Is There a Link Between Human Infertilities and Exposure to Pesticides?

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Life International Journal of Pharmacology ISSN 1811-7775 Life science alert ansinet Asian Network for Scientific Information

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International Jounal of Pharmacology 8 (8): 708-710. 2012 ISSN 1811-7775 DOI: 10.3923/ijp.2012.708.710 2012 Asian Network for Scientific Information Is There a Link Between Human Infertilities and Exposure to Pesticides? Habib Shojaci Saadi and Mohammad Abdollahi Centre de Recherche en Biologie de la Reproduction, INAF, Université Laval, Québec, Canada Faculty of Pharmacy and Pharmaceutical Sciences Research Center, Tehran University of Medical Sciences, Tehran, Iran Pesticides are chemicals commonly used in homes and current agronomy to eradicate or keep away pests or halt their reproduction. Diverse series of chemicals such as insecticides, fungicides, rodenticides, pediculicides and biocides are subcategories within this category of chemicals. Contact to pesticides can be through inhalation of contaminated air, ingestion of food residues or/and contaminated water, dermal contact or across the placenta. Most of the pesticides are readily accessible to the human body as they are persistent and remain intact for long periods of time. According to the latest. Stockholm Convention on Persistent Organic Pollutants. 16 out of 22 the most hazardous and persistent chemicals are pesticides. Henceforth, these truths have made a mounting distress about the safety of pesticides and human health (http://chm.pops.int/Implementation/ NewPOPS/Overview/tabid/667/Default.aspx). IIealth risks that are associated with human pesticide exposure are cancer, adverse effects on immune systems. neurodevelopment dysfunction, metabolic diseases such as diabetes, endocrine system disruption and infertility (Gilden et al., 2010; Rahimi and Abdollahi, 2007; Mostafalou and Abdollahi, 2012a). Pesticides also may cause difficulty in breathing, headaches, neurological or psychological defects, irritation of skin and mucous membranes and skin disorders. Dose, timing and duration of exposure are critical to the ability of a pesticide to cause harmful effects. The adverse effects of pesticides on human reproduction has been documented more than 30 years ago (Whorton et al., 1977). Although, most of the studies that have been conducted in human and animals showed the potential reproductive health risks of pesticides exposure but there is still essential to screen adverse reproductive outcomes of pesticides exposure in human. Pesticides may influence their adverse effects on reproduction on selected stages of development, including prenatal stage, prepubertal stage or the adult resulting in damage to the reproductive organs and/or impaired fertility (Malik et al., 2011). They may directly make their action as (1) a reactive chemical and cause germ cell damage (eg, alkylating agents) and (2) taking structural similarity to endogenous molecules, e.g., hormone agonists/antagonists. Pesticide also may indirectly act and interrupt reproduction (1) by metabolism to a directacting compound or reactive intermediate, (2) via endocrine alterations such as increased/decreased steroid clearance and (3) by stimulating or inhibiting neuroendocrine responses at the level of the thyroid. hypothalamus or pituitary (Iyer and Makris, 2010). In case of male reproduction, pesticides may act through hormonal or genotoxic pathways (Shadnia et al., 2005). They may penetrate the blood-testis barrier to potentially affect spermatogenesis, either by affecting genetic integrity or hormone production (Perry, 2008) leading to poor semen quality and reduced male fertility (Roeleveld and Bretveld, 2008). In female, they may disrupt the hormonal function of the female reproductive system and in particular the ovarian cycle may result in modulation of hormone concentrations, ovarian cycle irregularities and impaired fertility. Epidemiological studies on females showed that exposure to pesticides has been associated with menstrual cycle disturbances, reduced fertility, prolonged time-to-pregnancy, spontaneous abortion, stillbirths and developmental defects, which may or may not be due to disruption of the female hormonal function (Bretveld et al., 2006). Exposure to pesticides may occur by virtue of occupational or environments. It has been shown that occupational exposures to pesticides adversely influence male and female fertility (Bian et al, 2004; Breiveld et al., 2006; Snijder et al., 2012). Agricultural and horticultural occupations are of importance as it has been shown that. occupational exposure to pesticides in these cases appears to consistently reduce fertility and/or fecundability (Mendola et al., 2008). Some of the epidemiological studies showed that employment in agriculture for men increases the risk of specific morphological abnormalities in sperm, including the decreased sperm count per ejaculate and declined percentage of viable sperm (Hanke and Jurewicz, 2004) Corresponding Author: Mohammad Abdollahi, Faculty of Pharmacy and Pharmaceutical, Sciences Research Center, Tehran University of Medical Sciences, Tehran 1417614411, Iran 708

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Int. J. Pharmacol., 8 (8): 708-710, 2012 and spermatozoa DNA damage (Bian et al., 2004). In addition, two studies amongst cotton field workers in India reported increased male infertility, negative pregnancy outcome and higher rates of abortions in their wives (Rita et al., 1987, Rupa et al., 1991). In women agricultural pesticides exposure may affect menstrual cycles (Far el al, 2004) and may cause spontaneous abortions, congenital defects, pre-maturity births, delay in conception and infertility (Figa-Talamanca, 2006). Moreover, studies suggested that parental employment in agriculture exposed to pesticides could decrease fecundability ratio and increase the risk of congenital malformations in the off springs (Hanke and Jurewicz 2004). This is more severe in developing countries, in particular, that high exposure to pesticides due to overused and misused of pesticides by farmers have been reported (Wilson and Tisdell, 2001; Tariq et al., 2007; Panuwet et al., 2012). Therefore, it would be rational to conclude that in less developed countries, farmers due to occupational exposure (Antle et al., 1998; Tariq et al.. 2007) and the people living in rural areas due to environmental contamination exposure (Panuwel et al.. 2012) are at higher risk for acute and chronic health effects associated with pesticides (Figa-Talamanca et al., 2001; Atreya, 2008). In this regard, adverse effects on human reproduction could be one of the consequences which several studies showed male and female reproductive issues in farmers from developing/less developed countrics (Rita et al., 1987; Rupa et al., 1991; Antle et al.. 1998 Tariq et al., 2007; Atreya, 2008, Panuwel et al. 2012). Showing the importance of the concern, recently the contribution of exposure to pesticides and incidence of human diabetes has been bolded, an issue that is going to be one of the global health dilemmas (Mostafalou and Abdollahi, 2012b). In fact, pesticides by their major toxicity as inducers of free radical damage inside the whole body can disrupt. many organs or defect. Their function (Abdollahi et al., 2004). All together, occupational exposures to pesticides particularly agricultural and horticultural occupations appear to have serious adverse effects on male and female reproduction. Farmers, especially those from less developed countries are in high exposure to pesticides and subsequently more chance for potential pesticides human reproductive issues. Therefore, a great need to increase awareness and education to safe use for the workers and farmers who are occupationally exposed to pesticides are essential. Furthermore, more epidemiological studies should be conducted to elucidate the occupational exposure adverse effects of pesticides on human reproduction in particular farmers from less developed countries. At the moment nobody can claim that there is no link between pesticides exposure and reproductive toxicity but yet it is impossible to state how many of human infertilities are due to pesticide exposure. ACKNOWLEDGMENT Authors acknowledge support of Iran National Science Foundation. REFERENCES Abdollahi, M., A. Ranjbar, S. Shadnia. S. Nikfar and A. Rezaic, 2004. Pesticides and oxidative stress: A review. Med. Sci. Monit., 10: RA1-11-RA117. Antle, J.M., D.C. Cole and C.C. Crissman, 1998. Further evidence on pesticides, productivity and farmer health: Potato production in Ecuador. Agric. Econ.. 18: 199-207. Atreya, K., 2008. Ilealth costs from short-term exposure to pesticides in Nepal. Social Sci. Med., 67: 511-519. Bian, Q., L.C. XIL, S.L.. Wang, Y.K. Xia and L..F. Tan et al., 2004. Study on the relation between occupational fenvalerate exposure and spermatozoa DNA damage of pesticide factory workers. Occup. Environ. Med., 61: 999-1005. Bretveld, RW, CM.G. Thomas, P.T.J. Scheepers. G.A. Zielhuis and N. Roeleveld, 2006. Pesticide exposure: The hormonal function of the female reproductive system disrupted? Reprod. Biol. Endocrinol., Vol. 4. Farr, S.L., G.S. Cooper, J. Cai, D.A. Savitz and D.P. Sandler, 2004. Pesticide use and menstrual cycle characteristics among premenopausal women in the agricultural health study. Am. J. Epidemiol. 160: 1191-1201. Figa-Talamanca, I., 2006. Occupational risk factors and reproductive health of women. Occup. Med.. 56: 521-531. Figa-Talamanca, L., M.E. Traina and F. Urbani, 2001. Occupational exposures to metals, solvents and pesticides: Recent evidence on male reproductive effects and biological markers. Occup. Med., 51: 174-188. Gilden, R.C., K. Huffling and B. Sattler, 2010. Pesticides and health risks. J. Obstet. Gynecol. Neonatal Nurs.. 39: 103-110. Hanke, W. and J. Jurewicz, 2004. The risk of adverse reproductive and developmental disorders due to occupational pesticide exposure: An overview of current epidemiological evidence. Int. J. Occup. Med. Environ. Health, 17: 223-243. 709

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