Application progress of indocyanine green angiography in breast reconstruction_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

LIU Zeyang , SONG Dajiang ,  LI Zan , PENG Xiaowei , ZHOU Bo , Lü Chunliu , PENG Wen , OU Yan , MAO Huangxing , LI Hui

Department of Oncology Plastic Surgery, the Affiliated Cancer Hospital of Xiangya School of Medicine, Central South University/Hunan Cancer Hospital, Changsha Hunan, 410013, P.R.China;

Corresponding?author：

LI Zan, Email: zzanli@163.com

Keywords：

Indocyanine green; angiography; breast reconstruction

DOI：

10.7507/1002-1892.201803040

Video：

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Objective To summarize the application progress of indocyanine green (ICG) angiography in breast reconstruction. Methods The literature about the application of ICG angiography in breast reconstruction was reviewed and analyzed, including its history, chemical composition, principles, usages, and attentions. Results ICG is a kind of fluorescent substance used in medical diagnosis and various surgical fields, especially in intraoperative vascular angiography. ICG angiography and SPY system are gradually applied in breast reconstruction, including both prosthesis/tissue expander reconstruction and autologous reconstruction. Compared to clinical judgment, portable Doppler devices, tissue oximetry, and fluorescein angiography, ICG angiography obviously has more benefits and usages. Conclusion ICG angiography can reveal the perfusion of flaps during the operation instantly and accurately, which refines the intraoperative strategy in order to decrease the incidence of flap-related complications. Besides, it has some economic benefits to some extent.

Citation： LIU Zeyang, SONG Dajiang, LI Zan, PENG Xiaowei, ZHOU Bo, Lü Chunliu, PENG Wen, OU Yan, MAO Huangxing, LI Hui. Application progress of indocyanine green angiography in breast reconstruction. Chinese Journal of Reparative and Reconstructive Surgery, 2018, 32(11): 1463-1468. doi: 10.7507/1002-1892.201803040 Copy

1.	Schlosser S, Wirth R, Plock JA, et al. Application of a new laser Doppler imaging system in planning and monitoring of surgical flaps. J Biomed Opt, 2010, 15(3): 036023.
2.	Keller A. A new diagnostic algorithm for early prediction of vascular compromise in 208 microsurgical flaps using tissue oxygen saturation measurements. Ann Plast Surg, 2009, 62(5): 538-543.
3.	Rübben A, Eren S, Krein R, et al. Infrared videoangiofluorography of the skin with indocyanine green-rat random cutaneous flap model and results in man. Microvasc Res, 1994, 47(2): 240-251.
4.	Phillips BT, Lanier ST, Conkling N, et al. Intraoperative perfusion techniques can accurately predict mastectomy skin flap necrosis in breast reconstruction: results of a prospective trial. Plast Reconstr Surg, 2012, 129(5): 778e-788e.
5.	Fox IJ, Wood EH. Indocyanine green: physical and physiologic properties. Proc Staff Meet Mayo Clin, 1960, 35: 732-744.
6.	Wheeler HO, Cranston WI, Meltzer JI. Hepatic uptake and biliary excretion of indocyanine green in the dog. Proc Soc Exp Biol Med, 1958, 99(1): 11-14.
7.	Flower RW, Hochheimer BF. Clinical infrared absorption angiography of the choroid. Am J Ophthalmol, 1972, 73(3): 458-459.
8.	Hayashi K, Hasegawa Y, Tazawa Y, et al. Clinical application of indocyanine green angiography to choroidal neovascularization. Jpn J Ophthalmol, 1989, 33(1): 57-65.
9.	Scheider A, Schroedel C. High resolution indocyanine green angiography with a scanning laser ophthalmoscope. Am J Ophthalmol, 1989, 108(4): 458-459.
10.	Gurtner GC, Jones GE, Neligan PC, et al. Intraoperative laser angiography using the SPY system: review of the literature and recommendations for use. Ann Surg Innov Res, 2013, 7: 1.
11.	Newman MI, Samson MC. The application of laser-assisted indocyanine green fluorescent dye angiography in microsurgical breast reconstruction. J Reconstr Microsurg, 2009, 25(1): 21-26.
12.	Desai ND, Miwa S, Kodama D, et al. A randomized comparison of intraoperative indocyanine green angiography and transit-time flow measurement to detect technical errors in coronary bypass grafts. J Thorac Cardiovasc Surg, 2006, 132(3): 585-594.
13.	Moody ED, Viskari PJ, Colyer CL. Non-covalent labeling of human serum albumin with indocyanine green: a study by capillary electrophoresis with diode laser-induced fluorescence detection. J Chromatogr B Biomed Sci Appl, 1999, 729(1-2): 55-64.
14.	Cherrick GR, Stein SW, Leecy CM, et al. Indocyanine green: observations on its physical properties, plasma decay, and hepatic extraction. J Clin Invest, 1960, 39: 592-600.
15.	Choromokos E, Kogure K, David NJ. Infrared absorption angiography. J Biol Photogr Assoc, 1969, 37(2): 100-104.
16.	Azuma R, Morimoto Y, Masumoto K, et al. Detection of skin perforators by indocyanine green fluorescence nearly infrared angiography. Plast Reconstr Surg, 2008, 122(4): 1062-1067.
17.	Ludolph I, Arkudas A, Schmitz M, et al. Cracking the perfusion code?: Laser-assisted Indocyanine Green angiography and combined laser Doppler spectrophotometry for intraoperative evaluation of tissue perfusion in autologous breast reconstruction with DIEP or ms-TRAM flaps. J Plast Reconstr Aesthet Surg, 2016, 69(10): 1382-1388.
18.	Munabi NC, Olorunnipa OB, Goltsman D, et al. The ability of intra-operative perfusion mapping with laser-assisted indocyanine green angiography to predict mastectomy flap necrosis in breast reconstruction: a prospective trial. J Plast Reconstr Aesthet Surg, 2014, 67(4): 449-455.
19.	Sood M, Glat P. Potential of the SPY intraoperative perfusion assessment system to reduce ischemic complications in immediate postmastectomy breast reconstruction. Ann Surg Innov Res, 2013, 7: 9.
20.	Komorowska-Timek E, Gurtner GC. Intraoperative perfusion mapping with laser-assisted indocyanine green imaging can predict and prevent complications in immediate breast reconstruction. Plast Reconstr Surg, 2010, 125(4): 1065-1073.
21.	Duggal CS, Madni T, Losken A. An outcome analysis of intraoperative angiography for postmastectomy breast reconstruction. Aesthet Surg J, 2014, 34(1): 61-65.
22.	Diep GK, Hui JY, Marmor S, et al. Postmastectomy reconstruction outcomes after intraoperative evaluation with indocyanine green angiography versus clinical assessment. Ann Surg Oncol, 2016, 23(12): 4080-4085.
23.	Chattha A, Bucknor A, Chen AD, et al. Indocyanine green angiography use in breast reconstruction: A national analysis of outcomes and cost in 110,320 patients. Plast Reconstr Surg, 2018, 141(4): 825-828.
24.	Rozen WM, Phillips TJ, Ashton MW, et al. Preoperative imaging for DIEA perforator flaps: a comparative study of computed tomographic angiography and Doppler ultrasound. Plast Reconstr Surg, 2008, 121(1): 9-16.
25.	Quilichini J, Le Masurier P, Guihard T. Increasing the reliability of SIEA flap using peroperative fluorescent angiography with indocyanine green in breast reconstruction. Ann Chir Plast Esthet, 2010, 55(6): 531-538.
26.	周波, 周曉, 李贊, 等. 吲哚菁綠血管造影在自體組織乳房重建中的應用. 中國修復重建外科雜志, 2018, 32(4): 491-494.
27.	Holm C, Mayr M, H?fter E, et al. Assessment of the patency of microvascular anastomoses using microscope-integrated near-infrared angiography: a preliminary study. Microsurgery, 2009, 29(7): 509-514.
28.	劉巖, 穆籣, 李廣學, 等. 顯微外科血管吻合術中應用吲哚菁綠血管造影評價血管吻合通暢性的價值. 中國醫藥, 2017, 12(3): 434-437.
29.	Holm C, Tegeler J, Mayr M, et al. Monitoring free flaps using laser-induced fluorescence of indocyanine green: a preliminary experience. Microsurgery, 2002, 22(7): 278-287.
30.	Kanuri A, Liu AS, Guo L. Whom should we SPY? A cost analysis of laser-assisted indocyanine green angiography in prevention of mastectomy skin flap necrosis during prosthesis-based breast reconstruction Plast Reconstr Surg, 2014, 133(4): 448e-454e.
31.	Pons G, Masia J, Loschi P, et al. A case of donor-site lymphoedema after lymph node-superficial circumflex iliac artery perforator flap transfer. J Plast Reconstr Aesthet Surg, 2014, 67(1): 119-123.
32.	Moyer HR, Losken A. Predicting mastectomy skin flap necrosis with indocyanine green angiography: the gray area defined. Plast Reconstr Surg, 2012, 129(5): 1043-1048.

1. Schlosser S, Wirth R, Plock JA, et al. Application of a new laser Doppler imaging system in planning and monitoring of surgical flaps. J Biomed Opt, 2010, 15(3): 036023.
2. Keller A. A new diagnostic algorithm for early prediction of vascular compromise in 208 microsurgical flaps using tissue oxygen saturation measurements. Ann Plast Surg, 2009, 62(5): 538-543.
3. Rübben A, Eren S, Krein R, et al. Infrared videoangiofluorography of the skin with indocyanine green-rat random cutaneous flap model and results in man. Microvasc Res, 1994, 47(2): 240-251.
4. Phillips BT, Lanier ST, Conkling N, et al. Intraoperative perfusion techniques can accurately predict mastectomy skin flap necrosis in breast reconstruction: results of a prospective trial. Plast Reconstr Surg, 2012, 129(5): 778e-788e.
5. Fox IJ, Wood EH. Indocyanine green: physical and physiologic properties. Proc Staff Meet Mayo Clin, 1960, 35: 732-744.
6. Wheeler HO, Cranston WI, Meltzer JI. Hepatic uptake and biliary excretion of indocyanine green in the dog. Proc Soc Exp Biol Med, 1958, 99(1): 11-14.
7. Flower RW, Hochheimer BF. Clinical infrared absorption angiography of the choroid. Am J Ophthalmol, 1972, 73(3): 458-459.
8. Hayashi K, Hasegawa Y, Tazawa Y, et al. Clinical application of indocyanine green angiography to choroidal neovascularization. Jpn J Ophthalmol, 1989, 33(1): 57-65.
9. Scheider A, Schroedel C. High resolution indocyanine green angiography with a scanning laser ophthalmoscope. Am J Ophthalmol, 1989, 108(4): 458-459.
10. Gurtner GC, Jones GE, Neligan PC, et al. Intraoperative laser angiography using the SPY system: review of the literature and recommendations for use. Ann Surg Innov Res, 2013, 7: 1.
11. Newman MI, Samson MC. The application of laser-assisted indocyanine green fluorescent dye angiography in microsurgical breast reconstruction. J Reconstr Microsurg, 2009, 25(1): 21-26.
12. Desai ND, Miwa S, Kodama D, et al. A randomized comparison of intraoperative indocyanine green angiography and transit-time flow measurement to detect technical errors in coronary bypass grafts. J Thorac Cardiovasc Surg, 2006, 132(3): 585-594.
13. Moody ED, Viskari PJ, Colyer CL. Non-covalent labeling of human serum albumin with indocyanine green: a study by capillary electrophoresis with diode laser-induced fluorescence detection. J Chromatogr B Biomed Sci Appl, 1999, 729(1-2): 55-64.
14. Cherrick GR, Stein SW, Leecy CM, et al. Indocyanine green: observations on its physical properties, plasma decay, and hepatic extraction. J Clin Invest, 1960, 39: 592-600.
15. Choromokos E, Kogure K, David NJ. Infrared absorption angiography. J Biol Photogr Assoc, 1969, 37(2): 100-104.
16. Azuma R, Morimoto Y, Masumoto K, et al. Detection of skin perforators by indocyanine green fluorescence nearly infrared angiography. Plast Reconstr Surg, 2008, 122(4): 1062-1067.
17. Ludolph I, Arkudas A, Schmitz M, et al. Cracking the perfusion code?: Laser-assisted Indocyanine Green angiography and combined laser Doppler spectrophotometry for intraoperative evaluation of tissue perfusion in autologous breast reconstruction with DIEP or ms-TRAM flaps. J Plast Reconstr Aesthet Surg, 2016, 69(10): 1382-1388.
18. Munabi NC, Olorunnipa OB, Goltsman D, et al. The ability of intra-operative perfusion mapping with laser-assisted indocyanine green angiography to predict mastectomy flap necrosis in breast reconstruction: a prospective trial. J Plast Reconstr Aesthet Surg, 2014, 67(4): 449-455.
19. Sood M, Glat P. Potential of the SPY intraoperative perfusion assessment system to reduce ischemic complications in immediate postmastectomy breast reconstruction. Ann Surg Innov Res, 2013, 7: 9.
20. Komorowska-Timek E, Gurtner GC. Intraoperative perfusion mapping with laser-assisted indocyanine green imaging can predict and prevent complications in immediate breast reconstruction. Plast Reconstr Surg, 2010, 125(4): 1065-1073.
21. Duggal CS, Madni T, Losken A. An outcome analysis of intraoperative angiography for postmastectomy breast reconstruction. Aesthet Surg J, 2014, 34(1): 61-65.
22. Diep GK, Hui JY, Marmor S, et al. Postmastectomy reconstruction outcomes after intraoperative evaluation with indocyanine green angiography versus clinical assessment. Ann Surg Oncol, 2016, 23(12): 4080-4085.
23. Chattha A, Bucknor A, Chen AD, et al. Indocyanine green angiography use in breast reconstruction: A national analysis of outcomes and cost in 110,320 patients. Plast Reconstr Surg, 2018, 141(4): 825-828.
24. Rozen WM, Phillips TJ, Ashton MW, et al. Preoperative imaging for DIEA perforator flaps: a comparative study of computed tomographic angiography and Doppler ultrasound. Plast Reconstr Surg, 2008, 121(1): 9-16.
25. Quilichini J, Le Masurier P, Guihard T. Increasing the reliability of SIEA flap using peroperative fluorescent angiography with indocyanine green in breast reconstruction. Ann Chir Plast Esthet, 2010, 55(6): 531-538.
26. 周波, 周曉, 李贊, 等. 吲哚菁綠血管造影在自體組織乳房重建中的應用. 中國修復重建外科雜志, 2018, 32(4): 491-494.
27. Holm C, Mayr M, H?fter E, et al. Assessment of the patency of microvascular anastomoses using microscope-integrated near-infrared angiography: a preliminary study. Microsurgery, 2009, 29(7): 509-514.
28. 劉巖, 穆籣, 李廣學, 等. 顯微外科血管吻合術中應用吲哚菁綠血管造影評價血管吻合通暢性的價值. 中國醫藥, 2017, 12(3): 434-437.
29. Holm C, Tegeler J, Mayr M, et al. Monitoring free flaps using laser-induced fluorescence of indocyanine green: a preliminary experience. Microsurgery, 2002, 22(7): 278-287.
30. Kanuri A, Liu AS, Guo L. Whom should we SPY? A cost analysis of laser-assisted indocyanine green angiography in prevention of mastectomy skin flap necrosis during prosthesis-based breast reconstruction Plast Reconstr Surg, 2014, 133(4): 448e-454e.
31. Pons G, Masia J, Loschi P, et al. A case of donor-site lymphoedema after lymph node-superficial circumflex iliac artery perforator flap transfer. J Plast Reconstr Aesthet Surg, 2014, 67(1): 119-123.
32. Moyer HR, Losken A. Predicting mastectomy skin flap necrosis with indocyanine green angiography: the gray area defined. Plast Reconstr Surg, 2012, 129(5): 1043-1048.

Chinese Journal of Reparative and Reconstructive Surgery

Application progress of indocyanine green angiography in breast reconstruction

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