Assessment of spermatozoal oxidative stress response to simvastatin in male infertility

Authors

  • Ahmed S Al-Hilli College of Medicine, University of Kufa, Iraq
  • Emad S Ali College of Pharmacy, University of Kufa, Iraq
  • Ala'a S. Ali Al-Sadder Teaching Hospital, Najaf, Iraq
  • Noorhan S. Mhao Department of Gyn. &Obst. College of Medicine, Kufa University, Najaf, Iraq
  • Najah A. Hadi Department of Pharmacology, College of Medicine, University of Kufa, Iraq
  • Dina A. Jamil School of Medicine, University of Tasmania, Hobart, Australia.
  • Hayder A. Al-Aubaidy School of Medicine, University of Tasmania, Hobart, Tasmania Australia

Keywords:

Male infertility, lipid peroxidation, simvastatin therapy

Abstract

Objectives: In ability to conceive may be caused by either female or male problems. The aim of this study is to evaluate the effects of simvastatin medication on improving the degree of lipid peroxidation in patients with primary infertility and improving sperm formation and maturation.

Methods: This is a randomized controlled study. It included 90 participants, fifty-five male patients whom diagnosed with primary infertility matched with thirty-five normal control subjects. The patients were randomly selected from Al-Najaf Teaching Hospital, Iraq. The patients were divided into eight groups based on the cause of infertility. Patients were supplied by 20mg simvastatin tablets once daily for a period of 12 weeks. Semen samples were assessed for lipid peroxidation before and after the course of the treatment.

Results: There was a negative correlation between spermatozoal malondialdehyde level and percentage of active sperm motility. This was associated with a positive correlation between spermatozoal malondialdehyde level and abnormal sperm morphology.

Conclusion: The current study suggests that simvastatin medication may be usefully administer to reduce the levels of lipid peroxidation in infertile males to improve sperm formation and maturation.

References

1. Larsen U. Research on infertility: which definition should we use? Fertility and sterility 2005;83:846-52.
2. Brugo-Olmedo S, Chillik C, Kopelman S. Definition and causes of infertility. Reproductive biomedicine online 2001;2:41-53.
3. Ko EY, Sabanegh ES, Jr., Agarwal A. Male infertility testing: reactive oxygen species and antioxidant capacity. Fertility and sterility 2014;102:1518-27.
4. Pahune PP, Choudhari AR, Muley PA. The total antioxidant power of semen and its correlation with the fertility potential of human male subjects. Journal of clinical and diagnostic research : JCDR 2013;7:991-5.
5. Laboratory manual of the WHO for the examination of human semen and sperm-cervical mucus interaction. Annali dell'Istituto superiore di sanita 2001;37:I-xii, 1-123.
6. Schisterman EF, Mumford SL, Chen Z, et al. Lipid concentrations and semen quality: the LIFE study. Andrology 2014;2:408-15.
7. Wang X, Sharma RK, Gupta A, et al. Alterations in mitochondria membrane potential and oxidative stress in infertile men: a prospective observational study. Fertility and sterility 2003;80 Suppl 2:844-50.
8. Guerriero G, Trocchia S, Abdel-Gawad FK, Ciarcia G. Roles of reactive oxygen species in the spermatogenesis regulation. Frontiers in endocrinology 2014;5:56.
9. Al-Aubaidy HA, Jelinek HF. 8-Hydroxy-2-deoxy-guanosine identifies oxidative DNA damage in a rural prediabetes cohort. Redox Rep 2010;15:155-60.
10.Sahreen S, Khan MR, Khan RA, Shah NA. Effect of Carissa opaca leaves extract on lipid peroxidation, antioxidant activity and reproductive hormones in male rats. Lipids in health and disease 2013;12:90.
11.Takayama M, Matsubara M, Arakawa E, et al. Comparison of the antiatherosclerotic effects of dihydropyridine calcium channel blocker and HMG-CoA reductase inhibitor on hypercholesterolemic rabbits. Vascular pharmacology 2007;46:302-8.
12.Zaneveld L, Polakpski K. Collection and physical examination of the ejaculate, in techniques of human andrology: Hafez, ESE Ed Elsevier/North-Holland Biomedical Press; 1977.
13.Shekarriz M, Sharma RK, Thomas AJ, Jr., Agarwal A. Positive myeloperoxidase staining (Endtz test) as an indicator of excessive reactive oxygen species formation in semen. Journal of assisted reproduction and genetics 1995;12:70-4.
14.Dandekar SP, Parkar GM. Correlation between creatine kinase activity, lipid-peroxidation and water test in male infertility. Journal of postgraduate medicine 1999;45:42-8.
15.Comhaire FH, Mahmoud A. The role of food supplements in the treatment of the infertile man. Reproductive biomedicine online 2003;7:385-91.
16.Gudeloglu A, Brahmbhatt JV, Parekattil SJ. Medical management of male infertility in the absence of a specific etiology. Seminars in reproductive medicine 2014;32:313-8.
17.Menuba IE, Ugwu EO, Obi SN, Lawani LO, Onwuka CI. Clinical management and therapeutic outcome of infertile couples in southeast Nigeria. Therapeutics and clinical risk management 2014;10:763-8.
18.Peng J, Li Z, Tu XA, et al. [Microsurgical management of male infertility in china: 15-year development and prospects]. Zhonghua nan ke xue = National journal of andrology 2014;20:586-94.
19.Pizzol D, Bertoldo A, Foresta C. Male infertility: biomolecular aspects. Biomolecular concepts 2014;5:449-56.
20.Aziz N, Saleh RA, Sharma RK, et al. Novel association between sperm reactive oxygen species production, sperm morphological defects, and the sperm deformity index. Fertility and sterility 2004;81:349-54.

Downloads

Published

2018-06-26

How to Cite

1.
Al-Hilli AS, Ali ES, Ali AS, Mhao NS, Hadi NA, Jamil DA, et al. Assessment of spermatozoal oxidative stress response to simvastatin in male infertility. Iraq Med J [Internet]. 2018 Jun. 26 [cited 2024 Dec. 22];2(2). Available from: https://iraqmedj.org/index.php/imj/article/view/390

Issue

Section

Articles

Most read articles by the same author(s)

Similar Articles

1 2 3 4 5 6 > >> 

You may also start an advanced similarity search for this article.