Your search keyword '"Elujoba, Anthony A."' showing total 5 results

1. Comparative in vivo antimalarial activities of aqueous and methanol extracts of MAMA powder - A herbal antimalarial preparation.

Author

Adeyoju EO, Ajayi CO, Adepiti AO, and Elujoba AA

Subjects

Animals, Antimalarials chemistry, Chloroquine pharmacology, Drug Resistance, Mice, Plant Extracts chemistry, Antimalarials therapeutic use, Malaria drug therapy, Phytotherapy, Plant Extracts therapeutic use, Plasmodium berghei drug effects

Abstract

Ethnopharmacological Relevance: The choice of extraction solvent is a significant consideration in ethnomedicine as optimal extraction could influence the bioactivity of the herbal medicinal product., Aim of Study: This study investigated the possible influence of the choice of solvents (methanol and water) for extracting MAMA Powder (MP) against Plasmodium berghei-infected mice to optimize its antimalarial activity and for developing other pharmaceutical dosage forms., Materials and Methods: Aqueous and methanol extracts of MP, obtained through the decoction and soxhlet methods, respectively, were subjected to liquid chromatography-mass spectroscopy (LC-MS) for their respective fingerprints. The antimalarial activities of the methanol and aqueous extracts (12.5-100 mg/kg) were evaluated orally using the chemosuppressive test model on chloroquine-sensitive Plasmodium berghei-infected mice. The methanol extract was subjected to the established infection and prophylactic antimalarial tests with chloroquine (10 mg/kg) and pyrimethamine (1.25 mg/kg) as positive controls, respectively. The aqueous extract was investigated in chloroquine-resistant P. berghei using the chemosuppressive (12.5-800 mg/kg) and established infection (25-400 mg/kg) antimalarial models., Results: The LC-MS fingerprints of both aqueous and methanol extracts revealed similar indole alkaloid contents. Chemosuppressive activity of the aqueous extract (75.3%) was significantly (p < 0.05) higher than the methanol extract (67.6%). In the chloroquine-resistant P. berghei infection experiments, the aqueous extract (400 mg/kg) exhibited significant parasite clearance (72%)., Conclusion: The study concluded that the water extract with higher antimalarial activity could be optimized for chloroquine-resistant malaria and can thus facilitate the production of liquid and solid dosage forms., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2022

2. Influence of MAMA decoction, an Herbal Antimalarial, on the Pharmacokinetics of Amodiaquine in Mice.

Author

Adepiti AO, Adeagbo BA, Adehin A, Bolaji OO, and Elujoba AA

Subjects

Amodiaquine analogs & derivatives, Amodiaquine blood, Amodiaquine pharmacology, Animals, Antimalarials blood, Antimalarials pharmacology, Drug Combinations, Drug Interactions, Female, Herb-Drug Interactions, Male, Mice, Models, Animal, Plant Leaves chemistry, Amodiaquine pharmacokinetics, Antimalarials pharmacokinetics, Malaria drug therapy, Plant Extracts pharmacology

Abstract

Background and Objective: MAMA decoction (MD) is an antimalarial product prepared from the leaves of Mangifera indica L. (Anacardiaceae), Alstonia boonei De Wild (Apocynaceae), Morinda lucida Benth (Rubiaceae) and Azadirachta indica A. Juss (Meliaceae). A previous report showed that MD enhanced the efficacy of amodiaquine (AQ) in malaria-infected mice, thus suggesting a herb-drug interaction. The present study hence evaluated the effect of MD on the disposition of AQ in mice with a view to investigating a possible pharmacokinetic interaction., Methods: In a 3-period study design, three groups of mice (n = 72) were administered oral doses of AQ (10 mg/kg/day) alone, concurrently with MD (120 mg/kg/day), and in the 3rd period, mice were given AQ after a 3-day pre-treatment with MD. Blood samples were collected between 0 and 96 h for quantification of AQ and its major metabolite, desethylamodiaquine, by a validated high-performance liquid chromatography method., Results: Maximum concentrations of AQ increased by 12% with the concurrent dosing of MD and by 85% in the group of mice pre-treated with MD. The exposure and half-life of desethylamodiaquine increased by approximately 11% and 21%, respectively, with concurrent administration. Corresponding increases of approximately 20% and 33% of desethylamodiaquine were also observed in mice pre-treated with MD., Conclusion: MD influenced the pharmacokinetics of AQ and desethylamodiaquine, its major metabolite. The increase in the half-life and systemic exposure of AQ following its co-administration with MD may provide a basis for the enhanced pharmacological effect of the combination in an earlier study in Plasmodium-infected mice.

Published

2020

3. Evaluation of herbal antimalarial MAMA decoction-amodiaquine combination in murine malaria model.

Author

Adepiti AO, Elujoba AA, and Bolaji OO

Subjects

Animals, Chloroquine pharmacology, Disease Models, Animal, Drug Resistance, Drug Therapy, Combination, Malaria parasitology, Mice, Parasitic Sensitivity Tests, Time Factors, Amodiaquine pharmacology, Antimalarials pharmacology, Drugs, Chinese Herbal pharmacology, Herb-Drug Interactions, Malaria drug therapy, Plant Extracts pharmacology, Plasmodium berghei drug effects

Abstract

Context: Co-administration of amodiaquine with MAMA decoction (MD), an herbal antimalarial drug comprising the leaves of Mangifera indica L. (Anacardiaceae), Alstonia boonei De Wild (Apocynaceae), Morinda lucida Benth (Rubiaceae) and Azadirachta indica A. Juss (Meliaceae) was investigated. The practice of concurrent administration of herbal medicines with orthodox drugs is currently on the increase globally., Objective: The study was designed to investigate the possible enhancement of the antimalarial potency as well as possible herb-drug interaction resulting from concurrent administration of MAMA decoction with amodiaquine (AQ)., Materials and Methods: Combinations of MD with AQ were investigated in chloroquine (CQ)-sensitive Plasmodium berghei NK 65 in varying oral doses (mg/kg) at: sub-therapeutic [MD30 + AQ1.25], therapeutic [MD120 + AQ10] and median effective [MD40 + AQ3.8], using chemosuppressive and curative antimalarial test models. Secondly, P. berghei ANKA (CQ-resistant)-infected mice were orally treated with MD 120, 240, [MD120 + AQ10] and [MD240 + AQ10] mg/kg, using both models. The survival times of mice were monitored for 28 d., Results: ED50 values of MD and AQ were 48.8 and 4.1 mg/kg, respectively. A total parasite clearance of CQ-sensitive P. berghei NK65 was obtained with the therapeutic combination dose in the curative test giving an enhanced survival time. In CQ-resistant P. berghei ANKA-infected mice, [MD120 + AQ10] and [MD240 + AQ10] mg/kg gave comparable activities with AQ (10 mg/kg) in both models., Conclusion: The therapeutic combination dose gave total parasite clearance of CQ-sensitive P. berghei NK65, whereas none of the doses tested showed notable activity against CQ-resistant P. berghei ANKA.

Published

2016

4. In vivo antimalarial evaluation of MAMA decoction on Plasmodium berghei in mice.

Author

Adepiti AO, Elujoba AA, and Bolaji OO

Subjects

Africa, Alstonia chemistry, Animals, Antimalarials toxicity, Azadirachta chemistry, Female, Malaria parasitology, Male, Mangifera chemistry, Medicine, Traditional, Mice, Morinda chemistry, Plant Extracts toxicity, Plant Leaves chemistry, Random Allocation, Antimalarials therapeutic use, Malaria drug therapy, Phytotherapy, Plant Extracts therapeutic use, Plasmodium berghei drug effects

Abstract

The use of decoctions of different plant materials is common practice in antimalarial ethnomedicine in Africa. Scientific evaluation of such herbal combinations to verify the claims is important. The study has evaluated the antimalarial efficacy of MAMA decoction (MD), a multicomponent herbal preparation and its individual plant components, namely leaves of Morinda lucida Benth [Rubiaceae] (ML), Azadirachta indica A. Juss [Meliaceae] (AI), Alstonia boonei De Wild [Apocynaceae] (AB) and Mangifera indica L [Anacardiaceae] (MI) in Plasmodium berghei-infected mice. Each decoction was prepared by boiling the powdered leaf in water, concentrated in vacuo and freeze-dried. The acute toxicity of MD (LD50=3.8 g/kg) was determined using Lorke's method. The antimalarial activities of MD and its plant components were evaluated by oral administration of the freeze-dried extracts (15-240 mg/kg) using the early malaria infection test model. The established malaria infection test was used to evaluate MD (60-240 mg/kg) while amodiaquine [10 mg/kg] (AQ) and distilled water were employed as the positive and negative controls, respectively. From the early malaria infection test, the effective doses at 50 % (ED50) and 90 % (ED90) for MD, AB, AI, ML, MI and AQ were 43, 79, 140, 134, 208 and 3.9 mg/kg and 202, 276, 291, 408, 480 and 9.2 mg/kg, respectively. For the established infection test, MD (240 mg/kg) and AQ gave parasite clearance of 55 and 95 % on day 5 of treatment. MD possesses antimalarial activity and is relatively safe.

Published

2014

5. Influence of formulation ratio of the plant components on the antimalarial properties of MAMA decoction.

Author

Odediran, Samuel, Elujoba, Anthony, and Adebajo, Adeleke

Subjects

*MANGIFERA, *ALSTONIA, *MORINDA, *NEEM, *ANACARDIACEAE, *ANTIMALARIALS

Abstract

Mangifera indica, Alstonia boonei, Morinda lucida and Azadirachta indica (MAMA) decoction, commonly prepared and used in Nigeria from 1:1:1:1 ratio of Mangifera indica L. (Anacardiaceae), Alstonia boonei De Wild (Apocynaceae), Morinda lucida Benth (Rubiaceae), and Azadirachta indica A. Juss (Meliaceae) leaves, plus four new variants of this combination were subjected to three in vivo antimalarial test models using chloroquine-sensitive Plasmodium berghei berghei to determine the most active under each of the test models. Using the original formulation, MAMA (1:1:1:1) which gave ED and ED of 101.54 ± 2.95 and 227.18 ± 2.95, respectively, as reference for comparison, MAMA-1 (1:2:2:2), with 79.58 ± 1.30 and 170.98 ± 1.30, gave significantly ( p < 0.05) higher survival at 85 and 340 mg/kg when 80 % of the mice survived for 15.6 and 17.8 days, respectively, while MAMA-2 (2:1:2:2), with 83.57 ± 1.93 and 164.23 ± 1.93, gave comparable survival except at 170 mg/kg with 60 % survivors for 12 days. MAMA-1 and MAMA-2 were the best curative formulations with MAMA-1 giving additional prophylactic activity. MAMA-3 (2:2:2:1) with 98.70 ± 0.91 and 220.17 ± 0.91, gave comparable ( p > 0.05) survival at 85 mg/kg with 60 % survival for 13.2 days and significantly higher survival at 42.5 mg/kg for 17 days with 40 % survival. Both MAMA and MAMA-3 were the best chemosuppressive formulations plus additional curative activities. MAMA-4 (1:1:2:2), the best prophylactic formulation with 94.87 ± 2.43 and 201.20 ± 2.43 gave significantly higher ( p < 0.05) survival at all doses except at 21.25 mg/kg which gave 60 % survival up to 10 days. Thus, the antimalarial therapy desired, following appropriate diagnosis, whether prophylactic, chemosuppressive or curative would determine which of the MAMA decoction formulations to be prescribed. This phenomenon of formulary optimization may also be applied to other pharmacological activities. [ABSTRACT FROM AUTHOR]

Published

2014