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DOI: 10.1055/s-0029-1244805
Intraoperative Near-infrared Fluorescence Imaging in Perforator Flap Reconstruction: Current Research and Early Clinical Experience
Publikationsverlauf
Publikationsdatum:
21. Dezember 2009 (online)
ABSTRACT
Despite recent advances in perforator flap reconstruction, there can be significant variability in vessel size and location. Although preoperative evaluation may provide valuable information, real-time intraoperative methods have the potential to provide the greatest benefit. Our laboratory has developed the Fluorescence-Assisted Resection and Exploration (FLARE™) near-infrared (NIR) fluorescence imaging system for intraoperative visualization of details of the underlying vasculature. The FLARE™ system uses indocyanine green, a safe and reliable NIR fluorophore already FDA-approved for other indications. The system has been optimized in large-animal models for the identification of perforator size, location, and perfusion and has also been translated to the clinic for use during breast reconstruction after mastectomy. In this article, we review our preclinical and clinical data, as well as literature describing the use of similar NIR fluorescence imaging systems in plastic and reconstructive surgery.
KEYWORDS
Intraoperative imaging - near-infrared fluorescence angiography - microsurgery - perforator flap - indocyanine green
REFERENCES
- 1 De Grand A M, Frangioni J V. An operational near-infrared fluorescence imaging system prototype for large animal surgery. Technol Cancer Res Treat. 2003; 2 553-562
- 2 Gioux S, Kianzad V, Ciocan R, Gupta S, Oketokoun R, Frangioni J V. High-power, computer-controlled, light-emitting diode-based light sources for fluorescence imaging and image-guided surgery. Mol Imaging. 2009; 8 156-165
- 3 Matsui A, Lee B T, Winer J H, Kianzad V, Frangioni J V. Image-guided perforator flap design using invisible near-infrared light and validation with x-ray angiography. Ann Plast Surg. 2009; 63 327-330
- 4 Matsui A, Lee B T, Winer J H, Laurence R G, Frangioni J V. Submental perforator flap design with a near-infrared fluorescence imaging system: the relation between number of perforators, flap perfusion, and venous drainage. Plast Reconstr Surg. 2009; 124 1098-1104
- 5 Matsui A, Lee B T, Winer J H, Laurence R G, Frangioni J V. Quantitative assessment of perfusion and vascular compromise in perforator flaps using a near-infrared fluorescence-guided imaging system. Plast Reconstr Surg. 2009; 124 451-460
- 6 Matsui A, Lee B T, Winer J H, Vooght C S, Laurence R G, Frangioni J V. Real-time intraoperative near-infrared fluorescence angiography for perforator identification and flap design. Plast Reconstr Surg. 2009; 123 125e-127e
- 7 Frangioni J V. In vivo near-infrared fluorescence imaging. Curr Opin Chem Biol. 2003; 7 626-634
- 8 Nakayama A, del Monte F, Hajjar R J, Frangioni J V. Functional near-infrared fluorescence imaging for cardiac surgery and targeted gene therapy. Mol Imaging. 2002; 1 365-377
- 9 Tanaka E, Choi H S, Fujii H, Bawendi M G, Frangioni J V. Image-guided oncologic surgery using invisible light: completed pre-clinical development for sentinel lymph node mapping. Ann Surg Oncol. 2006; 13 1671-1681
- 10 Troyan S L, Kianzad V, Gibbs-Strauss S L et al.. The FLARE intraoperative near-infrared fluorescence imaging system: a first-in-human clinical trial in breast cancer sentinel lymph node mapping. Ann Surg Oncol. 2009; 16 2943-2952
- 11 Gioux S, De Grand A M, Lee D S et al.. Improved optical sub-systems for intraoperative near-infrared fluorescence imaging. SPIE Proceedings 2005 6009: 39-48
- 12 Rübben A, Eren S, Krein R, Younossi H, Böhler U, Wienert V. Infrared videoangiofluorography of the skin with indocyanine green—rat random cutaneous flap model and results in man. Microvasc Res. 1994; 47 240-251
- 13 Eren S, Rübben A, Krein R, Larkin G, Hettich R. Assessment of microcirculation of an axial skin flap using indocyanine green fluorescence angiography. Plast Reconstr Surg. 1995; 96 1636-1649
- 14 Giunta R E, Holzbach T, Taskov C et al.. Prediction of flap necrosis with laser induced indocyanine green fluorescence in a rat model. Br J Plast Surg. 2005; 58 695-701
- 15 Still J, Law E, Dawson J, Bracci S, Island T, Holtz J. Evaluation of the circulation of reconstructive flaps using laser-induced fluorescence of indocyanine green. Ann Plast Surg. 1999; 42 266-274
- 16 Holm C, Mayr M, Höfter E, Becker A, Pfeiffer U J, Mühlbauer W. Intraoperative evaluation of skin-flap viability using laser-induced fluorescence of indocyanine green. Br J Plast Surg. 2002; 55 635-644
- 17 Holm C, Tegeler J, Mayr M, Becker A, Pfeiffer U J, Mühlbauer W. Monitoring free flaps using laser-induced fluorescence of indocyanine green: a preliminary experience. Microsurgery. 2002; 22 278-287
- 18 Mothes H, Dönicke T, Friedel R, Simon M, Markgraf E, Bach O. Indocyanine-green fluorescence video angiography used clinically to evaluate tissue perfusion in microsurgery. J Trauma. 2004; 57 1018-1024
- 19 Krishnan K G, Schackert G, Steinmeier R. The role of near-infrared angiography in the assessment of post-operative venous congestion in random pattern, pedicled island and free flaps. Br J Plast Surg. 2005; 58 330-338
- 20 Krishnan K G, Schackert G, Steinmeier R. Near-infrared angiography and prediction of postoperative complications in various types of integumentary flaps. Plast Reconstr Surg. 2004; 114 1361-1362
- 21 Holm C, Mayr M, Höfter E, Ninkovic M. Perfusion zones of the DIEP flap revisited: a clinical study. Plast Reconstr Surg. 2006; 117 37-43
- 22 Yamaguchi S, De Lorenzi F, Petit J Y et al.. The “perfusion map” of the unipedicled TRAM flap to reduce postoperative partial necrosis. Ann Plast Surg. 2004; 53 205-209
- 23 Holm C, Mayr M, Höfter E, Raab N, Ninkovic M. Interindividual variability of the SIEA angiosome: effects on operative strategies in breast reconstruction. Plast Reconstr Surg. 2008; 122 1612-1620
- 24 Newman M I, Samson M C. The application of laser-assisted indocyanine green fluorescent dye angiography in microsurgical breast reconstruction. J Reconstr Microsurg. 2009; 25 21-26
John V FrangioniM.D. Ph.D.
B.I.D.M.C., Room SL-B05
330 Brookline Avenue, Boston, MA 02215
eMail: jfrangio@bidmc.harvard.edu