Gideon Oludare Oladipo scite author profile

The present study evaluated the abortifacient potential of aqueous-acetone extract of Adenopus breviflorus Benth Seed on the reproductive health of matured female albino rats by monitoring the indices of dysfunctions in reproductive system. Prior to the conduction of the fertility studies, the oral acute toxicity of the seed extract was evaluated for autonomic, behavioral and neurological changes, within 24 h to determine the LD 50 .The influence of aqueous-acetone extract of Adenopus breviflorus Benth Seed was evaluated for antioxidant, reproductive hormones and histology of uteri tissues primarily to monitor effects in female fertility. Female rats exhibiting thick clump of spermatozoa in their vaginal smear were randomly selected and used for the study to determine the abortifacient activity of the seed extract. Parameters such as number of live and dead fetuses, anogenital distance (AGD) and crown rump length (CRL), and the variation in birth weight of liters and gestation period between control and experimental animals were determined. The phytochemical composition of the seed extract was characterized by Gas Chromatography and Mass Spectrophotometry for the identification of phytochemical of toxic or therapeutic effects. Symptoms similar to clinical toxicity such as salivation, respiratory distress, weight loss and change in appearance of hair were noticed at concentrations above 1600 mg/kg BWT, there was no maternal mortality at any period of the experiment. There were changes in the behavioural, neurological and autonomic profile in groups with doses greater than 1600 mg/kg BWT. The LD50 evaluation showed that the aqueous-acetone extract of the seed was safe at dose of 5000 mg/kg BWT. The GC–MS characterization of the aqueous-acetone seed revealed isomeric derivatives of benzene-mesitylene and pseudocumene 4.28 g/100 g of sample) and 5.85 g/100 g of sample respectively as most predominant phytochemicals in the seed extract which demonstrated maternal toxicity. The effects on the female reproductive hormones of the treated animals revealed that FSH, LH and prolactin were significantly reduced (p < 0.05) in all the treated groups by the extract. Progesterone (PH) and estrogen (EH) were also reduced significantly. The study revealed scientific evidence in support of the abortifacient activity of seed extract that was significantly corresponding to the discovered phytochemical compounds.

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Phytochemical, nutritional and antioxidant properties of Abelmoschus esculentus Moench L leaf: A pointer to its fertility potentials

Borokini

Oladipo

Komolafe³

et al. 2022

Measurement: Food

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BioActivities of Coturnix japonica (quail) egg yolk and albumen against physiological stress

Oladipo

Ibukun

2016

Food Science & Nutrition

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Cold and immobilization stressors can generate oxidative stress as well as skeletal muscle fatigue. Free radicals cause oxidative degradation of lipids, proteins, nucleic acids, and carbohydrates molecules thereby compromising cell integrity and function. Coturnix japonica (quail) egg had been described as being very functional biochemically, due to the essential biomolecules it contains in very regulated quantity. This study was designed to evaluate the in vitro antioxidant activity of extracts of quail egg yolk and the albumen. The assessment of the antioxidant potentials was typified using the total antioxidant capacity, and ABTS, DPPH (1‐diphenyl‐2‐picrylhydrazyl) and hydroxyl radicals scavenging activities. Others are reducing power, metal chelating and lipid peroxidation inhibition activities. The antistress activities of quail egg yolk and albumen were evaluated on hepatopathic enzymes as well as endogenous antioxidant enzymes. The total antioxidant activities of the yolk extract (YE) and the albumen extracts (AE) were, respectively, 186.57 ± 6.441 mg/g and 172 ± 10.690 mg/g AAE (Ascorbic Acid Equivalent). The YE exhibited significant, potent and appreciable antioxidant activities than AE in a concentration‐dependent manner. The study confirmed that quail egg yolk contained highly antioxidative bioactive compounds not present in albumen, contributing to its (yolk) overall antioxidant and anti‐inflammatory (antistress) properties, thus necessitating their (albumen and yolk) beneficial effects in the management of oxidative and inflammatory conditions.

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Alstonia boonei Leaf Mitigated Deleterious Effects of Experimental Type-II-Diabetes-Mellitus against Pancreatic and Neurocognitive Functions

Falusi

Oluwayomi

Imoukhuede

et al. 2021

AJRB

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The search for prompt, less toxic and economically affordable medical therapy has facilitated the increased investigation into the therapeutic potentials and applications of plants samples against common tropical ailments. This study was designed to investigate the reported link between experimental type II diabetes mellitus (T2DM) and neurocognitive decline and the justification for the use Alstonia boonei leaf in similar treatments. Experimental T2DM were treated with 100, 1000 and 1600 mg/kg BWT of the Alstonia boonei leaf and glibenclamide (100 mg/kg BWT). Biochemical analyses were used to determine effects on the pancreatic and neuronal indices of tissues functions; oxidative stress; excitation; and inflammation; blood glucose and insulin concentrations. The study revealed that T2DM and Alstonia boonei leaf affected the activity of tyrosine hydroxylase which is the regulating enzyme for the biosynthesis of dopamine. The oxidative and inflammatory stress exacerbated by T2DM was mitigated by a significant reduction of TNF-α and an increase of GSH, NP-SH, GPx, SOD and GST levels. Alstonia boonei leaf reversed the insulin resistance by the cells, with effective transduction of insulin signal and a corresponding reduction of circulating glucose. Alstonia boonei leaf demonstrated hypoglycaemic effect, and mitigated the neurodegeneration that ensued from the diabetic induction.

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