1. |
BJORNSSON O G, MURPHY R, CHADWICK V S. Physiochemical studies of indocyanine green (ICG):absorbance/concentration relationship, pH tolerance and assay precision in various solvents[J]. Experientia, 1982, 38(12):1441-1442.
|
2. |
FRANGIONI J V. In vivo near-infrared fluorescence imaging[J]. Current Opinion in Chemical Biology, 2003, 7(5):626-634.
|
3. |
ALFORD R, SIMPSON H M, DUBERMAN J, et al. Toxicity of organic fluorophores used in molecular imaging:literature review[J]. Molecular Imaging, 2009, 8(6):341-354.
|
4. |
SCHAAFSMA B E, MIEOG J S, HUTTEMAN M, et al. The clinical use of indocyaninegreen as near-infrared fluorescent contrast agent for image-guided oncologicsurgery[J]. J Surg Oncol. 2011; 104(3):323-332.
|
5. |
POLOM K, MURAWA D, RHO Y S, et al. Current trends and emerging future of indocyanine green usage in surgery and oncology:a literature review[J]. Cancer, 2011, 117(21):4812-4822.
|
6. |
LUO S, ZHANG E, SU Y, et al. A review of NIR dyes in cancer targeting and imaging[J]. Biomaterials, 2011, 32(29):7127-7138.
|
7. |
MARSHALL M V, RASMUSSEN J C, TAN I C, et al. Near-infrared fluorescence imaging in humans with indocyanine green:a review and update[J]. Open Surg Oncol J (Online), 2010, 2(2):12-25.
|
8. |
VAHRMEIJER A L, HUTTEMAN M, VAN DER VORST J R, et al. Image guided cancer surgery using near-infrared fluorescence[J]. Nat Rev Clin Oncol. 2013, 10(9):507-518.
|
9. |
SEVICK-MURACA E M. Translation of near-infrared fluorescence imaging technologies:emerging clinical applications[J]. Annual Review of Medicine, 2012, 63:217-231.
|
10. |
ALANDER J T, KAARTINEN I, LAAKSO A, et al. A review of indocyanine green fluorescent imaging in surgery[J]. International Journal of Biomedical Imaging, 2012, 2012:940585.
|
11. |
KEEREWEER S, KERREBIJN J D F, VAN DRIEL P B A A, et al. Optical image-guided surgery--where do we stand?[J]. Molecular Imaging and Biology, 2011, 13(2):199-207.
|
12. |
GIOUX S, CHOI H S, FRANGIONI J V. Image-guided surgery using invisible near-infrared light:fundamentals of clinical translation[J]. Molecular Imaging, 2010, 9(5):237-255.
|
13. |
KELDER W, NIMURA H, TAKAHASHI N, et al. Sentinel node mapping with indocyanine green (ICG) and infrared ray detection in early gastric cancer:an accurate method that enables a limited lymphadenectomy[J]. European Journal of Surgical Oncology, 2010, 36(6):552-558.
|
14. |
GASHEV A A, NAGAI T, BRIDENBAUGH E A. Indocyanine green and lymphatic imaging:current problems[J]. Lymphatic Research and Biology, 2010, 8(2):127-130.
|
15. |
TANAKA E, OHNISHI S, LAURENCE R G, et al. Real-time intraoperative ureteral guidance using invisible near-infrared fluorescence[J]. The Journal of Urology, 2007, 178(5):2197-2202.
|
16. |
TANAKA E, CHOI H S, HUMBLET V, et al. Real-time intraoperative assessment of the extrahepatic bile ducts in rats and pigs using invisible near-infrared fluorescent light[J]. Surgery, 2008, 144(1):39-48.
|
17. |
AOKI T, YASUDA D, SHIMIZU Y, et al. Image-guided liver mapping using fluorescence navigation system with indocyanine green for anatomical hepatic resection[J]. World Journal of Surgery, 2008, 32(8):1763-1767.
|
18. |
BALACUMARASWAMI L, TAGGART D P. Intraoperative imaging techniques to assess coronary artery bypass graft patency[J]. The Annals of Thoracic Surgery, 2007, 83(6):2251-2257.
|
19. |
WOITZIK J, HORN P, VAJKOCZY P, et al. Intraoperative control of extracranial-intracranial bypass patency by near-infrared indocyanine green videoangiography[J]. Journal of Neurosurgery, 2005, 102(4):692-698.
|
20. |
BERNAL-GARCIA L M, CABEZUDO-ARTERO J M, ORTEGA-MARTINEZ M, et al. Fluorescence-guided resection with 5-aminolevulinic acid of an intramedullary tumor[J]. Neurocirugia (Asturias, Spain), 2010, 21(4):312-316.
|
21. |
CRANE L M, THEMELIS G, ARTS H J, et al. Intraoperative near-infrared fluorescence imaging for sentinel lymph node detection in vulvar cancer:first clinical results[J]. Gynecologic Oncology, 2011, 120(2):291-295.
|