12031 Background: Human tumor xenografts in mice can be remarkably predictive of response in humans to cytotoxic chemotherapeutic drugs. Tumor endothelial cells are sensitive to the action of conventional cytotoxic drugs when they are regularly administrated at low doses. This concept, known as metronomic chemotherapy, has been demonstrated in preclinical studies using transplanted tumor models. We aim to investigate the potential anti-tumoral activity of Gemcitabine (G) when administered in a low-dose schedule in an ortothopic implantation model of human pancreatic carcinomas. Methods: Standard gemcitabine schedule: NP18 tumor orthotopically implanted nude mices were randomly distributed to experimental (n = 13, G100 mg/kg intraperitoneally on days 0, 3, 6 and 9 post-implantation) and control group (n = 13, saline). Animal were sacrificed after 4 weeks and we compared weigths (grams) and volume (cm3) of tumors betwen the two groups by the Mann-Whitney U test. Metronomic schedule: After a toxicological study an optimal metronomic dose of 1 mg G /kg per day was chosen. Thirty xenografted mices were randomly distributed to experimental group (n = 15, intraperitoneal G1 mg/kg) and control group (n = 15, saline) and treated for 30 days. Animal were analysed as described before. Results: Standard schedule: Tumor weight mean of treatment group was 0.01 grams ± 0.01 versus 0.54 grams ± 0.48 of the control group. Tumor volume mean in G group was 0.01 cm 3 ± 0.01 versus 0.51 cm 3 ± 0.67) in the control group.Treatment significantly inhibited NP18 tumour growth (p < 0.001). No differences in mice weight were observed between both groups. Metronomic schedule: Tumor weight mean in the treatment group was 0.04 grams ± 0.08 versus 0.53 grams ± 0.46 in control group. Tumor volume mean in G group was 011 cm 3 ± 0.19 versus 0.37 cm 3. Treatment with low-dose of G significantly inhibited NP18 tumour growth (p < 0.003). There were no differences in mice weight between the two groups. Conclusions: Our data show that G administered in a metronomic schedule is effective in inhibiting the growth of NP18 tumor orthotopically implanted in the nude mice. We now aim to study the angiogenic profile of tumors receiving the standard and metronomic schedule and to set up a new experiment to compare survival benefit in the animal model. No significant financial relationships to disclose.
Analysis and control of a fractional chaotic tumour growth and decay model