REFERENCES

1. Lee B-B, Bergan JJ, Rockson SG. Lymphedema : a concise compendium of theory and practice. London: Springer;2011.

2. DiSipio T, Rye S, Newman B, Hayes S. Incidence of unilateral arm lymphoedema after breast cancer: a systematic review and meta-analysis. Lancet Oncol 2013;14:500-15.

3. Hayes SC, Janda M, Ward LC, et al. Lymphedema following gynecological cancer: Results from a prospective, longitudinal cohort study on prevalence, incidence and risk factors. Gynecol Oncol 2017;146:623-9.

4. Felmerer G, Sattler T, Lohrmann C, Tobbia D. Treatment of various secondary lymphedemas by microsurgical lymph vessel transplantation. Microsurgery 2012;32:171-7.

5. Grünherz L, Angst F, Barbon C, et al. Cultural adaption and multicenter validation of the German version of the LYMPH-Q Upper Extremity Module. J Vasc Surg Venous Lymphat Disord 2022;10:922-928.e2.

6. Uyulmaz S, Scaglioni MF, Lindenblatt N. Chirurgische Therapie des Lymphödems - Möglichkeiten und Grenzen. Praxis (Bern 1994) 2017;106:1331-8.

7. Garcés M, Pons G, Mirapeix R, Masià J, et al. Intratissue lymphovenous communications in the mechanism of action of vascularized lymph node transfer. J Surg Oncol 2017;115:27-31.

8. Chun MJ, Saeg F, Meade A, et al. Immediate lymphatic reconstruction for prevention of secondary lymphedema: a meta-analysis. J Plast Reconstr Aesthet Surg 2022;75:1130-41.

9. Kong X, Du J, Du X, Cong X, Zhao Q. A Meta-analysis of 37 studies on the effectiveness of microsurgical techniques for lymphedema. Ann Vasc Surg 2022;86:440-451.e6.

10. Ballantyne GH. Robotic surgery, telerobotic surgery, telepresence, and telementoring. Review of early clinical results. Surg Endosc 2002;16:1389-402.

11. Leung T, Vyas D. Robotic surgery: applications. Am J Robot Surg 2014;1:1-64.

12. Dobbs TD, Cundy O, Samarendra H, Khan K, Whitaker IS. A systematic review of the role of robotics in plastic and reconstructive surgery-from inception to the future. Front Surg 2017;4:66.

13. der Hulst R, Sawor J, Bouvy N. Microvascular anastomosis: is there a role for robotic surgery? J Plast Reconstr Aesthet Surg 2007;60:101-2.

14. van Mulken TJM, Boymans CAEM, Schols RM, et al. Preclinical experience using a new robotic system created for microsurgery. Plast Reconstr Surg 2018;142:1367-76.

15. Lindenblatt N, Grünherz L, Wang A, et al. Early experience using a new robotic microsurgical system for lymphatic surgery. Plast Reconstr Surg Glob Open 2022;10:e4013.

16. Selber JC. The robotic DIEP flap. Plast Reconstr Surg 2020;145:340-3.

17. Lindenblatt N, Gruenherz L, Farhadi J. A systematic review of donor site aesthetic and complications after deep inferior epigastric perforator flap breast reconstruction. Gland Surg 2019;8:389-98.

18. Scaglioni MF, Arvanitakis M, Chen YC, Giovanoli P, Chia-Shen Yang J, Chang EI. Comprehensive review of vascularized lymph node transfers for lymphedema: Outcomes and complications. Microsurgery 2018;38:222-9.

19. Forte AJ, Cinotto G, Boczar D, Huayllani MT, McLaughlin SA. Omental lymph node transfer for lymphedema patients: a systematic review. Cureus 2019;11:e6227.

20. Frey JD, Yu JW, Cohen SM, Zhao LC, Choi M, Levine JP. Robotically assisted omentum flap harvest: a novel, minimally invasive approach for vascularized lymph node transfer. Plast Reconstr Surg Glob Open 2020;8:e2505.

21. Özkan Ö, Özkan Ö, Çinpolat A, Arıcı C, Bektaş G, Can Ubur M. Robotic harvesting of the omental flap: a case report and mini-review of the use of robots in reconstructive surgery. J Robot Surg 2019;13:539-43.

22. Nacchiero E, Maruccia M, Elia R, Robusto F, Giudice G, Manrique OJ, Campisi CC, Giudice G. Lymphovenous anastomosis for the treatment of lymphedema: a systematic review of the literature and meta-analysis. Lymphology 2020;53:172-94.

23. Chang EI, Skoracki RJ, Chang DW. Lymphovenous anastomosis bypass surgery. Semin Plast Surg 2018;32:22-7.

24. Ibrahim AE, Sarhane KA, Selber JC. New frontiers in robotic-assisted microsurgical reconstruction. Clin Plast Surg 2017;44:415-23.

25. Mulken TJM, Schols RM, Scharmga AMJ, et al. MicroSurgical Robot Research Group. First-in-human robotic supermicrosurgery using a dedicated microsurgical robot for treating breast cancer-related lymphedema: a randomized pilot trial. Nat Commun 2020;11:757.

26. van Mulken TJM, Wolfs JAGN, Qiu SS, et al. MicroSurgical Robot Research Group. One-year outcomes of the first human trial on robot-assisted lymphaticovenous anastomosis for breast cancer-related lymphedema. Plast Reconstr Surg 2022;149:151-61.

27. Barbon C, Grünherz L, Uyulmaz S, Giovanoli P, Lindenblatt N. Exploring the learning curve of a new robotic microsurgical system for microsurgery. JPRAS Open 2022;34:126-33.

28. Alrasheed T, Liu J, Hanasono MM, Butler CE, Selber JC. Robotic microsurgery: validating an assessment tool and plotting the learning curve. Plast Reconstr Surg 2014;134:794-803.

29. van Mulken TJM, Schols RM, Qiu SS, et al. Robotic (super) microsurgery: feasibility of a new master-slave platform in an in vivo animal model and future directions. J Surg Oncol 2018;118:826-31.

30. Cornelissen AJM, van Mulken TJM, Graupner C, et al. Near-infrared fluorescence image-guidance in plastic surgery: A systematic review. Eur J Plast Surg 2018;41:269-78.

31. Bhandari M, Zeffiro T, Reddiboina M. Artificial intelligence and robotic surgery: current perspective and future directions. Curr Opin Urol 2020;30:48-54.

32. Lindenblatt N, Puippe G, Broglie MA, Giovanoli P, Grünherz L. Lymphovenous anastomosis for the treatment of thoracic duct lesion: a case report and systematic review of literature. Ann Plast Surg 2020;84:402-8.