Histopathological test on the mice treated with 5000 mg/kg of the

Histopathological test on the mice treated with 5000 mg/kg of the extract and the mice in normal control group are shown in Fig. 1. In vivo antimalarial assay in the mice of ICR strain was conducted using the methods of chemosuppression, prophylactive test, and rane test. Antimalarial activity was determined from the growth inhibition of P. berghei after oral administration of Neopetrosia exigua extract. Even though the rodent malaria model, P. berghei, is not exactly similar to that of the human Plasmodium parasites, it is the first step to screen most of the

in vivo antimalarial activities of new molecules and new therapeutics. 11 The extracts prolonged the mean survival time of the study mice indicating that the extracts suppressed P. berghei and reduced the overall pathologic effect of the selleck screening library parasite on the study mice ( Table 4). However, neither the extracts nor the standard drug cured the infection. The extract at 400 mg/kg/day exhibited promising antimalarial Cabozantinib research buy activity in both chemosuppressive and prophylactive tests. The result for the prophylactive test also gave a result similar to that noticed during the chemosuppressive test ( Table 1 and Table 3 respectively). The ethanolic extract of N. exigua dose 400 mg/kg and 200 mg/kg group was significantly different

than dose 100 mg/kg, 50 mg/kg and vehicle (∗) body weight. All of the three test methods showed that the extract of Neopetrosia exigua with doses of 400 and 200 mg/kg could inhibit the growth of P. berghei up to

>50%, compared to the resulting growth inhibition with 100 and 50 mg/kg of the extract. The three test methods showed a difference in % of parasitemia. This is probably Astemizole attributable to hospes factor, such as endurance of the mice against the growth of P. berghei. Plasmodium factor might also contribute to the mice’s endurance since P. berghei was not synchronized in the body of the mice and since only 10% of inoculated P. berghei could grow. There was a schizogony–erythrocytic cycle in P. berghei, that the ring stadium and trophozoite were mostly taken as inoculums. Such character of P. berghei could contribute to its growth in the hospes body. Acute toxicity assay showed that the doses up to 5000 mg/kg could not induce 50% of death in mice within 24 h of dosing, with a LD50 > 5000 mg/kg. Histopathological test on the liver showed that a dose of 5000 mg/kg could lead to congestion or blood clogging and polymorphonuclear cell infiltration, namely, cell infiltration with segmented nucleus (neutrophil). No specific anomaly was observed in the control group. Mice in the group treated with a dose of 5000 mg/kgBwt died on day-14. Consequently, the damaged organ could not be examined histopathologically.

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