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33. Burden RE, Gormley JA, Jaquin TJ, Small DM, Quinn DJ, Hegarty SM, et al. Anti-
body-mediated inhibition of cathepsin S blocks colorectal tumor invasion and angio-
genesis.
Clin Cancer Res
2009;
15
:6042-51.
34. Elie BT, Gocheva V, Shree T, Dalrymple SA, Holsinger LJ, Joyce JA. Identification and
pre-clinical testing of a reversible cathepsin protease inhibitor reveals anti-tumor effi-
cacy in a pancreatic cancer model.
Biochimie
2010;
92
:1618-24.
35. Leblond F, Davis SC, Valdes PA, Pogue BW. Pre-clinical whole-body fluorescence
imaging: review of instruments, methods and applications.
J Photochem Photobiol B
2010;
98
:77-94.
36. Sevick-Muraca EM. Translation of near-infrared fluorescence imaging technologies:
emerging clinical applications.
Annu Rev Med
2012;
63
:217-31.
37. Marshall MV, Rasmussen JC, Tan I-C, Aldrich MB, Adams KE, Wang X, et al. Near-
infrared fluorescence imaging in humans with indocyanine green: a review and update.
Open Surg Oncol J
2010;
2
:12-25.
38. Stummer W, Pichlmeier U, Meinel T, Wiestler OD, Zanella F, Reulen HJ. Fluores-
cence-guided surgery with 5-aminolevulinic acid for resection of malignant glioma: a
randomised controlled multicentre phase III trial.
Lancet Oncol
2006;
7
:392-401.
39. Feigl GC, Ritz R, Moraes M, Klein J, Ramina K, Gharabaghi A, et al. Resection of
malignant brain tumors in eloquent cortical areas: a new multimodal approach
combining 5-aminolevulinic acid and intraoperative monitoring.
J Neurosurg
2010;
113
:352-7.
40. Troyan SL, Kianzad V, Gibbs-Strauss SL, Gioux S, Matsui A, Oketokoun R, 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
:2943-52.
41. Lee BT, Hutteman M, Gioux S, Stockdale A, Lin SJ, Ngo LH, et al. The FLARE
intraoperative near-infrared fluorescence imaging system: a first-in-human clinical trial
in perforator flap breast reconstruction.
Plast Reconstr Surg
2010;
126
:1472-81.
42. Ntziachristos V. Fluorescence molecular imaging.
Annu Rev Biomed Eng
2006;
8
:1-33.
43. Dimitrow E, Riemann I, Ehlers A, Koehler MJ, Norgauer J, Elsner P, et al. Spectral
fluorescence lifetime detection and selective melanin imaging by multiphoton laser
tomography for melanoma diagnosis.
Exp Dermatol
2009;
18
:509-15.
44. Poellinger A, Burock S, Grosenick D, Hagen A, Ludemann L, Diekmann F, et al.
Breast cancer: early- and late-fluorescence near-infrared imaging with indocyanine
green—a preliminary study.
Radiology
2011;
258
:409-16.
45. Goergen C, Chen H, Bogdanov AJ, Sosnovik D, Kumar A. In vivo fluorescence life-
time detection of an activatable probe in infarcted myocardium.
J Biomed Opt
2012;
17
.
46. Funovics M, Weissleder R, Tung CH. Protease sensors for bioimaging.
Anal Bioanal
Chem
2003;
377
:956-63.
47. Pogue BW, Davis SC, Song X, Brooksby BA, Dehghani H, Paulsen KD. Image analysis
methods for diffuse optical tomography.
J Biomed Opt
2006;
11
:33001.
48. Kumar AT, Chung E, Raymond SB, van de Water JA, Shah K, Fukumura D, et al.
Feasibility of in vivo imaging of fluorescent proteins using lifetime contrast.
Opt Lett
2009;
:2066-8.
49. Kumar AT, Raymond SB, Boverman G, Boas DA, Bacskai BJ. Time resolved fluores-
cence tomography of
34
turbid media based on lifetime contrast.
Opt Express
2006;
14
:12255-70.
50. Han SH, Farshchi-Heydari S, Hall DJ. Analytical method for the fast time-domain
reconstruction of fluorescent inclusions in vitro and in vivo.
Biophys J
2010;
98
:350-7.
51. Hall DJ, Sunar U, Farshchi-Heydari S, Han SH. In vivo simultaneous monitoring of
two fluorophores with lifetime contrast using a full-field time domain system.
Appl
Opt
2009;
48
:D74-D78.
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