Biomedical Engineering Reference
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[13] Moodie JP, Stok KS, Muller R, Vincent Tl, Shefelbine SJ. Multimodal imaging demon-
strates concomitant changes in bone and cartilage after destabilisation of the medial
meniscus and increased joint laxity. osteoarthr Cartil 2011;
19
:163-170.
[14] Francia G, Kerbel RS. Raising the bar for cancer therapy models. Nat Biotechnol
2010;
28
:561-562.
[15] Sugimura T, Fujimura S. Tumour production in glandular stomach of rat by
N
-methyl-
N
'-nitro-
N
-nitrosoguanidine. Nature 1967;
216
:943-944.
[16] Kogure K, Sasadaira H, Kawachi T, Shimosato Y, Tokunaga A. Further studies on induction
of stomach cancer in hamsters by
N
-methyl-
N
'-nitro-
N
-nitrosoguanidine. Br J Cancer
1974;
29
:132-142.
[17] Sugimura T, Tanaka N, Kawachi T, Kogure K, Fujimura S. Production of stomach cancer
in dogs by
N
-methyl-
N
'-nitro-
N
-nitrosoguanidine. Gann 1971;
62
:67.
[18] Maurin N, Forgue-lafitte ME, levy P, Zimber A, Bara J. Progression of tumors arising
from large ACF is associated with the MUC5AC expression during rat colon MNNG
carcinogenis. Int J Cancer 2007;
120
:477-483.
[19] Tanaka T, Mori H. Experimental induction of uterine cancer in rats by
N
-methyl-
N
'-nitro-
N
-nitrosoguanidine. Pathol Res Pract 1983;
178
:20-26.
[20] Thaker AI, Shaker A, Rao MS, Ciorba MA. Modeling colitis-associated cancer with
azoxymethane (AoM) and dextran sulfate sodium (DSS). J Vis Exp 2012;
67
:pii: 4100.
[21] De Robertis M, Massi E, Poeta Ml, Carotti S, Morini S, Cecchetelli l, Signori E,
Fazio VM. The AoM/DSS murine model for the study of colon carcinogenesis: from
pathways to diagnosis and therapy studies. J Carcinog 2011;
10
:9.
[22] Pribaz JR, Bernthal NM, Billi F, Cho JS, Ramos RI, Guo Y, Cheung Al, Francis KP,
Miller lS. Mouse model of chronic post-arthroplasty infection: noninvasive
in vivo
bioluminescence imaging to monitor bacterial burden for long-term study. J orthop
Res 2012;
30
:335-340.
[23] Sha J, Rosenzweig JA, Kirtley Ml, van lier CJ, Fitts EC, Kozlova EV, Erova TE,
Tiner Bl, Chopra AK. A non-invasive
in vivo
imaging system to study dissemination
of bioluminescent Yersinia pestis Co92 in a mouse model of pneumonic plague.
Microb Pathog 2013;
55
:39-50.
[24] Niska JA, Meganck JA, Pribaz JR, Shahbazian JH, lim E, Zhang N, Rice BW, Akin A,
Ramos RI, Bernthal NM, Francis KP, Miller lS. Monitoring bacterial burden, inflamma-
tion and bone damage longitudinally using optical and muCT imaging in an orthopaedic
implant infection in mice. PloS one 2012;
7
:e47397.
[25] Navarathna DH, Munasinghe J, lizak MJ, Nayak D, McGavern DB, Roberts DD. MRI
confirms loss of blood-brain barrier integrity in a mouse model of disseminated candidi-
asis. NMR Biomed 2013;
26
:1125-1134.
[26] Wang Y, Chen l, liu X, Cheng D, liu G, liu Y, Dou S, Hnatowich DJ, Rusckowski M.
Detection of Aspergillus fumigatus pulmonary fungal infections in mice with (99m)
Tc-labeled MoRF oligomers targeting ribosomal RNA. Nucl Med Biol 2013;
40
:89-96.
[27] Bray M, lawler J, Paragas J, Jahrling PB, Mollura DJ. Molecular imaging of influenza
and other emerging respiratory viral infections. J Infect Dis 2011;
203
:1348-1359.
[28] Jonsson CB, Camp JV, Wu A, Zheng H, Kraenzle Jl, Biller AE, Vanover CD, Chu YK,
Ng CK, Proctor M, Sherwood l, Steffen MC, Mollura DJ. Molecular imaging reveals
a progressive pulmonary inflammation in lower airways in ferrets infected with 2009
H1N1 pandemic influenza virus. PloS one 2012;
7
:e40094.
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