021, 13(7): 4260-4270.
15.	Bonaros N, Schachner T, Wiedemann D, et al. Quality of life improvement after robotically assisted coronary artery bypass grafting. Cardiology, 2009, 114(1): 59-66.
16.	Lin TH, Wang CW, Shen CH, et al. Clinical outcomes of multivessel coronary artery disease patients revascularized by robot-assisted vs. conventional standard coronary artery bypass graft surgeries in real-world practice. Medicine (Baltimore), 2021, 100(3): e23830.
17.	Dokollari A, Sicouri S, Prendergrast G, et al. Robotic-assisted versus traditional full-sternotomy coronary artery bypass grafting procedures: A propensity-matched analysis of hospital costs. Am J Cardiol, 2024, 213: 12-19.
18.	Borst C, Gründeman PF. Minimally invasive coronary artery bypass grafting: An experimental perspective. Circulation, 1999, 99(11): 1400-1403.
19.	傅元豪, 宮一宸, 張魯鋒, 等. 應用多支動脈橋經左胸小切口與正中切口行冠狀動脈旁路移植術的臨床效果比較. 中國微創外科雜志, 2023, 23(3): 208-215.Fu YH, Gong YC, Zhang LF, et al. Comparative clinical study on the use of multiple arterial grafts for coronary artery bypass grafting via left thoracotomy small incision and median sternotomy. Chin J Minim Invasive Surg, 2023, 23(3): 208-215.

1. 劉明波, 何新葉, 楊曉紅, 等. 《中國心血管健康與疾病報告2023》要點解讀. 中國心血管雜志, 2024, 29(4): 305-324.Liu MB, He XY, Yang XH, et al. Interpretation of report on cardiovascular health and diseases in China 2023. Chin J Cardiovasc Dis, 2024, 29(4): 305-324.
2. Giambruno V, Chu MW, Fox S, et al. Robotic-assisted coronary artery bypass surgery: An 18-year single-centre experience. Int J Med Robot, 2018, 14(3): e1891.
3. 趙澤原, 王志華, 王圣, 等. 左側肋間小切口微創多支冠狀動脈旁路移植術療效的單中心回顧性研究. 中國胸心血管外科臨床雜志, 2024. [Epub ahead of print ].Zhao ZY, Wang ZH, Wang S, et al. Clinical efficacy of minimally invasive coronary artery bypass grafting for multivessel coronary artery disease. Chin J Clin Thorac Cardiovasc Surg, 2024. [Epub ahead of print].
4. Gong W, Cai J, Wang Z, et al. Robot-assisted coronary artery bypass grafting improves short-term outcomes compared with minimally invasive direct coronary artery bypass grafting. J Thorac Dis, 2016, 8(3): 459-468.
5. Song Y, Zhai W, Ma S, et al. Machine learning-based prediction of off-pump coronary artery bypass grafting-associated acute kidney injury. J Thorac Dis, 2024, 16(7): 4535-4542.
6. Takemura H. Robot-assisted coronary artery bypass. Circ J, 2014, 78(2): 313-314.
7. Van Praet KM, Kofler M, Shafti TZN, et al. Minimally invasive coronary revascularisation surgery: A focused review of the available literature. Interv Cardiol, 2021, 16: e08.
8. Lapierre H, Chan V, Sohmer B, et al. Minimally invasive coronary artery bypass grafting via a small thoracotomy versus off-pump: A case-matched study. Eur J Cardiothorac Surg, 2011, 40(4): 804-810.
9. Gofus J, Cerny S, Shahin Y, et al. Robot-assisted vs. conventional MIDCAB: A propensity-matched analysis. Front Cardiovasc Med, 2022, 9: 943076.
10. Cerny S, Oosterlinck W, Onan B, et al. Robotic cardiac surgery in Europe: Status 2020. Front Cardiovasc Med, 2022, 8: 827515.
11. Sellin C, Laube S, Demianenko V, et al. Renal outcome in patients undergoing minimally invasive total coronary revascularization via anterior minithoracotomy compared to full median sternotomy coronary artery bypass grafting. J Clin Med, 2024, 13(18): 5418.
12. Zhang WR, Garg AX, Coca SG, et al. Plasma IL-6 and IL-10 concentrations predict AKI and long-term mortality in adults after cardiac surgery. J Am Soc Nephrol, 2015, 26(12): 3123-3132.
13. Cao C, Indraratna P, Doyle M, et al. A systematic review on robotic coronary artery bypass graft surgery. Ann Cardiothorac Surg, 2016, 5(6): 530-543.
14. Van den Eynde J, Vaesen Bentein H, Decaluwé T, et al. Safe implementation of robotic-assisted minimally invasive direct coronary artery bypass: Application of learning curves and cumulative sum analysis. J Thorac Dis, 2021, 13(7): 4260-4270.
15. Bonaros N, Schachner T, Wiedemann D, et al. Quality of life improvement after robotically assisted coronary artery bypass grafting. Cardiology, 2009, 114(1): 59-66.
16. Lin TH, Wang CW, Shen CH, et al. Clinical outcomes of multivessel coronary artery disease patients revascularized by robot-assisted vs. conventional standard coronary artery bypass graft surgeries in real-world practice. Medicine (Baltimore), 2021, 100(3): e23830.
17. Dokollari A, Sicouri S, Prendergrast G, et al. Robotic-assisted versus traditional full-sternotomy coronary artery bypass grafting procedures: A propensity-matched analysis of hospital costs. Am J Cardiol, 2024, 213: 12-19.
18. Borst C, Gründeman PF. Minimally invasive coronary artery bypass grafting: An experimental perspective. Circulation, 1999, 99(11): 1400-1403.
19. 傅元豪, 宮一宸, 張魯鋒, 等. 應用多支動脈橋經左胸小切口與正中切口行冠狀動脈旁路移植術的臨床效果比較. 中國微創外科雜志, 2023, 23(3): 208-215.Fu YH, Gong YC, Zhang LF, et al. Comparative clinical study on the use of multiple arterial grafts for coronary artery bypass grafting via left thoracotomy small incision and median sternotomy. Chin J Minim Invasive Surg, 2023, 23(3): 208-215.

Chinese Journal of Clinical Thoracic and Cardiovascular Surgery

Latest ArticlesClinical efficacy of minimally invasive multi-vessel coronary artery bypass grafting assisted by Da Vinci robot

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