MATERIALS AND METHODS: The tenon tissue was harvested from a patient undergoing strabismus surgery. The human tenon fibroblast cell culture and isolation were performed according to the standard laboratory cell culturing protocol. The cells were divided into three groups: control, treatment with irradiated and non-irradiated riboflavin. There were five different concentrations (0.00156%, 0.003125%, 0.00625%, 0.0125%, 0.025%) in each group of riboflavin. The fibroblasts were treated with riboflavin and the cellular viability was assessed at 24-hour and 48-hour post treatment with MTT 3-(4,5-dimethylthiazolyl-2)-2,5-diphenyl tetrazolium bromide colorimetric assay. The absorbance values were analysed using Magellan microplate reader data analysis. A triplicate of readings was taken. The data were presented as mean ± standard deviation of the triplicates. Statistical analysis was performed with Statistical Package for Social Sciences (SPSS) analysis version 23.
RESULTS: Irradiated riboflavin caused a concentration-dependent cell death in human tenon fibroblast cell culture (p
METHODS: In this experiment, pregnant rats (n = 18) were randomly separated into three groups. These groups were treated from pregnancy day (PD) 2 to PD 21. Subsequently, the male offspring of these rats were provided either a normal-diet (ND) or a TFD from 3rd postnatal week (PNW) to 14th PNW. Then, protein expression of PPAR-γ and global DNA methylation were assessed in the adult rat offspring that were exposed to in utero BPA and subjected to postnatal TFD intake.
RESULTS: The study findings have shown that there was no association between prenatal exposure to BPA and/or TFD consumption and PPAR-γ protein expression within all the study groups in the liver tissue. On the other hand, changes at the molecular level, as reflected by the global DNA hypermethylation induced by prenatal BPA and postnatal TFD intake in adult male SD rat offspring (PNW 14).
CONCLUSIONS: This study underscores the potential impact of prenatal BPA exposure and postnatal TFD intake on epigenetic regulation, as evidenced by global DNA hypermethylation, despite no observable changes in PPAR-γ protein expression. These findings suggest that early-life environmental exposures may predispose individuals to metabolic disruptions, including diabetes and obesity, in adulthood or future generations.
METHODOLOGY: In this cross-sectional study, the samples were collected according to a non-random sampling method. Blood samples were collected from students and employees of Kabul University. The study included 166 males and 125 females, aged 18-45 years. The selection and exclusion of participants were carried out according to a questionnaire and the assessment of serum ferritin and vitamin B12 levels. Candidates with lower serum ferritin and vitamin B12, a history of chronic disease, females with menstruation or pregnancy, and those with chronic abdominal pain were excluded.
RESULTS: Reference ranges for all blood parameters were determined by a non-parametric method. The determined reference values were compared between males and females by the Z-test. Reference intervals for hemoglobin (4.5-6.3 g/dL for males and 3.66-5.67 g/dL for females) and hematocrit (36.23-55.93% for males and 30.20-53.86% for females) were significantly (p<0.05) higher in males. No significant (p<0.05) differences were observed between the reference intervals for the red blood cell count.
CONCLUSION: Therefore, we conclude that the commonly used reference intervals should be revised for the Afghan population, as our findings indicated higher reference values for the hemoglobin and hematocrit indices.
CASE REPORT: Primary and secondary causes of hyperlipidaemia were investigated. Her blood was sent for fasting lipid profile, thyroid function test (TFT), fasting plasma glucose (FPG), liver function test (LFT), renal profile (RP) and HIV screening. Lipaemic interference was removed by high-speed centrifugation. She is a product of non-consanguineous marriage. She is staying together with her stepfather who is HIV positive. Her mother's infective status was negative with no dyslipidaemic features and a normal lipid profile. Lipid profile of her biological father was not known. No other lipid stigmata such as eruptive xanthoma or lipaemia retinalis was seen in the patient. Haemoglobin analysis showed Hb E-Beta thalassaemia major. Her triglycerides was 9.05 mmol/L with normal total cholesterol, 2.85 mmol/L and high-density lipoprotein cholesterol (HDL-c), 0.26 mmol/L. Calculated low-density lipoprotein cholesterol (LDL-c) was invalid as triglycerides was >4.5 mmol/L. TFT, RP, FPG, LFT were normal and HIV status was negative. She was transfused with 10 ml/kg packed cell and her blood post transfusion appeared non lipaemic.
CONCLUSION: Primary hypertriglyceridaemia was excluded based on insignificant family history of dyslipidaemia. Secondary causes of hypertriglyceridaemia were ruled out based on unremarkable laboratory investigations. Thus, we conclude that this patient is having hypertriglyceridaemia thalassaemia syndrome (HTS) which is a rare disorder with unknown pathogenesis. Further research may be required to explore this unknown association.