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Background&Objective: Bisphenol A (BPA) is a xenobiotic estrogenic compound that are a monomer of some plastics (poly carbonate and epoxy resin) that are widely used in dental sealant, dishes and tableware. This compound has suspected to have estrogenic effects on reproductive system and related to endocrine disrupting chemicals. In this present study we investigated possible low dose effects of BPA on testis weight and structure and prostate weight. Materials&Methods: Male wistar rats (12-13 week old) were administrated a daily intra peritoneal 10µg/kgbw/day, 50µg/kgbw/day, 100µg/kgbw/day dose of BPA for6 and 12 days and one day after last injection testis and prostate weighted and histological section of testes prepared( 5 micrometer ) and stained by H&E and weigert hematoxilin . All data were expressed as means±SE. two-way ANOVA and chi- quire was performed. Results: in compare with control group, testis and prostate weight of dose groups were decreased. Disruptions of epithelial layer cells of semniferous tubules were detected. Conclusion: The present study showed that BPA at low doses affects histological structure and weight of testis and prostate, in the adult wistar rat.

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Background and Objective: Para-nonylphen as an environmental pollutant has weak estrogenic activity and causes oxidative stress in different organs including testis. This study was done to determine the protective effect of vitamin E on the para-nonylphenol induced-testicular toxicity in adult rats. Methods: In this experimental study, 24 Wistar rats were randomly allocated into four groups including control, vitamin E (100 mg/kg/day, orally), para-nonylphenol (250mg/kg/day, orally) and finally para-nonylphenol (250mg/kg/day, orally) plus vitamin E (100mg/kg/day, orally). After 56 days of treatment, removal of the right testis, tissue processing and staining with Heidenhain's Azan, the morphometric parameters of testicular tissue was evaluated using stereological method. Results: The mean volume of seminiferous tubules, height of the germinal epithelium, seminiferous tubules diameter, thickness of the basement membrane, number of spermatocyte, spermatid and sertoli cells significantly reduced in para nonylphenol group compared to the controls (P<0.05). These parameters were significantly increased in the para-nonylphenol plus vitamin E group compared to para nonylphenol group (P<0.05). In the histopathological examination, atrophy of seminiferous tubules, germinal epithelium vacuolation and epithelial disarrangement were observed in para nonylphenol group. Histopathological alterations reduced in para-nonylphenol plus vitamin E group compared to para nonylphenol group. Conclusion: Co-administration of vitamin E with para nonylphenol can prevent the adverse effects of para nonylphenol on the testicular tissue in adult rats.

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Background and Objective: Bisphenol A (BPA) is an endocrine disruptor chemical and as an environmental pollutant is able to generate free radicals causing tissue damage. This study was done to investigate the effect of Nigella sativa oil against BPA induced toxicity on the tissue of male NMRI mice kidney by stereological method.

Methods: In this experimental study 24 adult male NMRI mice (32±3 g) were randomly allocated into control, BPA (200 mg/kg/day), BPA (200 mg/kg/day) plus Nigella sativa oil (5 ml/kg/day) and Nigella sativa oil (5 ml/kg/day) groups and treated for 5 weeks, orally. At the end, animals were sacrificed, their left kidneys were removed, fixed, sectioned, processed and stained with Heidenhain' azan staining method. Then, the kidney tissue sections were evaluated using stereological method and serum malondialdehyde (MDA) level was also measured.

Results: The total weight and volume of kidney, volume of cortex, volume of proximal and distal tubules and volume of their lumen, volume of interstitial tissue, volume of glomeruli, tuft, as well as serum MDA level significantly increased in BPA treated group compared to the controls (P<0.05). These parameters were significantly reduced in BPA plus Nigella sativa oil group compared to BPA ones (P<0.05).

Conclusion: This study revealed that Nigella sativa oil can reduce the oxidative stress toxicity induced by BPA in the mice renal tissue.

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Background and Objective: Organic aromatic compounds as common environmental pollutants can be existing in the effluent of different industries in concentrations ranging from trace quantities to hundreds of milligrams per liter. Phenol compounds extremely have been used in pharmaceutical, wood industry and paper and dyes industries which introduced to environment via effluents. This study was done to evaluate the efficacy of persulfate activated by Fe²⁺ in the present of UV for removal of phenol from aqueous solutions.
Methods: This photocatalytic degradation experiment was performed in batch mode using a 2.5 L cylindrical reactor equipped with low-pressure Hg vapor lamp of 55 W for wavelength production of 253.7 nm. The effects of operating parameters such as pH of the solution (pH: 3-10), different initial persulfate concentration (10-75 mmol/l), initial Fe²⁺ concentration (5-30 mmol/l) and initial phenol concentration (10-100 mg/l). Concentration changes of phenol were determined using UV–VIS spectroscopy at the wavelength of 500 nm.
Results: Degradation of phenol was significantly decreased with increasing of pH from 3 to 10, whereas the highest phenol removal rate was 82% at pH=3 in 45 min contact time. Also, the phenol removal rate is depending on initial persulfate and Fe²⁺ concentration. The degradation of phenol by this photocatalytic followed first order rate decay kinetics (R²>98%(. Under optimum operational conditions, the removal of TOC was obtained to be 61% in 45 min contact time.
Conclusion: This study indicated that activation of persulfate by Fe²⁺ in the present of UV process could serve as a novel treatment technique for removal of phenol in aqueous solution.
 

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Background and Objective: Bisphenol A (BPA) is the monometer of epoxy resins and polycarbonate plastics that plays an important role in the pathogenesis of cardiovascular diseases. This study was done to evaluate the effect of aerobic exercises on oxidative stress indices in heart tissue of male Wistar rats after poisoning with Bisphenol A.
Methods: In this experimental study, 20 adult male Wistar rats were allocated into four groups including control, aerobic exercise, BPA and BPA + aerobic exercise. Animals in control and aerobic exercise groups were receieved olive oil and the BPA (100 μg/kg) intraperitoneally, respectively. Animals in BPA + aerobic training group were treated with BPA (100 μg/kg) intraperitoneally for 30 days. Exercise program consisted of 25-64 minutes of running with 57-75% oxygen consumption, 5 sessions per week for two months. Indicators of oxidative stress in heart tissue including Gpx, SOD, TAC, MDA, CAT and AOPP were evaluated.
Results: BPA intoxication induced a significant increase in the activity of SOD , GPX enzymes, AOPP and MDA levels and  reduction  in CAT enzyme activity and TAC level in compared to control group (P<0.05). While aerobic exercise could diminish the oxidative stress due to BPA intoxication. Aerobic exercise reduced the activity of the GPX, SOD and increased catalase activity in rats with BPA intoxication (P<0.05). Also, level of MDA and AOPP significantly reduced in in aerobic exercise group in comparison with with BPA intoxication (P<0.05).
Conclusion: Aerobic exercise activity has moderating effects on BPA intoxication in cardiac oxidative stress. Aerobic exercise can increase the amount of antioxidant enzymes that play an important role in modulating oxidative stress induced by BPA.