Volume 3, Issue 4 (Nov 2018)                   JNFS 2018, 3(4): 240-251 | Back to browse issues page


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Hasanizadeh S, Salehi-Abargouei A, Hosseinzadeh M. Western Dietary Pattern Reduced Male Fertility: A Systematic review and Meta-analysis of Observational Studies . JNFS 2018; 3 (4) :240-251
URL: http://jnfs.ssu.ac.ir/article-1-218-en.html
Department of Nutrition, School of Public Health, Shahid Sadoughi University of Medical Sciences, Yazd, Iran
Abstract:   (2801 Views)
Background: Previous studies have investigated the associations between dietary patterns and male infertility, but found contradictory results. So, this meta-analysis was conducted to examine the association between dietary patterns and male infertility. Methods: An electronic search was conducted to identify the studies over association between dietary patterns and male infertility. The western and healthy dietary patterns were selected in this regard. The random-effect model was used to compute the summary risk estimates. Results: We found eight articles, of which five (n = 7679 participants) were included in our meta-analysis. This meta-analysis determined that the western dietary patterns containing high levels of processed, meat, high-fat dairy, and low levels of vegetables, fruit, and whole grains could significantly reduce the sperm concentration (MD = -0.07, P = 0.01). However, no significant relationship was observed between this dietary pattern and the sperm motility and morphology (MD = 0.01, P = 0.71, MD = 0.2, P = 0.39, respectively). Moreover, regarding the healthy dietary pattern, which contains high level of fruit, vegetables, whole grain, low-fat dairy, as well as low level of red meat and processed food, no significant relationship was observed (sperm concentration: MD = 0.11, P = 0.11, morphology: MD = -0.02, P = 0.42 and motility: MD = 0.35, P = 0.09). Conclusions: Findings of our meta-analysis suggested that the western dietary patterns could decrease the sperm concentration and reduce male fertility.  Further prospective studies are required to confirm this result
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Type of article: review article | Subject: public specific
Received: 2018/01/18 | Published: 2018/11/1 | ePublished: 2018/11/1

References
1. Afeiche MC, et al. 2014a. Dairy intake and semen quality among men attending a fertility clinic. Fertility and sterility. 101 (5): 1280-1287.
2. Afeiche MC, et al. 2014b. Processed meat intake is unfavorably and fish intake favorably associated with semen quality indicators among men attending a fertility clinic. Journal of nutrition. 144 (7): 1091-1098.
3. Agarwal A & Sekhon LH 2010. The role of antioxidant therapy in the treatment of male infertility. Human fertility. 13 (4): 217-225.
4. Attaman JA, et al. 2012. Dietary fat and semen quality among men attending a fertility clinic. Human reproduction. 27 (5): 1466-1474.
5. Boivin J, Bunting L, Collins JA & Nygren KG 2007. International estimates of infertility prevalence and treatment-seeking: potential need and demand for infertility medical care. Human reproduction. 22 (6): 1506-1512.
6. Cutillas-Tolín A, et al. 2015. Mediterranean and western dietary patterns are related to markers of testicular function among healthy men. Human reproduction. 30 (12): 2945-2955.
7. Cutillas-Toĺn A, et al. 2015. Mediterranean and western dietary patterns are related to markers of testicular function among healthy men. Human reproduction. 30 (12): 2945-2955.
8. Egger M, Davey-Smith G & Altman D 2008. Systematic reviews in health care: meta-analysis in context. John Wiley & Sons.
9. Eskenazi B, et al. 2005. Antioxidant intake is associated with semen quality in healthy men. Human reproduction. 20 (4): 1006-1012.
10. Eslamian G, et al. 2016a. Adherence to the Western pattern is potentially an unfavorable indicator of asthenozoospermia risk: a case-control study. Journal of the American College of Nutrition. 35 (1): 50-58.
11. Eslamian G, et al. 2016b. Adherence to the Western Pattern Is Potentially an Unfavorable Indicator of Asthenozoospermia Risk: A Case-Control Study. Journal of the American College of Nutrition. 35 (1): 50-58.
12. Eslamian G, Amirjannati N, Rashidkhani B, Sadeghi MR & Hekmatdoost A 2012. Intake of food groups and idiopathic asthenozoospermia: a case-control study. Human reproduction (Oxford, England). 27 (11): 3328-3336.
13. Evers JL 2002. Female subfertility. The lancet. 360 (9327): 151-159.
14. Gaskins AJ, Colaci DS, Mendiola J, Swan SH & Chavarro JE 2012. Dietary patterns and semen quality in young men. Human reproduction. 27 (10): 2899-2907.
15. Higgins J & Thompson SG 2002. Quantifying heterogeneity in a meta‐analysis. Statistics in medicine. 21 (11): 1539-1558.
16. Homan G, Davies M & Norman R 2007. The impact of lifestyle factors on reproductive performance in the general population and those undergoing infertility treatment: a review. Human reproduction update. 13 (3): 209-223.
17. Hosseinzadeh M & Hasanizadeh S 2017. Dietary patterns in relation with male infertility: a systematic review and meta-analysis of observational studies. In prospero.
18. Hu FB, et al. 1999. Reproducibility and validity of dietary patterns assessed with a food-frequency questionnaire. The American journal of clinical nutrition. 69 (2): 243-249.
19. Jurewicz J, et al. 2016a. Dietary patterns and the frequency of disomy in human sperm. Urology. 93: 86-91.
20. Jurewicz J, et al. 2016b. Dietary patterns and their relationship with semen quality. American journal of men's health. 1557988315627139.
21. Jurewicz J, et al. 2016c. Dietary Patterns and Their Relationship With Semen Quality. American journal of men's health.
22. Karayiannis D, et al. 2016. Association between adherence to the Mediterranean diet and semen quality parameters in male partners of couples attempting fertility. Human reproduction. 32 (1): 215-222.
23. Liu C-Y, et al. 2015a. The association between dietary patterns and semen quality in a general Asian population of 7282 Males. PloS one. 10 (7): e0134224.
24. Liu CY, et al. 2015b. The association between dietary patterns and semen quality in a general Asian population of 7282 Males. PLoS ONE. 10 (7).
25. Lo CK-L, Mertz D & Loeb M 2014. Newcastle-Ottawa Scale: comparing reviewers’ to authors’ assessments. BMC medical research methodology. 14 (1): 45.
26. Meeker JD & Hauser R 2010. Exposure to polychlorinated biphenyls (PCBs) and male reproduction. Systems biology in reproductive medicine. 56 (2): 122-131.
27. Mendiola J, et al. 2009a. Food intake and its relationship with semen quality: a case-control study. Fertility and sterility. 91 (3): 812-818.
28. Mendiola J, et al. 2009b. Food intake and its relationship with semen quality: a case-control study. Fertil Steril. 91 (3): 812-818.
29. Merzenich H, Zeeb H & Blettner M 2010. Decreasing sperm quality: a global problem? BMC public health. 10 (1): 24.
30. Mínguez-Alarcón L, et al. 2012. Dietary intake of antioxidant nutrients is associated with semen quality in young university students. Human reproduction. 27 (9): 2807-2814.
31. Oostingh EC, Steegers-Theunissen RP, de Vries JH, Laven JS & Koster MP 2017a. Strong adherence to a healthy dietary pattern is associated with better semen quality, especially in men with poor semen quality. Fertility and sterility. 107 (4): 916-923. e912.
32. Oostingh EC, Steegers-Theunissen RPM, de Vries JHM, Laven JSE & Koster MPH 2017b. Strong adherence to a healthy dietary pattern is associated with better semen quality, especially in men with poor semen quality. Fertility and sterility. 107 (4): 916-923.e912.
33. Palmer NO, Bakos HW, Fullston T & Lane M 2012. Impact of obesity on male fertility, sperm function and molecular composition. Spermatogenesis. 2 (4): 253-263.
34. Park K, et al. 2009. Oxidative stress and insulin resistance. Diabetes care. 32 (7): 1302-1307.
35. Pastuszak AW & Lipshultz LI 2012. Re: Human Semen Quality in the New Millennium: A Prospective Cross-sectional Population-based Study of 4867 Men. European urology. 62 (6): 1197-1198.
36. Piomboni P, et al. 2008. Sperm quality improvement after natural anti‐oxidant treatment of asthenoteratospermic men with leukocytospermia. Asian journal of andrology. 10 (2): 201-206.
37. Rozati R, Reddy P, Reddanna P, and & Mujtaba R 2002. Role of environmental estrogens in the deterioration of male factor fertility. Fertility and sterility. 78 (6): 1187-1194.
38. Salas-Huetos A, Bulló M & Salas-Salvadó J 2017. Dietary patterns, foods and nutrients in male fertility parameters and fecundability: a systematic review of observational studies. Human reproduction update. 1-19.
39. Suleiman SA, Ali ME, Zaki Z, El‐Malik E & Nasr M 1996. Lipid peroxidation and human sperm motility: protective role of vitamin E. Journal of andrology. 17 (5): 530-537.
40. Vujkovic M, et al. 2009a. Associations between dietary patterns and semen quality in men undergoing IVF/ICSI treatment. Human reproduction. 24 (6): 1304-1312.
41. Vujkovic M, et al. 2009b. Associations between dietary patterns and semen quality in men undergoing IVF/ICSI treatment. Human reproduction (Oxford, England). 24 (6): 1304-1312.
42. Vujkovic M, et al. 2007. Maternal Western dietary patterns and the risk of developing a cleft lip with or without a cleft palate. Obstetrics & gynecology. 110 (2, Part 1): 378-384.
43. Wong WY, et al. 2002. Effects of folic acid and zinc sulfate on male factor subfertility: a double-blind, randomized, placebo-controlled trial. Fertility and sterility. 77 (3): 491-498.
44. Wong WY, et al. 2000a. Cigarette smoking and the risk of male factor subfertility: minor association between cotinine in seminal plasma and semen morphology. Fertility and sterility. 74 (5): 930-935.
45. Wong WY, Thomas CM, Merkus JM, Zielhuis GA & Steegers-Theunissen RP 2000b. Male factor subfertility: possible causes and the impact of nutritional factors. Fertility and sterility. 73 (3): 435-442.

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