Góngora RA, Sánchez GS, Cubillos GS, Cuneo PS

Idioma: Español
Referencias bibliográficas: 65
Paginas: 105-111
Archivo PDF: 99.28 Kb.

RESUMEN

La fragmentación del ADN del espermatozoide es actualmente una herramienta complementaria importante en reproducción asistida porque con ella se evalúa la calidad del semen de un paciente. Sin embargo, ningún parámetro seminal por sí mismo puede considerarse valor diagnóstico absoluto de infertilidad masculina. El índice de fragmentación del ADN permite inferir datos sobre la capacidad de fertilización del espermatozoide. Diversos estudios han demostrado que en hombres infértiles es mayor el índice de fragmentación de la cromatina de sus espermatozoides, y esto se ha correlacionado directamente con disminución de la calidad embrionaria, la tasa de implantación y el desarrollo a término de un embarazo sano.

REFERENCIAS (EN ESTE ARTÍCULO)

1. World Health Organization WHO Laboratory Manual for the Examination of Human Semen and Sperm-Cervical Mucus Interaction. 4th ed, Cambridge: Cambridge University Press, 1999.

2. Morales R. Fragmentacion del ADN espermático y su implicación en la fertilidad. Revista Iberoamericana de Fertilidad 2007;24(5).

3. Smith RK. Aumento del daño en el ADN y estrés oxidativo en espermatozoides de pacientes con oligozoospermia idiopática y antecedentes de criptoquidismo. Rev Médica Chile 2007;135:279-286.

4. Cortes-Gutierrez, Davila R, Lopez C, Fernandez J, Gonsalvez J. Evaluación del daño en el DNA espermático. Actas Urol Esp 2007;31(2):120-131.

5. Bungum M, Humaidan P, Spano M, Jepson K, et al. The predictive value of sperm chromatin structure assay (SCSA) parameters for the outcome of intrauterine insemination, IVF and ICSI. Hum Reprod 2004;19:1401-1408.

6. Braude P, Bolton V, Moore S. Human gene expression first occurs between the four-and eight-cell stages of preimplantation development. Nature 1988;332:459-461.

7. Check JH, Graziano V, Cohen R, Krotec J, Check ML. Effect of an abnormal sperm chromatin structural assay (SCSA) on pregnancy outcome following (IVF) with ICSI in previous IVF failures. Arch Androl 2005;51:121-124.

8. Agarwal A, Nallella KP, Allamaneni SSR, Said TM. Role of antioxidants in treatment of male infertility: An overview of the literature. Reprod Biomed Online 2004;8:616-627.

9. Agarwal A, Said TM. Role of sperm chromatin abnormalities and DNA damage in male infertility. Hum Reprod Update 2003;9:331-345.

10. Moskovtsev SI, Willis J, White J, Mullen JB. Sperm DNA damage: correlation to severity of semen abnormalities. Urology 2009;74(4):789-793.

11. Toro E, Fernandez S, Colomar A, Casanovas A, et al. Processing of semen can result in increased sperm DNA fragmentation. Fertil Steril 2009;92(6):2109-2112.

12. Enciso M, Muriel L, Fernandez JL, Goyanes V, et al. Infertile men with varicocele show a high relative proportion of sperm cells with intense nuclear damage level, evidenced by the sperm chromatin dispersion test. J Androl 2006;27(1):106-111.

13. Sakkas D, Alvarez JG. Sperm DNA fragmentation: mechanisms of origin, impact on reproductive outcome, and analysis. Fertil Steril 2010;93:1027-1036.

14. Fernández JL, Muriel L, Rivero MT, Goyanes V, et al. The sperm chromatin dispersion test: a simple method for the determination of sperm DNA fragmentation. J Androl 2003;24:59-66.

15. Smit M, Romijn JC, Wildhagen MF, Veldhoven JL, et al. Decreased sperm DNA fragmentation after surgical varicocelectomy is associated with increased pregnancy rate. J Urol 2010;183(1):270-274.

16. Smit M, Romijn JC, Wildhagen MF, Weber RF, Dohle GR. Sperm chromatin structure is associated with the quality of spermatogenesis in infertile patients. Fertil Steril 2009;94(5):1748-1752.

17. Varghese AC, Bragais FM, Mukhopadhyay D, Kundu S, et al. Human sperm DNA integrity in normal and abnormal semen samples and its correlation with sperm characteristics. Andrologia 2009;41(4):207-215.

18. Lopes S, Jurisicova A, Sun JG, Casper RF. Reactive oxygen species: potential cause for DNA fragmentation in human spermatozoa. Hum Reprod 1998;13:896-900.

19. Tomlinson MJ, Moffatt O, Manicardi GC, Bizzaro D, et al Interrelationships between seminal parameters and sperm nuclear DNA damage before and after density gradient centrifugation: implications for assisted conception. Hum Reprod 2001;16(10):2160-2165.

20. Rubes J, Selevan SG, Evenson DP, Zudova D, et al. Episodic air pollution is associated with increased DNA fragmentation in human sperm without other changes in semen quality. Hum Reprod 2005;20(10):2776-2783.

21. Weber RF, Dohle GR, Romijn JC. Clinical laboratory evaluation of male subfertility. Adv Clin Chem 2005;40:317-364.

22. Evenson DP, Jost LK. Sperm chromatin structure assay for fertility assessment. In: Robinson P, editor. Current Protocols in Cytometry. New York: John Wiley & Sons, 2000.

23. Evenson DP, Darzynkiewicz Z, Melamed MR. Comparison of human and mouse sperm chromatin structure by flow cytometry. Chromosoma 1980;78:225-238.

24. Evenson DP, Jost LK, Marshall D, Zinaman MJ, et al. Utility of the sperm chromatin structure assay as a diagnostic and prognostic tool in the human fertility clinic. Hum Reprod 1999;14:1039-1049.

25. Fernández JL, Vázquez-Gundın F, Delgado A, Goyanes VJ, et al. DNA breakage detection-FISH (DBDFISH) in human spermatozoa: technical variants evidence different structural features. Mutat Res 2000;453:77-82.

26. Gorczyca W, Traganos F, Jesionowska H, Darzynkiewicz Z. Presence of DNA strand breaks and increased sensitivity of DNA in situ to denaturation in abnormal human sperm cells: analogy to apoptosis of somatic cells. Exp Cell Res 1993;207:202-205.

27. Manicardi GC, Bianchi PG, Pantano S, Azzoni P, et al. Presence of endogenous nicks in DNA of ejaculated human spermatozoa and its relationship to chromomycin A3 accessibility. Biol Reprod 1995;52:864-867.

28. Fernández JL, Lourdes M, Goyanes VJ, Segrelles E, et al. Simple determination of human sperm DNA fragmentation with an improved sperm chromatin dispersion (SCD) test. Fertil Steril 2005;84:833-842.

29. Muriel L, Goyanes V, Segrelles E, Gosalvez J, et al. Increased aneuploidy rate in sperm with fragmented DNA as determined by the sperm chromatin dispersion (SCD) test and FISH analysis. J Androl 2007;28:38-49.

30. Egozcue S, Blanco J, Vendrell JM, García F, et al. Human male infertility: chromosome anomalies, meiotic disorders, abnormal spermatozoa and recurrent abortion. Hum Reprod Update 2000;6:93-105.

31. Ollero M, Gil-Guzmán E, Sharma RK, López MC, et al. Characterization of subsets of human spermatozoa at different stages of maturation: implications in the diagnosis and treatment of male infertility. Hum Reprod 2001;16:19129-1921.

32. Irvine S, Twigg JP, Gordon EL, Fulton N, et al. DNA integrity in human spermatozoa: relationships with semen quality. J Androl 2000;31:33-44.

33. Sakkas D, Manicardi GC, Bizzaro D. Sperm nuclear damage in the human. In: Robaire B, Hales BF, editors. Advances in male mediated developmental toxicity. New York: Kluwer Academic/Plenum Publishers, 2003;p:73-84.

34. Larson KL, DeJonge CJ, Barnes AM, Jost LK, Evenson DP. Sperm chromatin structure assay parameters as predictors of failed pregnancy following assisted reproductive techniques. Hum Reprod 2000;15:1717-1722.

35. Spano M, Bonde JP, Hjollund HI, Kolstad HA, et al. Sperm chromatin damage impairs human fertility. Fertil Steril 2000;73:43-50.

36. Gandini L, Lombardo F, Paoli D, Caruso F, et al. Full-term pregnancies achieved with ICSI despite high levels of sperm chromatin damage. Hum Reprod 2004;19:1409-1417.

37. Zini A, Bielecki R, Phang D, Zenzes MT. Correlations between two markers of sperm DNA integrity, DNA denaturation and DNA fragmentation, in fertile and infertile men. Fertil Steril 2001;75(4):674-677.

38. Tesarik J, Greco E, Mendoza C. Paternal effects acting during the first cell cycle of human preimplantation development after ICSI. Hum Reprod 2002;17:184-189.

39. Tesarik J, Greco E. The probability of abnormal preimplantation development can be predicted by a single static observation on pronuclear stage morphology. Hum Reprod 1999;14:1318-1323.

40. Larson-Cook KL, Brannian JD, Hansen KA, Kasperson KM, et al. Relationship between the outcomes of assisted reproductive techniques and sperm DNA fragmentation as measured by the sperm chromatin structure assay. Fertil Steril 2003;80:895-902.

41. Saleh RA, Agarwal A, Nada EA, El Tonsy MH, et al. Negative effects of increased sperm DNA damage in relation to seminal oxidative stress in men with idiopathic and male factor infertility. Fertil Steril 2003;79(Suppl. 3):1597-1605.

42. Virro MR, Larson-Cook KL, Evenson DP. Sperm chromatin structure assay (SCSA) parameters are related to fertilization, blastocyst development, and ongoing pregnancy in in vitro fertilization and intracytoplasmic sperm injection cycles. Fertil Steril 2004;81:1289-1295.

43. De La Rochebrochard E, Thonneau P. Paternal age and maternal age are risk factors for miscarriage; results of a multicentre European study. Hum Reprod 2002;17:1649-1656.

44. Kleinhaus K, Perrin M, Friedlander Y, Paltiel O, et al. Paternal age and spontaneous abortion. Obstet Gynecol 108:369-377.

45. Nybo Andersen A, Hansen KD, Andersen P, Davey Smith G. Advanced paternal age and risk of fetal death: a cohort study. Am J Epidemiol 2004;160:1214-1222.

46. Slama R, Bouyer J, Windham G, Fenster L, et al. Influence of paternal age on the risk of spontaneous abortion. Am J Epidemiol 2005;161:816-823.

47. Fisch H, Hyun G, Golden R, Hensle TW, et al. The influence of paternal age on Down syndrome. J Urology 2003;169:2275-2278.

48. Glaser R, Broman K, Schulman R, Eskenazi B, et al. The paternal-age effect in Apert syndrome is due, in part, to the increased frequency of mutations in sperm. Am J Human Genetics 2003;73:939-947.

49. Lambert SM, Masson P, Fisch H. The male biological clock. World J Urology 2006;224:611-617.

50. Malaspina D, Harlap S, Fennig S, Helman D, et al. Advancing paternal age and the risk of schizophrenia. Arch Gen Psychiatry 2001;58:361-367.

51. Reichenberg A, Gross R, Weiser M, Bresnahan M, et al. Advancing paternal age and autism. Arch Gen Psychiatry 2006;63:1026-1032.

52. Schmid TE, Eskenazi B, Baumgartner, Marchetti F, et al. The effects of male age on sperm DNA damage in healthy non-smokers. Hum Reprod 2007;22:180-187.

53. Sloter E, Nath J, Eskenazi B, Wyrobek AJ. Effects of male age on the frequencies of germinal and heritable chromosomal abnormalities in humans and rodents. Fertil Steril 2004;81:925-943.

54. Wyrobek AJ, Eskenazi B, Young S, Arnheim N, et al. Advancing age has differential effects on DNA damage, chromatin integrity, gene mutations, and aneuploidies in sperm. PNAS 2006;103:9601-9606.

55. Zhang Y, Kreger BE, Dorgan JF, Cupples LA, et al. Parental age at child’s birth and son’s risk of prostate cancer. The Framingham Study. Am J Epidemiol 1999;150:1208-1212.

56. Vagnini L, Baruffi R, Petersen C, Massaro F, et al. The effects of male age on sperm DNA damage in an infertile population. Rep Biomed Online 2007;15:514-519.

57. Comhaire FH, Christophe AB, Zalata AA, Dhooge WS, et al. The effects of combined conventional treatment, oral antioxidants and essential fatty acids on sperm biology in subfertile men. Prostaglandins Leukot Essent Fatty Acids 2000;63:159-165.

58. Geva E, Lessing JB, Lerner-Geva L, Amit A. Free radicals, antioxidants and human spermatozoa: clinical implications. Hum Reprod 1998;13:1422-1424.

59. Greco E, Iacobelli M, Rienzi L, Ubaldi F, et al. Reduction of the incidence of sperm DNA fragmentation by oral antioxidant treatment. J Androl 2005;26:349-353.

60. Keskes-Ammar L, Feki-Chakroun N, Rebai T, Sahnoun Z, et al. Sperm oxidative stress and the effect of an oral vitamin E and selenium supplement on semen quality in infertile men. Arch Androl 2003;49:83-94.

61. Kodama H, Yamaguchi R, Fukuda J, Kasai H, Tanaka T. Increased oxidative deoxyribonucleic acid damage in the spermatozoa of infertile male patients. Fertil Steril 1997;68:519-524.

62. Suleiman SA, Ali ME, Zaki ZM, el-Malik EM, Nasr MA. Lipid peroxidation and human sperm motility: protective role of vitamin E. J Androl 1996;17:530-537.

63. Bolle P, Evandri MG, Saso L. The controversial efficacy of vitamin E for human male infertility. Contraception 2002;65:313-315.

64. Martin-Du Pan RC, Sakkas D. Is antioxidant therapy a promising strategy to improve human reproduction? Are anti-oxidants useful in the treatment of male infertility? Hum Reprod 1998;13:2984-2985.

65. Tunc O, Tremellen K. Oxidative DNA damage impairs global sperm DNA methylation in infertile men. J Assist Reprod Genet 2009.