RT Journal Article SR Electronic T1 A Non-invasive Imageable GFP-expressing Mouse Model of Orthotopic Human Bladder Cancer JF In Vivo JO In Vivo FD International Institute of Anticancer Research SP 3225 OP 3231 DO 10.21873/invivo.12158 VO 34 IS 6 A1 YU SUN A1 HIROTO NISHINO A1 MING ZHAO A1 KENTARO MIYAKE A1 NORIHIKO SUGISAWA A1 JUN YAMAMOTO A1 YOSHIHIKO TASHIRO A1 SACHIKO INUBUSHI A1 KAZUYUKI HAMADA A1 GUANGWEI ZHU A1 HYEIN LIM A1 ROBERT M. HOFFMAN YR 2020 UL http://iv.iiarjournals.org/content/34/6/3225.abstract AB Background/Aim: A more realistic mouse model of bladder cancer is necessary to develop effective drugs for the disease. Tumor models enhanced by bright fluorescent-reporter genes to follow the disease in real-time would enhance the ability to accurately predict the efficacy of various therapeutics on this particularly-malignant human cancer. Materials and Methods: A highly-fluorescent green fluorescent protein (GFP)-expressing bladder cancer model was orthotopically established in nude mice using the UM-UC-3 human bladder-cancer cell line (UM-UC-3-GFP). Fragments from a subcutaneous tumor of UM-UC-3-GFP were surgically implanted into the nude mouse bladder. Non-invasive and intra-vital fluorescence imaging was obtained with a simple imaging box. Results: The GFP-expressing orthotopic bladder tumor was imaged in real-time non-invasively as well as intra-vitally, with the two methods correlating at r=0.99. Conclusion: This is the first non-invasive-fluorescence-imaging orthotopic model of bladder cancer and can be used for rapidly screening novel effective agents for this recalcitrant disease.