Page 117 - Read Online
P. 117
Page 10 of 11 Seki et al. Plast Aesthet Res 2021;8:58 https://dx.doi.org/10.20517/2347-9264.2021.80
Consent for publication
Figures 1 and 2 and partial of figures 4 and 5 are from our articles in PRS and JPRAS. I have copyright
permissions from to journals to reuse them in this PAR issue including how to use them in this article.
Copyright
© The Author(s) 2021.
REFERENCES
1. O'Brien BM, Sykes P, Threlfall GN, Browning FS. Microlymphaticovenous anastomoses for obstructive lymphedema. Plast Reconstr
Surg 1977;60:197-211. DOI PubMed
2. Koshima I, Inagawa K, Urushibara K, Moriguchi T. Supermicrosurgical lymphaticovenular anastomosis for the treatment of
lymphedema in the upper extremities. J Reconstr Microsurg 2000;16:437-42. DOI PubMed
3. Yamamoto T, Narushima M, Yoshimatsu H, et al. Minimally invasive lymphatic supermicrosurgery (MILS): indocyanine green
lymphography-guided simultaneous multisite lymphaticovenular anastomoses via millimeter skin incisions. Ann Plast Surg
2014;72:67-70. DOI PubMed
4. Garza RM, Chang DW. Lymphovenous bypass for the treatment of lymphedema. J Surg Oncol 2018;118:743-9. DOI PubMed
5. Salgarello M, Mangialardi ML, Pino V, Gentileschi S, Visconti G. A prospective evaluation of health-related quality of life following
lymphaticovenular anastomosis for upper and lower extremities lymphedema. J Reconstr Microsurg 2018;34:701-7. DOI PubMed
6. Akita S, Mitsukawa N, Kuriyama M, et al. Suitable therapy options for sub-clinical and early-stage lymphoedema patients. J Plast
Reconstr Aesthet Surg 2014;67:520-5. DOI PubMed
7. Yang JC, Wu SC, Lin WC, Chiang MH, Chiang PL, Hsieh CH. Supermicrosurgical lymphaticovenous anastomosis as alternative
treatment option for moderate-to-severe lower limb lymphedema. J Am Coll Surg 2020;230:216-27. DOI PubMed
8. Mihara M, Seki Y, Hara H, et al. Predictive lymphatic mapping: a method for mapping lymphatic channels in patients with advanced
unilateral lymphedema using indocyanine green lymphography. Ann Plast Surg 2014;72:706-10. DOI PubMed
9. Seki Y, Yamamoto T, Kajikawa A. Lymphaticovenular anastomosis for breast cancer treatment-related lymphedema: three-line
strategy for an optimal outcome. J Plast Reconstr Aesthet Surg 2018;71:e13-4. DOI PubMed
10. Hayashi A, Hayashi N, Yoshimatsu H, Yamamoto T. Effective and efficient lymphaticovenular anastomosis using preoperative
ultrasound detection technique of lymphatic vessels in lower extremity lymphedema. J Surg Oncol 2018;117:290-8. DOI PubMed
11. Suzuki Y, Kajita H, Kono H, et al. The direct observation of lymphaticovenular anastomosis patency with photoacoustic
lymphangiography. Plast Reconstr Surg Glob Open 2021;9:e3348. DOI PubMed PMC
12. Yamamoto T, Yamamoto N, Yoshimatsu H, Narushima M, Koshima I. Factors associated with lymphosclerosis: an analysis on 962
lymphatic vessels. Plast Reconstr Surg 2017;140:734-41. DOI PubMed
13. Chang DW, Masia J, Garza R 3rd, Skoracki R, Neligan PC. Lymphedema: surgical and medical therapy. Plast Reconstr Surg
2016;138:209S-18S. DOI PubMed
14. Garza R 3rd, Skoracki R, Hock K, Povoski SP. A comprehensive overview on the surgical management of secondary lymphedema of
the upper and lower extremities related to prior oncologic therapies. BMC Cancer 2017;17:468. DOI PubMed PMC
15. Yamamoto T, Yamamoto N, Kageyama T, Sakai H, Fuse Y, Tsukuura R. Lymph-interpositional-flap transfer (LIFT) based on lymph-
axiality concept: Simultaneous soft tissue and lymphatic reconstruction without lymph node transfer or lymphatic anastomosis. J Plast
Reconstr Aesthet Surg ;2021:S1748-6815(21)00104. DOI PubMed
16. Maegawa J, Yabuki Y, Tomoeda H, Hosono M, Yasumura K. Outcomes of lymphaticovenous side-to-end anastomosis in peripheral
lymphedema. J Vasc Surg 2012;55:753-60. DOI PubMed
17. Winters H, Tielemans HJP, Verhulst AC, Paulus VAA, Slater NJ, Ulrich DJO. The long-term patency of lymphaticovenular
anastomosis in breast cancer-related lymphedema. Ann Plast Surg 2019;82:196-200. DOI PubMed
18. Koshima I, Kawada S, Moriguchi T, Kajiwara Y. Ultrastructural observations of lymphatic vessels in lymphedema in human
extremities. Plast Reconstr Surg 1996;97:397-405; discussion 406. DOI PubMed
19. Mihara M, Hara H, Hayashi Y, et al. Pathological steps of cancer-related lymphedema: histological changes in the collecting lymphatic
vessels after lymphadenectomy. PLoS One 2012;7:e41126. DOI PubMed PMC
20. Hara H, Mihara M, Seki Y, Todokoro T, Iida T, Koshima I. Comparison of indocyanine green lymphographic findings with the
conditions of collecting lymphatic vessels of limbs in patients with lymphedema. Plast Reconstr Surg 2013;132:1612-8. DOI PubMed
21. Seki Y, Kajikawa A, Yamamoto T, Takeuchi T, Terashima T, Kurogi N. The dynamic-lymphaticovenular anastomosis method for
breast cancer treatment-related lymphedema: creation of functional lymphaticovenular anastomoses with use of preoperative dynamic
ultrasonography. J Plast Reconstr Aesthet Surg 2019;72:62-70. DOI PubMed
22. Seki Y, Yamamoto T, Yoshimatsu H, et al. The superior-edge-of-the-knee incision method in lymphaticovenular anastomosis for
lower extremity lymphedema. Plast Reconstr Surg 2015;136:665e-75e. DOI PubMed
23. Seki Y. The dynamic LVAs. In: Hayash A, Visconti G, editors. Supermicrosurgical lymphaticovenular anastomosis: a practical
textbook. Rome: HV Projects; 2020. p. 119-36.
24. Seki Y, Kajikawa A, Yamamoto T, Takeuchi T, Terashima T, Kurogi N. Real-time indocyanine green videolymphography navigation
for lymphaticovenular anastomosis. Plast Reconstr Surg Glob Open 2019;7:e2253. DOI PubMed PMC
25. Seki Y. Lower extremity lymphedema. In: Hayash A, Visconti G, editors. Supermicrosurgical lymphaticovenular anastomosis: a