B. O. Oluwatayo scite author profile

et al. 2019

IJTDH

Starvation is a global challenge. Nutritional status of an organism may influence its psychosocial behavior and other nervous system processes like motor responses and its ability to learn and memorize. This study determined the impact of starvation-induced stress on memory sensitization, habituation and psychosomatic responses in an experimental animal design. 25 wistar rats were randomly sampled and grouped into 1-control, 2- feed after 6 hours deprivation, 3-feed after12 hours deprivation, 4-feed after 18 hours deprivation and 5-feed after 24 hours deprivation. Behavioral tests carried out included the multiple maze tests and elevated plus maze test. Grip strength test was performed to determine neuromuscular response and endurance in all groups. Biochemical investigation of brain stress markers was done on the last day of the study. There was a significant (P≤0.05) enhancement in memory processes and anxiolytic behavior after 6 hours feed deprivation. An increase in antioxidants after 6 hours feed deprivation was suspected to be a compensatory response. A progressive decrease in memory facilitation, anxiolytic behavior and muscular strength was reported after 12, 18 and 24 hours feed deprivation. The increase in habituation and decrease in psychosomatic response was observed and appreciated as the duration of feed deprivation was increased. This study provided evidence about a possible link between memory processes and stress-related alterations in calcium, magnesium and nitric oxide. Starvation may impair learning, memory and motor responses, but this tendency is dependent on the extent of feed deprivation and nutrient depletion.

Progesterone and 17β-Estradiol Levels during Normal Pregnancy and the Puerperium among Women Attending a Tertiary Health Facility Clinic in Jos, Plateau State, Nigeria

Ebomoyi

Obika

et al. 2016

IBRR

Introduction: Progesterone and Estrogen are the chief pregnancy hormones. Their levels increase during pregnancy to aid successful maintenance of pregnancy, which depends on maternal tolerance of the fetal semi allograft. Aim: To determine levels of progesterone and 17β-estradiol, at different trimesters during normal pregnancy and the puerperium, which may be used as baseline data for Nigerian women.

L-Citrulline Supplementation Enhances Reproductive Functions of Lead Acetate Induced Testicular Toxicity in Male Sprague Dawley Rats

Kolawole

Ilochi

et al. 2020

JAMPS

Introduction: Lead (Pb) is a transition metal and a known male reproductive toxicant that induces its effects mainly through oxidative stress. This study investigated the effects of L-Citrulline (Cit) supplement on reproductive functions and antioxidant activities in Lead acetate treated male rats. Materials and Methods: Twenty male rats (180-200 g) were grouped into four and treated as follows; Group 1 (Control), given distilled water, Group 2 was given Pb acetate (2.25mg/kg), Group 3 was co-treated with Pb acetate (2.25mg/kg) and Cit (900mg/kg) and Group 4 was given Cit (900mg/kg) only. All administrations were done orally for thirty days. Caudal sperm, serum hormone levels and testicular antioxidant activities and Nitric oxide levels were evaluated at the end administrations. Results: Results showed decrease (p<0.05) in sperm morphology, count, viability, motility, FSH, LH, Testosterone, Catalase, Nitric Oxide and Super oxide dismutase in Group 2(Pb treated rats), when compared to Group 1(Control).However, in Group 3 (Pb acetate co-administered with Cit) the effect was significantly reversed (p<0.05) compared with Group 2 and significant increase was observed in Group 4 (Cit only group) compared with Group 2. There was an increase (p<0.05) in Malondialdehyde level in Group 2 compared with (Group 1) Control while a significant decrease (p<0.05) was observed in Groups 3 and 4 compared with Group 2. Conclusion: The results of this study suggest that L- Citrulline supplement has ameliorating capacity on the toxic effect of Lead acetate on sperm parameters.

Tissue Protein Carbonylation in Aging: A Strategic Analysis of Age-Related Protein Modification

Kolawole

Ilochi

et al. 2019

JAMPS

Free radicals generated in a variety of biological systems have been implicated in mechanisms of aging and age-related pathologies. This study strategically revealed the varying levels of carbonylated proteins in 3 different tissues of 40 wistar rats of varying ages. Their ages include 25-30, 45-50 and 65-70 days. The brain, heart and kidney tissue homogenates were prepared and biochemically analyzed for products of protein oxidation using 2,4-dinitrophenylhydrazones and autoantibodies against carbonylated proteins. This study revealed a direct proportional relationship between age and protein carbonylation in brain, heart and kidney tissue homogenates. The level of carbonylated proteins were significantly (P≤0.05) increased in the assayed tissues as all test groups advanced in age. Oxidative modification of proteins in brain and kidney tissues showed similar trend. This age-related biochemical manifestation may be as a result of increased generation of free radicals at mitochondrial level or decreased anti-oxidant defenses as living organisms advance in age.

Prevalence of systemic lupus erythematosus amongst child-bearing female patients attending University of Port Harcourt Teaching Hospital, Port Harcourt, Rivers State, Nigeria

Ogadimma

Oluwatayo²

2021