Metamizole is used to relieve the visceral pain but its adverse effects limit its use. An alternative to improve its efficacy with lower doses is to combine it with a natural product as hesperidin. The aim of this study was to evaluate the antinociceptive interaction between metamizole and hesperidin in a visceral pain model using an isobolographic analysis. Antinociception was evaluated in the writhing model using acetic acid (1%) to induce writhes in mice. Metamizole (1-316mg/kg), hesperidin (3-300mg/kg), or combinations with a fixed-dose ratio of 1:1 were administered intraperitoneally 30min before the acetic acid and the number of writhes was counted for 30min. Isobolographic analysis was employed to define the nature of the compound interaction. Metamizole and hesperidin in individual administration induced dose-dependent antinociceptive effects, reached an efficacy of 84.2±5.9% and 66.3±7.4%, respectively. The ED50 values calculated from their dose-response curves were 84.5±22.7 and 108.9±17.9mg/kg, respectively. The analysis of DRC for the metamizole+hesperidin combination, in a ratio 1:1 showed a ED50 COMB value lower than the ED50 ADD estimated from the additivity line from the isobologram (46.7±6.3 vs. 96.7±11.9mg/kg, respectively). In addition, the pharmacological interaction calculated was of 0.48. These results suggest a synergistic interaction for the antinociceptive activity of metamizole+hesperidin combination. These data suggest that metamizole+hesperidin combination could be useful in treating visceral pain as it can interact synergistically using low dose of both drugs with the possibility of reducing the risk of adverse effects.