Korean J Urol.
2010 May;51(5):348-353.
Reactive Oxygen Species in the Internal Spermatic and Brachial Veins of Patients with Varicocele-Induced Infertility
- Affiliations
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- 1Department of Urology, Pusan National University School of Medicine, Busan, Korea. joon501@naver.com
Abstract
- PURPOSE
The aim of this study was to evaluate the relationship between the levels of reactive oxygen species (ROS) and the clinical characteristics of varicoceles among patients with varicocele-induced infertility. MATERIALS AND METHODS: Ninety-eight patients with infertile varicocele and 22 control subjects without varicocele were enrolled. Blood samples were drawn from the brachial vein (BV) and the dilated internal spermatic vein (ISV) on the side of the varicocele during surgery. ROS levels were determined by spectrophotometry, and comparisons between the varicocele and control groups were performed. In addition, the ROS levels were analyzed according to the characteristics of the varicocele, and ROS levels in the ISV and the BV were compared. RESULTS: The ROS levels measured in the ISV of men with varicocele were higher than in the control group regardless of the varicocele grade except for subclinical grade; however, in the BV, a difference was noted only for grade III. When the difference in testis volume between sides was greater than 3 ml, and the varicocele had been present for more than 3 years, ROS levels were higher in the ISV than in the BV. Sperm viability was significantly associated with ROS levels. Serum hormone levels were not correlated with ROS levels. CONCLUSIONS: Serum ROS levels were higher in infertile men with a varicocele than in controls. They were correlated with varicocele grade, varicocele duration, the degree of testicular hypotrophy, and sperm viability. In addition, ROS levels and their associations with clinical characteristics were higher in the ISV than in the BV.
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Reference
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1. Saypol DC. Varicocele. J Androl. 1981. 2:61–71.2. Choi WS, Kim TB, Paick JS, Kim SW. Factors related to improvement or normalization of semen parameters after microsurgical subinguinal varicocelectomy. Korean J Urol. 2009. 50:39–45.3. Cho WJ, Yeo MH, You HJ, Chang IY, Moon HY, Kim CS. The expression of p53 and phosphorylation of H2AX in germ cells of varicocele rats. Korean J Urol. 2006. 47:1354–1360.4. Agarwal A, Saleh RA. Role of oxidants in male infertility: rationale, significance, and treatment. Urol Clin North Am. 2002. 29:817–827.5. Cam K, Simsek F, Yuksel M, Turkeri L, Haklar G, Yalcin S, et al. The role of reactive oxygen species and apoptosis in the pathogenesis of varicocele in a rat model and efficiency of vitamin E treatment. Int J Androl. 2004. 27:228–233.6. Celik-Ozenci C, Sahin Z, Ustunel I, Akkoyunlu G, Erdogru T, Korgun ET, et al. The Fas system may have a role in male reproduction. Fertil Steril. 2006. 85:Suppl 1. 1168–1178.7. Gürdal M, Kireççi S, Huri E, Karaman I, Türkeri L. Correlation between duration of varicocele and apoptosis in testicular tissue in an experimental model. Urology. 2008. 72:933–936.8. Griveau JF, Le Lannou D. Reactive oxygen species and human spermatozoa: physiology and pathology. Int J Androl. 1997. 20:61–69.9. Koksal IT, Usta M, Orhan I, Abbasoglu S, Kadioglu A. Potential role of reactive oxygen species on testicular pathology associated with infertility. Asian J Androl. 2003. 5:95–99.10. Hendin BN, Kolettis PN, Sharma RK, Thomas AJ Jr, Agarwal A. Varicocele is associated with elevated spermatozoal reactive oxygen species production and diminished seminal plasma antioxidant capacity. J Urol. 1999. 161:1831–1834.11. Mostafa T, Anis TH, El-Nashar A, Imam H, Othman IA. Varicocelectomy reduces reactive oxygen species levels and increases antioxidant activity of seminal plasma from infertile men with varicocele. Int J Androl. 2001. 24:261–265.12. Klein EA, Platz EA, Thompson IM. Wein AJ, Kavoussi LR, Novick AC, Partin AW, Peters CA, editors. Abnormalities of the testes and scrotum and their surgical management. Campbell-Walsh urology. 2007. 9th ed. Philadelphia: Saunders;3761–3798.13. Sigman M, Jarow JP. Ipsilateral testicular hypotrophy is associated with decreased sperm counts in infertile men with varicoceles. J Urol. 1997. 158:605–607.14. Naughton CK, Nangia AK, Agarwal A. Pathophysiology of varicoceles in male infertility. Hum Reprod Update. 2001. 7:473–481.15. Weese DL, Peaster ML, Himsl KK, Leach GE, Lad PM, Zimmern PE. Stimulated reactive oxygen species generation in the spermatozoa of infertile men. J Urol. 1993. 149:64–67.16. Köksal IT, Tefekli A, Usta M, Erol H, Abbasoglu S, Kadioglu A. The role of reactive oxygen species in testicular dysfunction associated with varicocele. BJU Int. 2000. 86:549–552.17. Aitken RJ, Irvine DS, Wu FC. Prospective analysis of sperm-oocyte fusion and reactive oxygen species generation as criteria for the diagnosis of infertility. Am J Obstet Gynecol. 1991. 164:542–551.18. Desai N, Sabanegh E Jr, Kim T, Agarwal A. Free radical theory of aging: implications in male infertility. Urology. 2010. 75:14–19.19. Santos JH, Meyer JN, Van Houten B. Mitochondrial localization of telomerase as a determinant for hydrogen peroxide-induced mitochondiral DNA damage and apoptosis. Hum Mol Genet. 2006. 15:1757–1768.20. Zirkin BR, Chen H. Regulation of Leydig cell steroidogenic function during aging. Biol Reprod. 2000. 63:977–981.21. El-Taieb MA, Herwig R, Nada EA, Greilberger J, Marberger M. Oxidative stress and epididymal sperm transport, motility and morphological defects. Eur J Obstet Gynecol Reprod Biol. 2009. 144:Suppl 1. S199–S203.22. Shiraishi K, Naito K. Nitric oxide produced in the testis is involved in dilatation of the internal spermatic vein that compromises spermatogenesis in infertile men with varicocele. BJU Int. 2007. 99:1086–1090.23. Pasqualotto FF, Sundaram A, Sharma RK, Borges E Jr, Pasqualotto EB, Agarwal A. Semen quality and oxidative stress scores in fertile and infertile patients with varicocele. Fertil Steril. 2008. 89:602–607.24. Villanueva-Diaz CA, Vega-Hernandez EA, Diaz-Perez MA, Echavarria-Sanchez M, Karchmer-Krivitsky S. Sperm dysfunction in subfertile patients with varicocele and marginal semen analysis. Andrologia. 1999. 31:263–267.25. Sakamoto H, Ogawa Y, Yoshida H. Relationship between testicular volume and varicocele in patients with infertility. Urology. 2008. 71:104–109.26. Pasqualotto FF, Sharma RK, Pasqualotto EB, Agarwal A. Poor semen quality and ROS-TAC scores in patients with idiopathic infertility. Urol Int. 2008. 81:263–270.27. Lee SY, Gong EY, Hong CY, Kim KH, Han JS, Ryu JC, et al. ROS inhibit the expression of testicular steroidogenic enzyme genes via the suppression of Nur77 transactivation. Free Radic Biol Med. 2009. 47:1591–1600.
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