Examining Socio-Demographic Corelates of Land and Livestock Ownership Access Poverty in Nigeria Using the Core Welfare Indicator Questionnaire Survey Data

The aim of the study is to examine the socio-demographic variables that correlate with land and livestock ownership access poverty in Nigeria using the Core Welfare Indicator Questionnaire (CWIQ) survey data, a non-monetary welfare indicator survey. A composed sample of 77,400 (seventy-seven thousand, four hundred) housing units drawn from the 36 States and Federal Capital Territory-FCT was used for the study. Principal Component Analysis (PCA), Adapted-Foster Greer and Thorbecke, and binary logit model  were used to analyze the data. The PCA was used to derive the land and livestock ownership access poverty line. The study revealed that land access poverty incidence is high across all the geo-political zones in Nigeria although the northern geo-political zones have land access poverty below the national incidence while the southern geo-political zones have land access poverty incidence above national incidence region. Household size, polygamous marriage and gender more significantly increase poverty across the various indicators used while attaining post secondary school, living in an urban area significantly reduced poverty across the composite indicators used. The study recommends that beyond the institutional reform advocated by some researchers, there is the immediate policy needs therefore to address some socio-demographic issues in Nigeria as they concern access to land. Such critical issues include rural-urban dichotomy as well as the gender imbalance in access to land and livestock ownership. Key words: Socio-Demographic Correlates, Land and Livestock Access Povert

Acute Oral Toxicity Studies of the Crude Extract of Endophytic Fungi Isolated from Annona senegalensis Pers

Establishment of safety and toxicity profiles of metabolites of endophytic organisms from known medicinal plants are crucial in their pharmacological and biological applications. The aim of this study was to evaluate the oral acute toxicity (LD50) of crude extract of endophytic fungi isolated from Annona senegalensis Pers. The endophytic fungal metabolite was extracted with ethyl acetate. The LD50 was estimated following the method described by Lorke. Three dose levels (10, 100, and 1000 mg/kg) of the crude extract were administered to three mice each for the first phase using oral gavage needle in a single dose disposable syringe. The animals were observed for possible deaths or other side effects of the test substance in each group within 24 hours of the treatment. In the second phase, which was deduced from the first phase, eight mice were sub-divided into four groups of two mice each and they were treated with doses of 1200, 1600, 2900 and 5000 mg/kg orally. They were also observed within 24 hours and final LD50 value was determined. Results showed that the endophytic fungal extract exhibited no mortality or any histological defect in the liver tissues of the mice. More so, the immunological parameter tested showed significant increase in neutrophils and lymphocytes relative to the control in all the fungal isolates. Additionally, the LD50 for the crude metabolites was > 5000 mg/kg. This study has revealed that crude extract of endophytic fungi isolated from Annona senegalensis Pers did not show oral acute toxicity in mice. Further studies will evaluate long term-toxicity of the crude extract. Keywords: Endophytes, LD50, Annona senegalensis, Metabolites, Fung

Poloxamer-based thermoresponsive ketorolac tromethamine in situ gel preparations : design, characterisation, toxicity and transcorneal permeation studies

This study was aimed at preparing, characterising and evaluating in situ gel formulations based on a blend of two hydrophilic polymers i.e. poloxamer 407 (P407) and poloxamer 188 (P188) for a sustained ocular delivery of ketorolac tromethamine (KT). Drug-polymer interaction studies were performed using {DSC} and FT-IR. The gelation temperature (Tsol-gel), gelation time, rheological behaviour, mucoadhesive characteristics of these gels, transcorneal permeation and ocular irritation as well as toxicity was investigated. {DSC} and FT-IR studies revealed that there may be electrostatic interactions between the drug and the polymers used. {P188} modified the Tsol/gel of {P407} bringing it close to eye temperature (35°C) compared with the formulation containing {P407} alone. Moreover, gels that comprised {P407} and {P188} exhibited a pseudoplastic behaviour at different concentrations. Furthermore, mucoadhesion study using mucin discs showed that in situ gel formulations have good mucoadhesive characteristics upon increasing the concentration of P407. When comparing formulations {PP11} and PP12, the work of adhesion decreased significantly (P < 0.001) from 377.9 ± 7.79 mN.mm to 272.3 ± 6.11 mN.mm. In vitro release and ex vivo permeation experiments indicated that the in situ gels were able to prolong and control {KT} release as only 48 of the {KT} released within 12 h. In addition, the HET-CAM and {BCOP} tests confirmed the non-irritancy of {KT} loaded in situ gels, and HET-CAM test demonstrated the ability of ocular protection against strongly irritant substances. {MTT} assay on primary corneal epithelial cells revealed that in situ gel formulations loaded with {KT} showed reasonable and acceptable percent cell viability compared with control samples

Natural carriers for application in tuberculosis treatment

Tuberculosis remains the leading cause of preventable deaths worldwide and unsuccessful therapy is mainly due to non-compliance with very prolonged treatments, often associated with severe side-effects. Overcoming this problem demands the introduction of drug carriers releasing the antimicrobial agents in a targeted and sustained manner, allowing reduction in frequency and dosing numbers. Nano and microparticles have taken the forefront of this approach, providing the means for the desired improvement of therapeutic schedules. Natural polymers are strong candidates as matrix forming materials, usually exhibiting biocompatibility, biodegradability, low cost and some technological advantages as compared with synthetic counterparts. In this review, natural particulate carriers developed for tuberculosis therapy are presented, mainly focusing on the use of polysaccharides and lipids. Their effectiveness is discussed taking into account their composition. Finally, considerations on the general potential of natural materials for this application, as well as key factors still to be addressed, are discussed

Preparation of snail cyst and PEG-4000 composite carriers via PEGylation for oral delivery of insulin: An in vitro and in vivo evaluation

Purpose: To develop PEGylated mucin as a carrier system for oral insulin delivery. Methods: Varied ratios of snail cyst were molecularly modified with polyethylene glycol 4000 (PEG 4000). Briefly, In each case, 20 g quantities of snail cyst and PEG 4000 were separately dispersed in distilled water, stirred and allowed to stand for 24 h to produce a homogeneous dispersion and clear solution, respectively. The solution of PEG was added to the snail cyst dispersion, stirred and allowed 12 h for molecular interaction. The mixture was added to a 250-mL beaker containing 100 mL of light liquid paraffin. The microparticles were obtained after stirring and removing the paraffin using chilled acetone. The obtained PEGylated mucin matrices, which were subsequently loaded with insulin using a diffusion method, characterized for particles size, drug loading, encapsulation efficiency, in vitro drug release and evaluated for oral application in diabetic rats. Results: The polymer hybrids improved insulin encapsulation efficiency (max 82.3 %), gave. polydispersity indices that ranged from 0.11 ± 0.1 to 0.24 ± 0.2, zeta potential values between 28 ± 0.3 and 38 ± 1.1 mV. Insulin release was highest (68 % in 6 h) for batch C and was sustained for 10 h in simulated intestinal fluid. The optimized batch (C-5) showed higher hypoglycaemic activity (56.5 %) than control (0.5 %) in diabetic rats. Conclusion: The results suggest that PEGylated mucin can potentially be developed as a platform for oral insulin deliver

Biochemical, rheological and hydrophile-lipophile balance (HLB) evaluation of Archachatina marginata (snail) mucin extract for possible nutraceutical and nano biopharmaceutical applications

Purpose: To evaluate the rheological, biochemical, hydrophile-lipophile balance (HLB) of Archachatina marginata (snail) mucin extract for possible use as a nutraceutical and nano biopharmaceutical material. Methods: Snail mucin was extracted with acetone and water, lyophilized and the biochemical, proximate and mineral analyses of the extracts were studied using standard methods. The rheological properties of the extracts (1, 2, 4 and 8 % w/v) and their emulsion-based preparations were evaluated. Other physicochemical properties and HLB values of the preparations were also determined. Results: Snail mucin extracts contained protein (84 %), fats (2.91 %) and carbohydrate (1.2 %) and showed significant nutraceutical composition (p < 0.05). Ash content of 4.21 and 4.12 % was obtained for water and acetone extracts, respectively. Moisture content was < 9 % for both the aqueous and nonaqueous mucin extracts. Potassium, calcium and phosphorus were present in high quantities in the extracts while iron, copper and zinc were in trace amounts (< 4 %). Mucin dispersions exhibited viscosity in the range of 0.89 to 0.93 cp. Water sorption and dry weight were higher in the acetone extract than in the aqueous extract. The HLB values, which ranged from 7 to 15, were within the acceptable values for material for nanobiopharmaceutical application, except that the acetone extract. Conclusion: Snail mucin exhibits good nutraceutical properties and also possesses good properties that render it a potential excipient for use in the formulation of drug delivery system

Formulation and characterization of artemether-loaded sodium alginate microcapsules

Purpose: To increase the solubility of artemether (ART) in Transcutol® HP through microencapsulation in sodium alginate polymer to achieve  sustained in vivo release.Method: Graded concentrations of ART (0.00, 0.25, 0.50, 0.75, and 1.00 g) microcapsules were produced using Tween® 80 by the cold  homogenization method at 24 x 1000 rpm for 15 min. Characterization based on yield, encapsulation efficiency (EE), particle size, pH stability,  differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FTIR) and in vivo release using Peter’s four-day suppressive protocol in Wistar mice infected with Plasmodium berghei, were determined.Results: The results obtained indicate that 0.5 g ART-loaded microcapsules (AMC) showed the highest yield of 96.85 %. The EE of 88.3 %  corresponded to 0.75 g ART-loaded microcapsules. DSC results revealed that there was a significant reduction in enthalpy in all the formulations compared to the crystalline drug, but no strong bond interaction occurred except for the blank microcapsules. The AMC1.0 showed high dose-dependent plasmodial growth inhibition of 88.75 % while AMC0.25 had the least (68.13 %).Conclusion: The artemether microcapsules showed sustained release characteristics for oral delivery of artemether and therefore may reduce some of the adverse effects associated with high dose artemether therapy in conventional oral tablets. Keywords: Malaria, Artemether, Transcutol® HP, Sustained-release, RBC count, Antiplasmodial activit

Pharmacokinetics and biodistribution of zidovudine loaded in a solidified reverse micellar delivery system.

The aim of the research was to study the stability, release profile, pharmacokinetic and biodistribution properties of zidovudine (AZT)-solidified reverse micellar microparticulate. Lipid matrices formulated with Phospholipon® 90H and goat fat at ratios of 1:1, 2:1, 3:1 and 2:3 were used to prepare AZT-loaded SLM by melt dispersion followed by lyophilization. In vitro release studies of the drug were carried out using a sequential drug release method in both SGF (pH 1.2) and SIF (pH 7.2) while the in vivo drug release studies were carried out using Wistar albino rats. The result of our findings showed that the drug is compatibility with the lipid matrix with the 1:1 showing the most stable microparticle preparation which was then optimized. The formulations showed a concentration dependent increase in their concentration maximum (Cmax) with values of 116.05 µg/ml, 124.21 µg/ml, 128.95 µg/ml, 138.95 µg/ml and time to reach maximum concentration (Tmax) values of 5h, 8 h, 8 h, and 5 h for batches B1, B2, B3 and B4 containing 1 %, 2 %, 3 % and 5 % of AZT respectively. The area under curves (AUCs) of the microparticles formulated showed that the bioavailabilities of the microparticles were comparable to that of the conventional release tablet. The biodistribution studies of the microparticles in rats showed highest concentration of the drug in the liver with the least in the brain and higher biodistribution in various organs than pure AZT. The data suggested that SLM could be a promising drug delivery system to improve on the shortcomings of pharmacokinetics and bio-distribution properties of conventional AZT tablets like fluctuation in blood levels of the drug