Dodonaea angustifolia has a wide range of therapeutic applications against various diseases including malaria. This plant is traditionally used for treatment of malaria in different countries including Ethiopia. However, the antimalarial effect and safety of D. angustifolia are not studied. The aim of this study was to evaluate antimalarial activity of Dodonaea angustifolia in Plasmodium berghei infected mice. In the present study, aqueous and hydroalcoholic extracts as well as solvent fractions of the aqueous extract of D. angustifolia seeds were investigated for their antimalarial activity using Peters' 4-day suppressive test method. Different concentrations of the crude extracts and the fractions of the water extract, most active extract, were orally administered to screen for their antimalarial activities. The extracts significantly inhibited parasitemia and prevented packed cell volume reduction (p <0.05) dose-dependently. Crude extracts and fractions of the aqueous extract of D. angustifolia seeds increased the survival time of infected mice. None of the extracts, however, prevented body weight loss. The aqueous extract of D. angustifolia was found to produce 35.79% parasite suppression. From this extract, three fractions were produced by solvent fractionation technique using butanol, chloroform and water and tested in vivo against P. berghei in mice. The butanol fraction was found to be the most active producing inhibition of 48.6% at 100 mg/kg. The test substance observed to be safe with no toxicity on the mice even at 4500 mg/kg. The results of the present work supported the traditional use of the plant against malaria and confirmed the antimalarial activity of the plant. Moreover, antimalarial compounds can be isolated from this plant and tested against human malaria parasite in the future.
The ethnobotanical study on edible wild plants was carried out from May to December, 2001, in four districts of Ethiopia. The study areas included the rural and semiurban settings of Alamata, Cheha, Goma, and Yilmana Denssa districts of Tigray, Southern Peoples, Oromiya, and Amhara regional states, respectively. Voucher plant specimens were collected along with ethnobotanical information, and scientific names were determined. One hundred and fifty two plant parts from 130 species were recognized and consumed in these districts. Children consumed more wild plants during seasons of food availability (sufficient crop stock) than adults. There was marked increase in quantity and number of wild plant species consumed during food shortage and famine. A few of the reportedly edible species caused health problems that sometimes lead to fatality. Research into the safety and nutritional composition of edible wild plants and fungi is warranted. Selected edible wild plant species should be promoted as supplements to dietary variety and/or bridging the hungry periods of food shortage.
Background: Malaria is a major public health problem in the world in general and developing countries in particular, causing an estimated 1-2 million deaths per year, an annual incidence of 300-500 million clinical cases and more than 2 billion people are at risk of infection from it. But it is also becoming more difficult to treat malaria due to the increasing drug resistance. Therefore, the need for alternative drugs is acute. Objective: This study aims at investigating the in vivo antiplasmodial activity of extracts of the roots and area parts from traditionally used medicinal plant, named Asparagus africanus (Liliaceae). Methods: A rodent malaria parasite, Plasmodium berghei, which was maintained at the Ethiopian Health and Nutrition Research Institute (EHNRI) laboratory, was inoculated into Swiss albino mice. The mice were infected with 1x10 7 parasites intraperitoneally. The extracts were administered by an intra gastric tube daily for four days starting from the day of parasite inoculation. The control groups received the same amount of solvent (vehicle) used to suspend each dose of the herbal drug. Chloroquine was used as a standard drug, and was administered through the same route. Results: Extracts from the roots and aerial parts of A.africanus were observed to inhibit Plasomodium berghei parasitaemia in the Swiss albino mice by 46.1% and 40.7% respectively. Conclusion: The study could partly confirm the claim in Ethiopian traditional medicine that the plant has therapeutic values in human malaria. There is, thus, the need to initiate further in-depth investigation by using different experimental models.
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