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The Influence of Vitamin E and Omega-3 Fatty Acids on Reproductive Health Indices Among Male Workers Exposed to Electromagnetic Fields.
Mohammadi, H, Golbabaei, F, Dehghan, SF, Imani, H, Ramezani Tehrani, F, Khodakarim Ardakani, S
American journal of men's health. 2022;16(1):15579883221074821
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Studies have suggested that low-frequency electromagnetic fields (EMF) may have a detrimental effect on male fertility. Lower hormone levels and higher free radicals in the body damaging sperm cells have been indicated to play a role in this relationship. Supporting the development of sperm cells in individuals who have been subjected to EMF may be an effective therapy. Sperm cells contain large amounts of polyunsaturated fatty acids such as omega-3 and supplementation may be of benefit. Although high amounts of omega-3 can have side effects, which can be limited with the dual supplementation of vitamin E. This randomised control trial aimed to determine the effect of omega-3 and vitamin E supplementation on reproductive indices of individuals who work with EMF. The results showed that EMF exposure affected sperm count, morphology, and motility and that the supplementation of omega-3 and vitamin E in conjunction could limit effects on morphology and motility. It was concluded that simultaneous vitamin E and omega-3 consumption could be of benefit for fertility in men exposed to EMF, however further studies are required to confirm this finding due to study limitations and size. This study could be used by healthcare professionals to understand that EMF is of detriment to fertility in men but there may be ways to limit the effects involving the use of omega-3 and vitamin E supplementation.
Expert Review
Conflicts of interest:
None
Take Home Message:
- Vitamin E and Omega 3 fatty acids have been reported to influence sperm morphology and sperm motility.
- This study reported that the intake of 100 mg of vitamin E accompanied by Omega 3 fatty acids (180 mg eicosatetraenoic acid [EPA] and 120 mg docosahexaenoic acid [DHA]) had a significant improvement in sperm morphology and motility after 3 months.
- In addition, this study also reported that electric magnetic fields may have a negative effect on sperm morphology and motility.
Evidence Category:
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A: Meta-analyses, position-stands, randomized-controlled trials (RCTs)
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X
B: Systematic reviews including RCTs of limited number
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C: Non-randomized trials, observational studies, narrative reviews
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D: Case-reports, evidence-based clinical findings
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E: Opinion piece, other
Summary Review:
Introduction
A block-randomized, double-blind, placebo-controlled study was conducted to investigate the effects of using vitamin E and Omega 3 fatty acid supplementation on reproductive indices among workers in an automobile parts manufacturing facility. The effect of exposure to electromagnetic fields on certain sex hormones and sperm parameters was also assessed.
Methodology
92 married males between the ages of 20-50 were deployed into 4 groups. The first group was given vitamin E (100 mg) accompanied by a placebo capsule. The second group was given Omega 3 fatty acids (180 mg eicosatetraenoic acid [EPA] and 120 mg docosahexaenoic acid [DHA]) accompanied by a placebo capsule. The third group was given vitamin E along with Omega 3 fatty acids. Finally, the fourth group acted as a placebo group and was given 2 placebo capsules.
The semen parameters of the participants were analysed before and after three months of consuming the supplements. Sex hormones within the blood serum were also analysed after the 3-month supplement period. At the endpoint, 80/92 subjects completed the study.
Results
Primary clinical outcomes were:
- Certain demographic parameters had significant effects on sluggish and full sperm motility: age (B = −1.344, p = .034); employment duration (B = −1.863, p = .022); and smoking (B = −94.24, p = .003).
- The difference in the level of testosterone before and after the intervention was not statistically significant for any age group.
- The difference in follicle-stimulating hormone (FSH) and Luteinizing Hormone (LH) before and after the intervention were not statistically significant for any of the supplement groups.
- There was a statistically significant effect on sperm count and sperm with full motility before and after the intervention in the vitamin E + Omega 3 group, p =.016.
- The effect of supplement use on sperm morphology was significant in the vitamin E + Omega 3 group (B = -4.961; p = .001).
- The effect of supplement use on full and sluggish sperm motility was also significant in the vitamin E + Omega 3 group (B = 72.211, p = .021).
Secondary clinical outcomes were:
- Electric fields had the largest effect on the percentage of immotile sperm amongst the exposure variables (B = 9.541; p = .053).
Clinical practice applications:
- Prior studies have reported on the antioxidant effects of vitamin E and the effect of Omega 3 fatty acids on the testicles and the hypothalamic-pituitary-gonadal axis.
- This study concluded that participants increased their normal sperm morphology by 16% and their sperm motility by 12% over a 3-month period by supplementing with vitamin E and Omega 3 fatty acids.
- Based on these findings, a practitioner could therefore consider recommending 100 mg of vitamin E accompanied by Omega 3 fatty acids (180 mg eicosatetraenoic acid [EPA] and 120 mg docosahexaenoic acid [DHA]) for at least 3 months to help support the reproductive health of their male patients struggling with sperm morphology and/or sperm motility.
Considerations for future research:
- In this study vitamin E and Omega 3 did not show significant effects on certain sex hormones (testorterone, FSH and LH) therefore, there is a need to investigate if a higher dosage or longer consumption of the supplements could make a difference to these outcomes.
- There are mixed findings on the potential effects of electric magnetic fields on male reproductive indices and therefore there is a need for further clinical studies to be done using the same type of frequency, intensity, and exposure protocols to draw further conclusions.
Abstract
The present study aims to investigate the effects of using the supplementation of vitamin E and Omega 3 fatty acids on reproductive indices among workers in an automobile parts manufacturing plant. The effect of exposure to electromagnetic fields on certain sex hormones and sperm parameters will also be assessed. The participants were deployed into four groups as per the double-blind block randomization method. Semen parameters and sex hormones of the participants were analyzed before and after 3-month consumption of supplements. The level of workers' exposure to low-frequency magnetic and electrical fields was measured through the recommendation of National Institute for Occupational Safety and Health. Univariate analysis of variance indicated that exposure to electric fields had a statistically significant effect on sperm count, morphology, and motility. The simultaneous consumption of vitamin E + Omega 3 had a statistically significant effect on sperm morphology and motility.
2.
A Systematic Review of Organic Versus Conventional Food Consumption: Is There a Measurable Benefit on Human Health?
Vigar, V, Myers, S, Oliver, C, Arellano, J, Robinson, S, Leifert, C
Nutrients. 2019;12(1)
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The demand for organic products has risen rapidly over the last decades. The reasons why consumers may favour organic over conventional products are varied. They may be for personal health and wellbeing, environmental considerations, animal welfare or perceived higher nutritional profile - which is true for some, but not all components. While the long-term safety of pesticide consumption through conventional food production has been questioned, organic foods clearly show lower levels of toxic metabolites, like heavy metals and synthetic fertilizer and pesticide residues. This systematic review aimed to assess the current evidence of organic diet consumption and human health compared to conventionally produced foods. Included were 35 papers on clinical trials and observational studies. The clinical trials studied pesticide and phytochemical excretion, antioxidant capacity, body composition, lipids and inflammatory markers. The observational studies were focused on fertility, foetal and childhood development, pregnancy, lactation and levels of pesticides in children and adults, as well as nutritional biomarkers and cancer risk in adults. An increased intake of organic produce in long-term studies appeared to reduce the incidence of infertility, birth defects, allergies, middle ear infection, pre-eclampsia, metabolic syndrome, high BMI, and non-Hodgkin lymphoma. Organic intake was also linked to reduced urinary levels of organophosphorus pesticides and herbicides. Yet, the author highlighted that organic consumers are more likely to be health conscious, physically active, eat a more plant-based diet, have higher education levels and income, and therefore are not representative of the general population. They also argue that the possible benefits from an organic diet may be partially due to the quality and composition of the diet rather than a direct effect of organic food consumption. Whereby a growing number of findings demonstrate the health benefits of organic food consumption, according to the authors, the current evidence does not yield a solid and definitive answer.
Abstract
The current review aims to systematically assess the evidence related to human health outcomes when an organic diet is consumed in comparison to its conventional counterpart. Relevant databases were searched for articles published to January 2019. Clinical trials and observational research studies were included where they provided comparative results on direct or indirect health outcomes. Thirty-five papers met the criteria for inclusion in the review. Few clinical trials assessed direct improvements in health outcomes associated with organic food consumption; most assessed either differences in pesticide exposure or other indirect measures. Significant positive outcomes were seen in longitudinal studies where increased organic intake was associated with reduced incidence of infertility, birth defects, allergic sensitisation, otitis media, pre-eclampsia, metabolic syndrome, high BMI, and non-Hodgkin lymphoma. The current evidence base does not allow a definitive statement on the health benefits of organic dietary intake. However, a growing number of important findings are being reported from observational research linking demonstrable health benefits with organic food consumption. Future clinical research should focus on using long-term whole-diet substitution with certified organic interventions as this approach is more likely to determine whether or not true measurable health benefits exist.