Antimalarial activity, Plasmodium berghei, traditional medicines

Aqueous ethanol (80%) extracts of six plants used traditionally for treatment of malaria, Vepris glomerata (F.Hoffm.) Engl (Rutaceae), Maranthus floribunda (Bak.) F.White (Chrysobalanaceae), Strophanthus eminii Asch. & Pax ex Pax (Apocynaceae), Cassia abbreviata Oliv. (Leguminosae) and Caesalpinia bonducella L. Fleming (Fabaceae) were screened for antimalarial activity to establish validity of their claims. The extracts exhibited antimalarial activity in the 4-day Peter’s suppressive antimalarial assay in mice inoculated with red blood cells parasitized with Plasmodium berghei. The extracts gave ID50 values of 42.8, 111.0, 639.3 and 1560 mg/kg body wt for C. bonducella, C. abbreviata, T. furialis and S. eminii, respectively. The ID50 values for V. glomerata and M. floribunda were above 2400 mg/kg body wt, above which point solubility was a problem. All the tested extracts were innocuous to the mice, up to 2400 mg/kg body wt, suggesting they may be safe for short-term use

EVALUATION OF ETHNOMEDICAL CLAIMS AND BRINE SHRIMP TOXICITY OF SOME PLANTS USED IN TANZANIA AS TRADITIONAL MEDICINES.

Using information from the literature it has been demonstrated that twenty one (21) plants out of 60 (35%) which are used in traditional medicine, in Tabora region (Western Tanzania), are used elsewhere for the treatment of similar conditions or their claims have proven biological results. Ethanol extracts of some of the plants exhibited low, some intermediate, and some high toxicity against brine shrimps. The brine shrimp assay results for Psorospermum febrifugum Spach (Guttiferae) [LC50 12.7µg/ml], agreed with previous reports of established anticancer activity, while for Phyllanthus engleri Pax. (Euphorbiaceae) [LC50 0.47µg/ml] they supported literature reports that it is toxic to rabbits and fish. Despite the therapeutic claims, literature reports, and brine shrimp assay results, more rigorous studies are needed to confirm the therapeutic utility of the plants

Antimicrobial activity and brine shrimp toxicity of extracts of Terminalia brownii roots and stem

BACKGROUND: Ternimalia brownii Fresen (Combretaceae) is widely used in traditional medicine to treat bacterial, fungal and viral infections. There is a need to evaluate extracts of this plant in order to provide scientific proof for it's wide application in traditional medicine system. METHODS: Extraction of stem bark, wood and whole roots of T. brownii using solvents of increasing polarity, namely, Pet ether, dichloromethane, dichloromethane: methanol (1:1), methanol and aqua, respectively, afforded dry extracts. The extracts were tested for antifungal and antibacterial activity and for brine shrimp toxicity test. RESULTS: Extracts of the stem bark, wood and whole roots of T. brownii exhibited antibacterial activity against standard strains of Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Klebsiella pneumoniae, Salmonella typhi, and Bacillus anthracis and the fungi, Candida albicans and Cryptococcus neoformans. Aqueous extracts exhibited the strongest activity against both bacteria and fungi. Extracts of the roots and stem bark exhibited relatively mild cytotoxic activity against brine shrimp larvae with LC(50 )values ranging from 113.75–4356.76 and 36.12–1458.81 μg/ml, respectively. The stem wood extracts exhibited the highest toxicity against the shrimps (LC(50 )values 2.58–14.88 μg/ml), while that of cyclophosphamide, a standard anticancer drug, was 16.33 (10.60–25.15) μg/ml. CONCLUSION: These test results support traditional medicinal use of, especially, aqueous extracts for the treatment of conditions such as diarrhea, and gonorrhea. The brine shrimp results depict the general trend among plants of the genus Terminalia, which are known to contain cytotoxic compounds such as hydrolysable tannins. These results warrant follow-up through bioassay-directed isolation of the active principles

Promotion of Community Based Commercial Cultivation of Herbal Medicines and Packaging of Herbal Nutritional Supplements

Final Project ReportRockefeller-UDSM Funded Project

Effectiveness of the Domestic Cat (Felis silvestris catus) Urine Extracts Odour against Commensal Rodents

Huria Journal V.24(2), July 2017, pg. 110-121The aim of this study was to investigate the effects of an extract of cat urine odour as a repellant of commensal rodents in houses. Cat urine was drawn and stored frozen in universal bottles at -20 0 C until use. The stored cat urine was then thawed and mixed with maize starch to form a thick dough and then granulated and dried at room temperature before being packed in a hermetically closed jar. Initially, rodent foot marks on tracking soot coat tiles were used to estimate the rat population before the cat urine extracts application. Twenty households with high and low rodent activities were selected purposively in the study area. Ten houses were treated with the urine extracts and ten others were kept untreated (control). Both treated and untreated houses were categorized at two levels (i.e. low and high rodent activities) as determined by the tracking tile foot prints. One tracking tile was placed in each of the selected houses and rodent foot marks were counted. Collected data were subjected to analysis of variance and the results showed a significant difference in rodent activities which however, depended on the sex of the cat that donated the urine base. Female cat urine extract repelled significantly more commensal rodents as compared to male cat urine extract. The repellent effect was observed from day 1 to 4; but not beyond. Our findings suggest that cat urine odour has the potential to repel commensal rodent pest species; with female cat urine being more effective than male cat urine

Effectiveness of the domestic cat (Felis silvestris catus) urine extracts odour against commensal rodents

Huria Journal, Volume 24, Number 2, July 2017The aim of this study was to investigate the effects of an extract of cat urine odour as a repellant of commensal rodents in houses. Cat urine was drawn and stored frozen in universal bottles at -20 0 C until use. The stored cat urine was then thawed and mixed with maize starch to form a thick dough and then granulated and dried at room temperature before being packed in a hermetically closed jar. Initially, rodent foot marks on tracking soot coat tiles were used to estimate the rat population before the cat urine extracts application. Twenty households with high and low rodent activities were selected purposively in the study area. Ten houses were treated with the urine extracts and ten others were kept untreated (control). Both treated and untreated houses were categorized at two levels (i.e. low and high rodent activities) as determined by the tracking tile foot prints. One tracking tile was placed in each of the selected houses and rodent foot marks were counted. Collected data were subjected to analysis of variance and the results showed a significant difference in rodent activities which however, depended on the sex of the cat that donated the urine base. Female cat urine extract repelled significantly more commensal rodents as compared to male cat urine extract. The repellent effect was observed from day 1 to 4; but not beyond. Our findings suggest that cat urine odour has the potential to repel commensal rodent pest species; with female cat urine being more effective than male cat urine