Theriogenology
Ali Soleimanzadeh; Leila Mohammadnejad; Abbas Ahmadi
Volume 9, Issue 3 , September 2018, , Pages 265-271
Abstract
Busulfan is known to cause several adverse effects including reproductive toxicity in humans. Garlic (Allium sativum), a widely distributed medicinal plant, is highly regarded for its medicinal activities including antioxidant property.This study was conducted to assess whether garlic extract could serve ...
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Busulfan is known to cause several adverse effects including reproductive toxicity in humans. Garlic (Allium sativum), a widely distributed medicinal plant, is highly regarded for its medicinal activities including antioxidant property.This study was conducted to assess whether garlic extract could serve as protective agents against testicular toxicity during busulfan treatment in a mice model.Seventy-two adult male mice were randomly divided into nine groups. In groups 1,2 and 3, distilled water, busulfan, and dimethyl sulfoxide and in the treatment groups hydro-alcoholic extract of garlic was administered orally at different doses per day (groups 4, 5 and 6; 200, 400, 800 mg kg-1 respectively). Groups 7, 8 and 9 were treated with the extract (200, 400 and 800 mg kg-1, respectively) plus busulfan. Following euthanasia, blood samples and epididymal sperm were collected.The busulfan-treated group showed significant decreases in sperm qualityparameters, and serum levels of testosterone, LH and FSH was observed in the busulfan-treated mice. In addition, the TAC levels and antioxidant enzymes activities were reduced and malondialdehyde (MDA) levels were increased in the busulfan-treated mice. Notably, garlic extract co-administration caused a considerable recovery in sperm qualityparameters, TAC levels, antioxidant enzymes activities, hormonal changes and MDA level. Based on our results, garlic has antioxidant effects against busulfan-induced testicular damages in mice.
Pharmacology
Alireza Nourian; Ali Soleimanzadeh; Ali Shalizar Jalali; Gholamreza Najafi
Volume 8, Issue 4 , December 2017, , Pages 341-345
Abstract
Bisphenol-S (BPS) is a new bisphenol-A substitute widely used in many plastic products. Bisphenol-A as a main member of bisphenol family has been known as an endocrine system disrupter chemical compound. Like other members of bisphenol family, there is public health concern about the toxic effects of ...
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Bisphenol-S (BPS) is a new bisphenol-A substitute widely used in many plastic products. Bisphenol-A as a main member of bisphenol family has been known as an endocrine system disrupter chemical compound. Like other members of bisphenol family, there is public health concern about the toxic effects of BPS on reproductive system, thus, we examined BPS effects on in vitro fertilization (IVF) potential and oxidative stress status in a murine model. Adult female mice (n = 70) were randomly divided into control and BPS-treated groups. Bisphenol-S was administered at doses of 0, 1, 5, 10, 50 and 100 µg kg-1 body weight per day intraperitoneally for 21 consecutive days. Twenty-Four hr after the last treatment, five mice in each group were super-ovulated and the oocytes were harvested for IVF. All ovaries were collected and used for biochemical factors analyses. Bisphenol-S exposure at doses more than 10 µg kg-1 induced developmental arrest of pre-implantation embryos. Further, lipid peroxidation measurement in ovaries indicated that all doses of BPS cause oxidative stress in female mice. In conclusion, BPS administration even in low doses can result in female reproductive toxicities and oxidative stress in mice.