Christianah Isimi scite author profile

Christianah Isimi

5Publications

94Citation Statements Received

52Citation Statements Given

How they've been cited

105

How they cite others

Affiliations

National Institute for Pharmaceutical Research and Development, Materials Development (United States)

Publications

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Wound Healing Potential of Formulated Extract from Hibiscus Sabdariffa Calyx

Builders¹,

Kabele-Toge²,

Builders³

et al. 2013

Indian J Pharm Sci

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Wound healing agents support the natural healing process, reduce trauma and likelihood of secondary infections and hasten wound closure. The wound healing activities of water in oil cream of the methanol extract of Hibiscus sabdariffa L. (Malvaceae) was evaluated in rats with superficial skin excision wounds. Antibacterial activities against Pseudomonas aeroginosa, Staphylococcus aureus and Echerichia coli were determined. The total flavonoid content, antioxidant properties and thin layer chromatographic fingerprints of the extract were also evaluated. The extract demonstrated antioxidant properties with a total flavonoid content of 12.30±0.09 mg/g. Six reproducible spots were obtained using methanol:water (95:5) as the mobile phase. The extract showed no antimicrobial activity on the selected microorganisms, which are known to infect and retard wound healing. Creams containing H. sabdariffa extract showed significant (P<0.05) and concentration dependent wound healing activities. There was also evidence of synergism with creams containing a combination of gentamicin and H. sabdariffa extract. This study, thus, provides evidence of the wound healing potentials of the formulated extract of the calyces of H. sabdariffa and synergism when co-formulated with gentamicin.

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Isolation, characterization and formulation properties of a new plant gum obtained fromCissus refescence

Emeje¹,

Nwabunike²,

Isimi³

et al. 2009

Int J Green Pharm

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Natural Antidiabetic Compound for the Therapeutic Management of Diabetes Mellitus and Its Drug Delivery System

Emeje

Boyi

Obidike

et al. 2011

Journal of Dietary Supplements

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A single tablet dosage form containing the freeze-dried aqueous leaf extract of Vernonia amygdalina (AD1), suitable for use in the therapeutic management of diabetes mellitus, has been developed. The compaction characteristics of the extract were studied using the Heckel equation. The mechanical properties as well as disintegration and dissolution profile of the compacts were also assessed. The results showed that AD1 exhibited very low densification due to dye filling and addition of filler-binders contributed significantly to their subsequent densification. The tablets produced had good mechanical properties. Of the three filler-binders tested, tablets containing Avicel had the shortest disintegration time of about 5 min, while tablets without any filler-binder had the longest disintegration time of 50 min. Dissolution results (T(90%)) showed that tablets containing Avicel released 100% of the extract in less than 15 min proving to be the most suitable in acute diabetes. The order of dissolution is Avicel > maize starch > lactose > extract. It is concluded that incorporation of Avicel as a filler-binder in AD1 preparation produced tablets of suitable compaction properties and ensured adequate drug release for the therapeutic management of diabetes mellitus.

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Effects of some channelling agents on the compaction properties of the mixed stem bark extracts of Anogeissus leiocarpus and Prosopis africana

Emeje¹,

Isimi²,

Izuka³

et al. 2017

J. Herbal Drugs

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Background & Aim:The hot water extract of a mixture of Anogeissus leiocarpus and Prosopis africana is widely used in the northern part of Nigeria for the treatment and management of asthma. Since investigations of its pharmacological activities already justify its use, and the need for standardization of herbal medicine and develop appropriate dosage forms has continued to grow, the purpose of this study was to evaluate the effects of some common channelling agents (sodium bicarbonate, calcium carbonate and sodium lauryl sulphate) on the compaction properties of the mixed stem bark extracts of Anogeissus leiocarpus and Prosopis africana. Experimental: Granules of the mixed extracts (AA1) were produced using the wet granulation method of massing and screening. The micromeritics and flow properties of the extracts as well as the effects of the three common additives were studied, while the compaction properties of the extract formulated alone and in the presence of these additives were interrogated using the Heckel equation. Results: Our results showed that, all the formulations containing the channelling agents exhibited poor flow. Granules prepared using sodium bicarbonate (NaHCO3) exhibited plastic deformation during consolidation, those formulated using calcium carbonate (CaCO3) showed initial fragmentation before consolidation by plastic deformation and those formulated using sodium lauryl sulphate consolidated essentially by plastic deformation. Inclusion of additives modified the compressibility profiles of the formulations. Tensile strength of the formulations containing NaHCO3 and sodium lauryl sulphate (SLS) were observed to be concentration dependent while those containing CaCO3 showed no appreciable increase in tensile strength with increased pressure. Generally, formulations containing 5% of the additives gave the highest tensile strength, however, those containing CaCO3 were found to be higher than the other two formulations. Recommended applications/industries: Considering that, none of the channelling agents altered significantly the compaction properties of AA1, they might be useful in developing standardized and robust tablets of A. leiocarpus and P. africana admixtures for Asthma therapy.

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Preparation and standardization of a herbal agent for the therapeutic management of asthma

Emeje

Izuka

Isimi

et al. 2010

Pharmaceutical Development and Technology

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This study aims to develop a suitable single tablet dosage form containing a mixture of hot water stem back extracts of Anogeissus leiocarpus and Prosopis africana (AA1), suitable for use in the therapeutic management of asthma. The compaction characteristics of the oven-dried hot water extract (HWE) were studied using the Heckel equation. The mechanical properties as well as disintegration and dissolution profile of the compacts were also assessed. The results showed that AA1 exhibited high densification due to dye filling while the subsequent rearrangement of the granules did not contribute, significantly, to their densification. The granules had enhanced plasticity as shown by the low yield point, Py. The tablets produced from the extract had good mechanical properties, with hardness increasing with compression pressure while the friability decreased. Of the four disintegrants tested, tablets containing Explotab had the shortest disintegration time of 11 min while tablets containing Prosolv had the longest disintegration time of 40 min. The order of disintegrant property is Explotab > Cellactose > Emcocel > Maize starch > Prosolv. Dissolution results (t(90%)) show that tablets containing Explotab released 100% of the drug in 20 min proving to be the most suitable in acute asthma attack. The order of dissolution is Explotab > Cellactose > Maize starch > Prosolv > Emcocel. It is concluded that incorporation of Explotab (10%w/w) as a disintegrant in AA1 preparation produced tablets of suitable compressional properties and ensured adequate drug release for the management of acute asthma.

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