Abstract
The use of herbal products has increased and become more popularized globally; however, limited studies coupled with questions related to the quality and safety of these herbal products have been raised. Herbal products with hope of their nontoxicity may play a role of alternative to overcome the problems of multi-drug resistant pathogens. Medicinal plants used as raw materials for production may have quality and safety issues due to proximity to wastewater application of fungicides and pesticides, which may be directly deposited superficially or absorbed by the plant system. Therefore, possible contamination of some Ghanaian herbal products cannot be ignored, as it may severely affect human life in the process of treatment. Aim. To evaluate the microbial load and the presence of toxic heavy metals in Mist Amen Fevermix and Edhec Malacure, two polyherbal products used in the treatment of uncomplicated malaria in Ghana. Methods. Thermo Elemental M5 Atomic Absorption Spectrophotometer (AAS) fitted with graphite furnace and an auto sampler was used to determine the heavy metal contents of the herbal products. The herbal samples were evaluated for the microbial load by using the appropriate culture media. Results and Analysis. Mist Amen Fevermix and Edhec Malacure complied with the safety limits evaluated for all different microbial counts and contamination. The following heavy metals were present in Mist Amen Fevermix and Edhec Malacure Mixture: Fe, Ni, K, Zn, Hg, Cu, Mn, Cr, Cd, Pb, Fe, Cu, K, and Na. Ni was below detectable limit in Edhec Malacure. Conclusion. Mist Amen Fevermix and Edhec Malacure may be assured of safety. The products contained heavy metals, but all were within acceptable limit established by the FAO/WHO. The levels of microbial contamination were below the maximum acceptable limit.
Highlights
Studies on them regarding, especially, heavy metal contents are limited. erefore, it is important to evaluate for the toxic heavy metal and microbial content with the aim to establish the level of microbes and heavy metals present in Mist Amen Fevermix and Edhec Malacure, two finished herbal products formulated and used in Ghana for the management of uncomplicated malaria
Analysis for the microbial load of Mist Amen Fevermix and Edhec Malacure were determined using nutrient agar, MacConkey agar, Sabouraud agar, Salmonella agar, Shigella Agar and potato dextrose agar which were bought from Lab Chem Medical Supplies, Kumasi. e microbial load of Mist Amen Fevermix and Edhec Malacure were assessed in the microbiology laboratory of the Department of Microbiology, Kwame Nkrumah University of Science and Technology (KNUST)
E microbes present in Mist Amen Fevermix and Edhec Malacure Mixture were below the acceptable maximum limit of 1.0 × 107 cfu/mL. is observation is in line with previous studies which found that pathogenic bacteria like Salmonella spp and Shigella were not isolated from some herbal preparations [22], as in the case of Mist Amen Fevermix and Edhec Malacure Mixture due to good manufacturing practices observed
Summary
Evaluation of the Microbial Load and Heavy Metal Content of Two Polyherbal Antimalarial Products on the Ghanaian Market. Aim. To evaluate the microbial load and the presence of toxic heavy metals in Mist Amen Fevermix and Edhec Malacure, two polyherbal products used in the treatment of uncomplicated malaria in Ghana. Mist Amen Fevermix and Edhec Malacure complied with the safety limits evaluated for all different microbial counts and contamination. Quality and safety parameters of herbal medicines based on the heavy metal contents and microbial load have been an important concern for health authorities and health professionals. Erefore, it is important to evaluate for the toxic heavy metal and microbial content with the aim to establish the level of microbes and heavy metals present in Mist Amen Fevermix and Edhec Malacure, two finished herbal products formulated and used in Ghana for the management of uncomplicated malaria. Samples were analyzed in duplicate and the average was calculated
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