Modelo experimental de tumor no pulmão com implante de células tumorais por via intrabrônquica: avaliação dos efeitos da Talidomida, Gefitinib e Paclitaxel / Experimental model of tumor in the lung with implantation of tumorais cells for saw intrabrônquica: evaluation of the effect of the Talidomida, Gefitinib and Paclitaxel

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

Lung cancer has been the main cause of death from cancer worldwide over the past decade in spite of the appearance of new chemotherapy drugs and targeted therapies. It is therefore necessary to clarify the molecular and biological changes involved in carcinogenesis and tumor growth and to develop experimental models for the study of the biology of lung tumors and the effects of antineoplastic drugs. The objective of the study was to develop a practical and easily reproducible lung tumor model using immunocompetent rats and to evaluate the activity of antineoplastic drugs. One hundred ninety-one female Wistar rats, with an average weight of 19923g, were randomly assigned to one of three experimental groups. All animals were anesthetized intraperitonially (ip) with 2.5% tribromoetanol (1ml/100g live weight), tracheostomized and intubated with a polyethylene catheter (16G) guided intrabronchially (ib) to the bottom of the lung for inoculation with Walker 256 tumor cells. Group 1 (n=32) established the ib cell implant technique and the tumor take rate with inoculation of 105 to 5×105 cells. Group 2 (n=16) evaluated tumor volume on the fifth day of implant with 4×105 cells and correlated chest findings from high-resolution computerized tomography (HRCT) and necropsy. Group 3 (n=143) evaluated the effect of antineoplastic drugs and validated the model in two stages. Stage 1 (n=72) evaluated tumor volume on the fifth day of implant with 4×105 cells, divided into 5 groups: control (CG), 0.9% NaCl (1ml/gavage); celecoxib (Gclx), 15, 30 and 60mg/kg/day/gavage; thalidomide (Gtld), 45mg/kg/d/sc; gefitinib (Ggfb), 25mg/kg/day/gavage; and thalidomide + gefitinib (Gtld + gfb). Stage 2 (n=71) evaluted the survival of the animals divided into six groups: Gc, Gclx, Gtld, Ggfb, Gtld + gfb, and Gpcl (paclitaxel) 8mg/kg ip. The overal take rate for implants of 4×105 cells was 96% (149/155), specifically 90% in the first experimental group, 100% in the second and 96% in the third. Surgical mortality was 4.2% (8/191); 21 animals were excluded due to absence of tumor in the lung, death from infection (pulmonary abscess) and other causes not related to the tumor. In Group 2, measures obtained with HRCT and necropsy were similar (r=0, 953, p<0.0001). In the first stage of Group 3 no difference in tumor volume was observed between treated animals and controls; in the second stage median survival time was significantly extended in animals treated with TLD, GFB and PCL (13, 13 and 29 days, respectively) compared to controls (11 days) (Log Rank test: p<0.001). In conclusion, the present lung tumor model with intrabronchial tumor cell implantation was shown to be feasible and was associated with high tumor take rates, minor surgical mortality, simple execution and easy reproducibility. HRCT was found to be a highly accurate method of diagnosis, localization and tumor measurement. The model was efficient in the evaluation of the antitumoral activity of the antineoplastic drug paclitaxel, the antiangiogenic drug thalidomide, and the EGFR tyrosine kinase inhibitor gefitinib, making it a valid model for testing new drugs in lung cancer.

ASSUNTO(S)

proteína tirosina quinase protein-tyrosine kinase inibidores de ciclooxigenase metaloproteases cirurgia toraxica rats talidomida neoplasias pulmonares paclitaxel ratos thalidomide carcinoma 256 de walker carcinoma 256, walker lung neoplasms

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