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45. Licha K, Riefke B, Ntziachristos V, Becker A, Chance B, Semmler W. Hydrophilic
cyanine dyes as contrast agents for near-infrared tumor imaging: synthesis, photo-
physical properties and spectroscopic
in vivo
characterization.
Photochem Photobiol
2000;72:392-8.
46. Zhang Z, Liang K, Bloch S, Berezin M, Achilefu S. Monomolecular multimodal
florescence-radioisotope imaging agents.
Bioconjugate Chem
2005;16:1232-9.
47. Bouteiller C, Clav´ G, Bernardin A, Chipon B, Massonneau M, Renard P-Y, et al.
Novel water-soluble near-infrared cyanine dyes: synthesis, spectral properties, and
use in the preparation of internally quenched fluorescent probes.
Bioconjgate Chem
2007;18:1303-17.
48. Pham W, Medarova Z, Moore A. Synthesis and applications of a water-soluble near-
infrared dye for cancer detection using optical
imaging.
Bioconjugate Chem
2005;16:735-40.
49. Becker A, Riefke B, Ebert B, Sukowski U, Rinneberger H, Semmler W, et al. Mac-
romolecular contrast agents for optical imaging of tumors: comparison of
indotricarbocyanine-labelled human serum albumin and tranferrin.
Photochem Photobiol
2000;72:234-41.
50. Licha K, Hessenius C, Becker A, Henklein P, Bauer M, Wisniewski S, et al. Synthesis,
characterization, and biological properties of cyanine-labeled somatostatin analogues as
receptor-targeted fluorescent probes.
Bioconjugate Chem
2001;12:44-50.
51. Ito S, Muguruma N, Kakehashi Y, Hayashi S, Okamura S, Shibata H, et al. Develop-
ment of fluorescence-emitting antibody labeling substance by near-infrared ray detec-
tion.
Bioorg Med Chem Lett
1995;5:2689-94.
52. Hirata T, Kogiso H, Morimoto K, Miyamoto S, Taue H, Sano S, et al. Synthesis and
reactivities of 3-indocyanine-green-acyl-1,3-thiazolidine-2-thione (ICG-ATT) as a
new near-infrared fluorescent-labeling reagent.
Bioorg Med Chem
1998;6:2179-84.
53. Becker A, Hessenius C, Licha K, Ebert B, Sukowski U, Semmler W, et al.
Nat
Biotechnol
2001;19:327-31.
54. Cheng Z, Wu Y, Xiong Z, Gambhir SS, Chen X. Near-infrard fluorescent RGD pep-
tides for optical imaging of integrin a
v
b
3
expression in living mice.
Bioconjugate Chem
2005;16:1433-41.
55. Villaraza AJL, Milenic DE, Brechbiel MW. Improved speciation characteristics of
PEGylated indocyanine green-labeled panitumumab: revisiting the solution and spec-
troscopic properties of a near-infrared emitting anti-HER1 antibody for optical imag-
ing of cancer.
Bioconjugate Chem
2010;21:2305-12.
56. Levi J, Cheng Z, Gheysens O, Patel M, Chan CT, Wang Y, et al. Fluorescent fructose
derivatives for imaging breast cancer cells.
Bioconjugate Chem
2007;18:628-34.
57. Ran C, Pantazopoulos P, Medarova Z, Moore A. Synthesis and testing of beta-cell-
specific streptozotocin-derived near-infrared imaging probes.
Angew Chem Int Ed
2007;46:8998-9001.
58. Lee S, Park K, Lee S-Y, Ryu JH, Park JW, Ahn HJ, et al. Dark quenched matrix
metalloproteinase fluorogenic probe for imaging osteoarthritis development
in vivo
.
Bioconjugate Chem
2008;19:1743-7.
59. Josan JS, Morse DL, Xu L, Trisal M, Baggett B, Davis P, et al. Solid-phase synthetic
strategy and bioevaluation of a labeled g-opioid receptor ligand Dmt-Tic-Lys for
in vivo
imaging.
Org Lett
2009;
:2479-82.
60. Lin Y, Weissleder R, Tung C-H. Novel near-infrared cyanine fluorochromes: synthe-
sis, properties, and bioconjugation.
Bioconjugate Chem
2002;13:605-10.
61. Tung C-H, Lin Y, Moon WK, Weissleder R. A receptor-targeted near-infrared fluo-
rescence probe for in vivo tumor imaging.
Chembiochem
2002;8:784-6.
62. Narayanan N, Patonay G. A new method for the synthesis of heptamethine cyanine
dyes: synthesis of new near-infrared fluorescent labels.
J Org Chem
1995;60:2391-5.
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