RESUMEN
Malaria is a global health problem with severe morbidity and mortality in Sub-Saharan Africa. Resistance of Plasmodium spp to the current anti-malaria drugs necessitates further search for novel effective drugs. This study, therefore, investigated the effect of sodium acetate on glucose-6-phosphate dehydrogenase in Plasmodium berghei-infected mice. Thirty male Albino mice were randomly distributed into 6 groups, A-F. Animals in Groups B-F were inoculated with P. berghei, intraperitoneally. Subsequently, Group C mice were treated with 20 mg/kg chloroquine, while groups D, E and F received 25, 50 and 100 mg/kg sodium acetate, respectively. All treatments were administered orally for 4 days. At the end of the experiment, animals were sacrificed by cervical dislocation and blood was collected via cardiac puncture for the analyses of serum glucose-6-phosphate dehydrogenase (G6PD), uric acid and lipid profile. Our results showed that Sodium acetate (50 and 100 mg/kg) significantly reduced (p < 0.05) parasitaemia (67.11% and 77.62%, respectively) than chloroquine (61.73%). Besides, body weight and serum G6PD activity in P. berghei infection were improved. Similarly, sodium acetate reduced elevated serum uric acid. Effects of sodium acetate and chloroquine on biochemical parameters were comparable (p > 0.05) but atherogenic lipid ratios were not affected by sodium acetate. These data put together suggested that activity of sodium acetate may be harnessed for development of novel anti-malaria drugs. However, more studies are required to delineate its mechanisms of action.
RESUMEN
Small-scale farmers in Northern Tanzania grow vegetables that include tomatoes, cabbages and onions and use many types of pesticides to control pests and diseases that attack these crops. Based on the use of questionnaires and interviews that were conducted in Arumeru, Monduli, Karatu, and Moshi rural districts, this study investigates farmers' practices on vegetable pest management using pesticides and related cost and health effects. The types of pesticides used by the farmers in the study areas were insecticides (59%), fungicides (29%) and herbicides (10%) with the remaining 2% being rodenticides. About a third of the farmers applied pesticides in mixtures. Up to 90% had a maximum of 3 pesticides in a mixture. In all cases there were no specific instructions either from the labels or extension workers regarding these tank mixtures. Fifty three percent of the farmers reported that the trend of pesticide use was increasing, while 33% was constant and 14% was decreasing. More than 50 percent of the respondents applied pesticides up to 5 times or more per cropping season depending on the crop. Insecticides and fungicides were routinely applied by 77% and 7%, respectively by these farmers. Sixty eight percent of farmers reported having felt sick after routine application of pesticides. Pesticide-related health symptoms that were associated with pesticides use included skin problems and neurological system disturbances (dizziness, headache). Sixty one percent of farmers reported spending no money on health due to pesticides. These results can be used to develop a tool to quantify the cost of pesticide use in pest management by small-scale vegetable farmers in Northern Tanzania and contribute to the reformation of pesticide policy for safe and effective use of pesticides.