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Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü

Yıl 2018, Cilt: 4 Sayı: 1, 27 - 36, 18.04.2018

Öz

Endometrium insan vücudundaki en dinamik ve en büyüleyici dokulardan biridir. Tek amacı, menstrual döngüde nispeten kısa bir zaman aralığında ‘’implantasyon penceresi’’ bir embriyonun implantasyonunu sağlamaktır. Blastosist implantasyonu ve gebeliğin başarılı bir şekilde gerçekleşmesi, embriyo ve maternal çevre arasında hassas etkileşimler gerektirir. Tekrarlayan implantasyon başarısızlığı (RIF), in vitro fertilizasyon (IVF) tedavi sikluslarını takiben iyi kalitedeki emrbiyoların implantasyonları başarısız olduklarında belirlenir. İmplantasyon başarısızlığı, maternal faktörler veya embriyonik nedenlerle ilişkilidir. Bu karmaşık süreçte endometrial integrinler, hücre dışı matriks molekülleri ve adezyon molekülleri gibi birçok moleküler faktör rol oynamaktadır. Hücre yüzeyinde bulunan hücresel adezyon molekülleri, hücrelerin birbirlerine ve ekstraselüler matrikse bağlanmasını sağlayan protein molekülleridir. Üreme fizyolojisinde çeşitli aşamalarda hücre adezyon moleküllerinin rolü olduğu saptanmıştır. Son yıllarda, implantasyonun endometrial integrin ve selektinleri içeren tüm adezyon molekülleri yardımıyla başladığı kabul edilmektedir. avβ3 integrini, L-selektin ve E-kadherinin tek başına veya birlikte endometrial ekspresyonundaki azalma, tekrarlayan implantasyon başarısızlığına katkıda bulunabilir ve bu moleküller infertilitenin potansiyel moleküler belirteçleri olarak değerlendirilebilir. İmplantasyonda oldukça kapsamlı rolleri olan hücre adezyon moleküllerinin biyolojik ve patolojik durumlarda daha detaylı araştırılması gerekmektedir. Bu derlemede, uterus epitelinin plazma membranında oluşan morfolojik değişiklikleri ve implantasyon sırasında erken embriyo ile endometrium arasındaki iletişimi kontrol eden moleküler mekanizmalar konusundaki güncel bilgilerimizi gözden geçirmeyi amaçlıyoruz.

Kaynakça

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  • 2. Fukui A, Funamizu A, Yokota M, Yamada K, Nakamua R, Fukuhara R, et al. Uterine and circulating natural killer cells and their roles in women with recurrent pregnancy loss, implantation failure and preeclampsia. J Reprod Immunol 2011;90:105-10.
  • 3. Gonen-Gross T, Goldman-Wohl D, Huppertz B, Lankry D, Greenfield C, Natanson-Yaron S, et al. Inhibitory NK receptor recognition of HLA-G: regulation by contact residues and by cell specific expression at the fetal-maternal interface. PLoS One 2010;5:8941.
  • 4. Bentin-Ley U, Sjögren A, Nilsson L, Hamberger L, Larsen JF, Horn T. Presence of uterine pinopodes at the embryo-endometrial interface during human implantation in vitro. Hum Reprod 1999;14:515-20.
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  • 6. Bentin-Ley U, Lopata A. In vitro models of human blastocyst implantation. Baillieres Best Pract Res Clin Obstet Gynaecol 2000;14:765-74.
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  • 13. Aghajanova L, Hamilton AE, Giudice LC. Uterine receptivity to human embryonic implantation: histology, biomarkers, and transcriptomics. Semin Cell Dev Biol 2008;19:204-11.
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  • 17. Margalioth EJ, Ben-Chetrit A, Gal M, Eldar-Geva T. Investigation and treatment of repeated implantation failure following IVF-ET. Hum Reprod 2006;21:3036-43.
  • 18. Diedrich K, Fauser BC, Devroey P, Griesinger G. The role of the endometrium and embryo in human implantation. Hum Reprod Update 2007;13:365-77.
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Yıl 2018, Cilt: 4 Sayı: 1, 27 - 36, 18.04.2018

Öz

Kaynakça

  • 1. Achache H, Revel A. Endometrial receptivity markers, the journey to successful embryo implantation. Hum Reprod Update 2006;12:731-46.
  • 2. Fukui A, Funamizu A, Yokota M, Yamada K, Nakamua R, Fukuhara R, et al. Uterine and circulating natural killer cells and their roles in women with recurrent pregnancy loss, implantation failure and preeclampsia. J Reprod Immunol 2011;90:105-10.
  • 3. Gonen-Gross T, Goldman-Wohl D, Huppertz B, Lankry D, Greenfield C, Natanson-Yaron S, et al. Inhibitory NK receptor recognition of HLA-G: regulation by contact residues and by cell specific expression at the fetal-maternal interface. PLoS One 2010;5:8941.
  • 4. Bentin-Ley U, Sjögren A, Nilsson L, Hamberger L, Larsen JF, Horn T. Presence of uterine pinopodes at the embryo-endometrial interface during human implantation in vitro. Hum Reprod 1999;14:515-20.
  • 5. Lopata A, Bentin-Ley U, Enders A. “Pinopodes” and implantation. Rev Endocr Metab Disord 2002;3:77-86.
  • 6. Bentin-Ley U, Lopata A. In vitro models of human blastocyst implantation. Baillieres Best Pract Res Clin Obstet Gynaecol 2000;14:765-74.
  • 7. Carson DD, Bagchi I, Dey SK, Enders AC, Fazleabas AT, Lessey BA, et al. Embryo implantation. Dev Biol 2000;223:217-37.
  • 8. Fox C, Morin S, Jeong JW, Scott RT Jr, Lessey BA. Local and systemic factors and implantation: what is the evidence? Fertil Steril 2016;105:873-84.
  • 9. Strowitzki T, Germeyer A, Popovici R, von Wolff M. The human endometrium as a fertility-determining factor. Hum Reprod Update 2006;12:617-30.
  • 10. Salamonsen LA, Nie G, Hannan NJ, Dimitriadis E. Society for Reproductive Biology Founders’ Lecture 2009. Preparing fertile soil: the importance of endometrial receptivity. Reprod Fertil Dev 2009;21:923-34.
  • 11. Cha J, Sun X, Dey SK. Mechanisms of implantation: strategies for successful pregnancy. Nat Med 2012;18:1754-67.
  • 12. Effectiveness and treatment for unexplained infertility. Practice Committee of the American Society for Reproductive Medicine. Fertil Steril 2006;86(5 Suppl 1):S111-4.
  • 13. Aghajanova L, Hamilton AE, Giudice LC. Uterine receptivity to human embryonic implantation: histology, biomarkers, and transcriptomics. Semin Cell Dev Biol 2008;19:204-11.
  • 14. Coughlan C, Ledger W, Wang Q, Liu F, Demirol A, Gurgan T, et al. Recurrent implantation failure: definition and management. Reprod Biomed Online 2014;28:14-38.
  • 15. Polanski LT, Baumgarten MN, Quenby S, Brosens J, Campbell BK, Raine-Fenning NJ. What exactly do we mean by ‘recurrent implantation failure’? A systematic review and opinion. Reprod Biomed Online 2014;28:409-23.
  • 16. Shufaro Y, Schenker JG. Implantation failure, etiology, diagnosis and treatment. Int J Infertil Fetal Med 2011;2:1-7.
  • 17. Margalioth EJ, Ben-Chetrit A, Gal M, Eldar-Geva T. Investigation and treatment of repeated implantation failure following IVF-ET. Hum Reprod 2006;21:3036-43.
  • 18. Diedrich K, Fauser BC, Devroey P, Griesinger G. The role of the endometrium and embryo in human implantation. Hum Reprod Update 2007;13:365-77.
  • 19. de Mouzon J, Goossens V, Bhattacharya S, Castilla JA, Ferraretti AP, Korsak V, et al. Assisted reproductive technology in Europe, 2006: results generated from European registers by ESHRE. Hum Reprod 2010;25:1851-62.
  • 20. Sharkey AM, Smith SK. The endometrium as a cause of implantation failure. Best Pract Res Clin Obstet Gynaecol 2003;17:289-307.
  • 21. Barlow JZ, Huntley GW. Developmentally regulated expression of Thy-1 in structures of the mouse sensory-motor system. J Comp Neurol 2000;421:215-33.
  • 22. Ergüler G, Demir N, Demir R. Adezyon moleküllerinin yapısal özellikleri ve fonksiyonları. T Klin J Med Sci 2002;22:313-27.
  • 23. Sakisaka T, Takai Y. Biology and pathology of nectins and nectin-like molecules. Curr Opin Cell Biol 2004;16:513-21.
  • 24. Feldmann M. Intercellular adhesion molecules. In: Roitt I, Brastaffl J, Male D, editors. Immunology. Barcelona: Mosby; 1996. p. 143-5.
  • 25. Haznedaro¤lu IC, Benekli M. Adezyon molekülleri. Türk Hematoloji - Onkoloji Dergisi 1998;4:252-4.
  • 26. Rahman J, Meilsp J. Dynamic exercise leads an to increase in circulating ICAM-1 further evidence per adrenergic modullation of cell adhesion. Brain. Benav - Immun 1997;11:343-51.
  • 27. Saygılı Ö, Gültekin F. Hücre adezyon molekülleri. T Klin Tıp Bilimleri 1999;19:362-65.
  • 28. Cooper GM. The Cell. New York: Oxford University Press; 1997.. p. 12:510.
  • 29. Kasper C, Rasmussen H, Kastrup JS, Ikemizu S, Jones EY, Berezin V, et al. Structural basis of cell-cell adhesion by NCAM. Nat Struct Biol 2000;7:389-93.
  • 30. Bauer ME, Perks P, Lightman SL, Shanks N. Are adhesion molecules involved in stress-induced changes in lymphocyte distribution? Life Sci 2001;69:1167-79.
  • 31. Çavusoglu T, Uyanikgil Y, Kiliç KD, Turgut M. Integrins as a critical target in determining metastasis and growth of brain tumor. J Brain Tumors Neurooncol 2016;1:105.
  • 32. Horstman LL, Jy W, Jimenez JJ, Ahn YS. Endothelial microparticles as markers of endothelial dysfunction. Front Biosci 2004;9:1118-35.
  • 33. Önder MR, Nalbantgil I. Hücre adezyon molekülleri endotel ve fonksiyonları. Bristol-Myers Squibb 1997;33-44.
  • 34. Terekeci H, ahan B, Top C. Hücre adezyon molekülleri. Nobel Med 2008;10:1-7.
  • 35. Ehrhardt C, Kneuer C, Bakowsky U. Selectins-an emerging target for drug delivery. Adv Drug Deliv Rev 2004;56:527-49.
  • 36. Mousa SA. Cell adhesion molecules: potential therapeutic and diagnostic implications. Methods Mol Med 2004;93:157-74.
  • 37. Murohara T, Delyani JA, Albelda SM, Lefer AM. Blockade of platelet endothelial cell adhesion molecule-1 protects against myocardial ischemia and reperfusion injury in cats. J Immunol 1996;156:3550-7.
  • 38. Önder MR, Barutçuo¤lu B. Endotel. 1. Basım, ‹stanbul: ‹brahim Ethem Ulagay ‹laç Sanayi; 2005. s. 68-71.
  • 39. Mulvihill NT, Foley JB, Crean P, Walsh M. Prediction of cardiovascular risk using soluble cell adhesion molecules. Eur Heart J 2002;23:1569-74.
  • 40. Fassbender K, Mössner R, Motsch L, Kischka U, Grau A, Hennerici M. Circulating selectin- and immunoglobulin-type adhesion molecules in acute ischemic stroke. Stroke 1995;26:1361-4.
  • 41. Somay G., Bulkan M., Mısırlı H. Akut serebral iskemili hastalarda E-selektin ve Hs Crp’nin serum seviyeleri. Türk Serebrovasküler Hastalıklar Dergisi 2007;13:41-9.
  • 42. Behrens J. Cadherins as determinants of tissue morphology and suppressors of invasion. Acta Anat (Basel) 1994;149:165-9.
  • 43. Takeichi M. Cadherin cell adhesion receptors as a morphogenetic regulator. Science 1991;251:1451-5.
  • 44. Crockard AD, Boylan MT, Droogan AG, McMillan SA, Hawkins SA. Methylprednisolone-induced neutrophil leukocytosis--down-modulation of neutrophil L-selectin and Mac-1 expression and induction of granulocyte-colony stimulating factor. Int J Clin Lab Res 1998;28:110-5.
  • 45. Wilson GA. Cell adhesion molecules fundamental facts. R&D Systems; 1996.
  • 46. Kemler R. Classical cadherins. Semin Cell Biol 1992;3:149-55.
  • 47. Goodwin LO, Karabinus DS, Pergolizzi RG. Presence of N-cadherin transcripts in mature spermatozoa. Mol Hum Reprod 2000;6:487-97.
  • 48. Defrère S, Van Langendonckt A, Moulin P, Befahy P, Gonzalez D, Martinez-Madrid B, et al. Human endometrial epithelial cells (EEC) constitutively express more intercellular adhesion molecule (ICAM)-1 than endometrial stromal cells (ESC) in culture. Am J Reprod Immunol 2005;54:5-12.
  • 49. Alattia JR, Tong KI, Takeichi M, Ikura M. Cadherins. Methods Mol Biol 2002;172:199-210.
  • 50. Rufas O, Fisch B, Ziv S, Shalgi R. Expression of cadherin adhesion molecules on human gametes. Mol Hum Reprod 2000;6:163-9.
  • 51. Dawood MY, Lau M, Khan-Dawood FS. E-cadherin and its messenger ribonucleic acid in periimplantation phase human endometrium in normal and clomiphene-treated cycles. Am J Obstet Gynecol 1998;178:996-1001.
  • 52. MacCalman CD, Getsios S, Chen GT. Type 2 cadherins in the human endometrium and placenta: their putative roles in human implantation and placentation. Am J Reprod Immunol 1998;39:96-107.
  • 53. Abbas AK, Lichtman AH. Maturation, activation and regulation of lymphocytes. In: In Cellular and Molecular Immunology. 5th ed. London: WB Saunder Company; 2003. p. 127-241.
  • 54. Güç D. Adezyon molekülleri. Astım Allerji ‹mmünoloji 2004;2:95-102.
  • 55. Behar E, Chao NJ, Hiraki DD, Krishnaswamy S, Brown BW, Zehnder JL, et al. Polymorphism of adhesion molecule CD31 and its role in acute graft-versus-host disease. N Engl J Med 1996;334:286-91.
  • 56. Cook-Mills JM. VCAM-1 signals during lymphocyte migration: role of reactive oxygen species. Mol Immunol 2002;39:499-508.
  • 57. Lessey BA, Damjanovich L, Coutifaris C, Castelbaum A, Albelda SM, Buck CA. Integrin adhesion molecules in the human endometrium. Correlation with the normal and abnormal menstrual cycle. J Clin Invest 1992;90:188-95.
  • 58. Kimber SJ. Molecular interactions at the maternal-embryonic interface during the early phase of implantation. Semin Reprod Med 2000;18:237-53.
  • 59. Kayıslı UA, Asar M, Demir R. Distributions and possible roles of laminin, fibronectin and their receptor subunits integrin b4 and a5 in remodelling of extracellular matrix during decidualization in rats. Turk J Biol 2000;24:379-95.
  • 60. Klentzeris LD. The role of endometrium in implantation. Hum Reprod 1997;12:170-5.
  • 61. Singh H, Aplin JD. Adhesion molecules in endometrial epithelium: tissue integrity and embryo implantation. J Anat 2009;215:3-13.
  • 62. Bowen JA, Hunt JS. The role of integrins in reproduction. Proc Soc Exp Biol Med 2000;223:331-43.
  • 63. Lessey BA, Castelbaum AJ, Wolf L, Greene W, Paulson M, Meyer WR, et al. Use of integrins to date the endometrium. Fertil Steril 2000;73:779-87.
  • 64. Lessey BA. Two pathways of progesterone action in the human endometrium: implications for implantation and contraception. Steroids 2003;68:809-15.
  • 65. Surrey ES, Minjarez DA, Schoolcraft WB. The incidence of aberrant endometrial alphavbeta(3) vitronectin expression in a high risk infertility population: could prolonged GnRH agonist therapy play a role? J Assist Reprod Genet 2007;24:553-6.
  • 66. Stephens LE, Sutherland AE, Klimanskaya IV, Andrieux A, Meneses J, Pedersen RA, et al. Deletion of beta 1 integrins in mice results in inner cell mass failure and peri-implantation lethality. Genes Dev 1995;9:1883-95.
  • 67. Brakebusch C, Hirsch E, Potocnik A, Fässler R. Genetic analysis of beta1 integrin function: confirmed, new and revised roles for a crucial family of cell adhesion molecules. J Cell Sci 1997;110:2895-904.
  • 68. McCarty JH, Monahan-Earley RA, Brown LF, Keller M, Gerhardt H, Rubin K, et al. Defective associations between blood vessels and brain parenchyma lead to cerebral hemorrhage in mice lacking alphav integrins. Mol Cell Biol 2002;22:7667-77.
  • 69. Sutherland AE, Calarco PG, Damsky CH. Developmental regulation of integrin expression at the time of implantation in the mouse embryo. Development 1993;119:1175-86.
  • 70. Bloor DJ, Metcalfe AD, Rutherford A, Brison DR, Kimber SJ. Expression of cell adhesion molecules during human preimplantation embryo development. Mol Hum Reprod 2002;8:237-45.
  • 71. Clark K, Pankov R, Travis MA, Askari JA, Mould AP, Craig SE, et al. A specific alpha5beta1-integrin conformation promotes directional integrin translocation and fibronectin matrix formation. J Cell Sci 2005;118:291-300.
  • 72. Skrzypczak J, Mikolajczyk M, Szymanowski K. Endometrial receptivity: expression of alpha3beta1, alpha4beta1 and alphaVbeta1 endometrial integrins in women with impaired fertility. Reprod Biol.2001;1:85-94.
  • 73. Basak S, Dhar R, Das C. Steroids modulate the expression of alpha4 integrin in mouse blastocysts and uterus during implantation. Biol Reprod 2002;66:1784-9.
  • 74. Castelbaum AJ, Wheeler J, Coutifaris CB, Mastroianni L Jr, Lessey BA. Timing of the endometrial biopsy may be critical for the accurate diagnosis of luteal phase deficiency. Fertil Steril 1994;61:443-7.
  • 75. Elnashar AM, Aboul-Enein GI. Endometrial receptivity. Middle East Fertility Society Journal 2004;9:10-24.
  • 76. Jha RK, Titus S, Saxena D, Kumar PG, Laloraya M. Profiling of E-cadherin, beta-catenin and Ca(2+) in embryo-uterine interactions at implantation. FEBS Lett 2006;580:5653-60.
  • 77. Riethmacher D, Brinkmann V, Birchmeier C. A targeted mutation in the mouse E-cadherin gene results in defective preimplantation development. Proc Natl Acad Sci U S A 1995;92:855-9.
  • 78. Coutifaris C, Kao LC, Sehdev HM, Chin U, Babalola GO, Blaschuk OW, et al. E-cadherin expression during the differentiation of human trophoblasts. Development 1991;113:767-77.
  • 79. Dunlap KA, Filant J, Hayashi K, Rucker EB, Song G, Deng JM, et al. Postnatal deletion of Wnt7a inhibits uterine gland morphogenesis and compromises adult fertility in mice. Biol Reprod 2011;85:386-96.
  • 80. Gendron RL, Paradis H, Hsieh-Li HM, Lee DW, Potter SS, Markoff E. Abnormal uterine stromal and glandular function associated with maternal reproductive defects in Hoxa-11 null mice. Biol Reprod 1997;56:1097-105.
  • 81. Reardon SN, King ML, MacLean JA, Mann JL, DeMayo FJ, Lydon JP, et al. CDH1 is essential for endometrial differentiation, gland development, and adult function in the mouse uterus. Biol Reprod 2012;86:141.
  • 82. Foulk RA, Zdravkovic T, Genbacev O, Prakobphol A. Expression of L-selectin ligand MECA-79 as a predictive marker of human uterine receptivity. J Assist Reprod Genet 2007;24:316-21.
  • 83. Revel A. Defective endometrial receptivity. Fertil Steril 2012;97:1028-32.
  • 84. Chung TW, Park MJ, Kim HS, Choi HJ, Ha KT. Integrin aVb3 and aVb5 are required for leukemia inhibitory factor-mediated the adhesion of trophoblast cells to the endometrial cells. Biochem Biophys Res Commun 2016;469:936-40.
  • 85. Tei C, Maruyama T, Kuji N, Miyazaki T, Mikami M, Yoshimura Y. Reduced expression of alphavbeta3 integrin in the endometrium of unexplained infertility patients with recurrent IVF-ET failures: improvement by danazol treatment. J Assist Reprod Genet 2003;20:13-20.
  • 86. Macklon NS, Stouffer RL, Giudice LC, Fauser BC. The science behind 25 years of ovarian stimulation for in vitro fertilization. Endocr Rev 2006;27:170-207.
Toplam 86 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Derleme
Yazarlar

Rasim Hamutoğlu 0000-0002-2474-5336

Berna Özdenoğlu Kutlu Bu kişi benim

Tuğba Dağdeviren

Hüseyin Eray Bulut Bu kişi benim

Yayımlanma Tarihi 18 Nisan 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 4 Sayı: 1

Kaynak Göster

APA Hamutoğlu, R., Özdenoğlu Kutlu, B., Dağdeviren, T., Bulut, H. E. (2018). Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi, 4(1), 27-36.
AMA Hamutoğlu R, Özdenoğlu Kutlu B, Dağdeviren T, Bulut HE. Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi. Nisan 2018;4(1):27-36.
Chicago Hamutoğlu, Rasim, Berna Özdenoğlu Kutlu, Tuğba Dağdeviren, ve Hüseyin Eray Bulut. “Tekrarlayan Implantasyon başarısızlığında hücre Adezyon moleküllerinin Rolü”. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi 4, sy. 1 (Nisan 2018): 27-36.
EndNote Hamutoğlu R, Özdenoğlu Kutlu B, Dağdeviren T, Bulut HE (01 Nisan 2018) Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi 4 1 27–36.
IEEE R. Hamutoğlu, B. Özdenoğlu Kutlu, T. Dağdeviren, ve H. E. Bulut, “Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü”, İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi, c. 4, sy. 1, ss. 27–36, 2018.
ISNAD Hamutoğlu, Rasim vd. “Tekrarlayan Implantasyon başarısızlığında hücre Adezyon moleküllerinin Rolü”. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi 4/1 (Nisan 2018), 27-36.
JAMA Hamutoğlu R, Özdenoğlu Kutlu B, Dağdeviren T, Bulut HE. Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi. 2018;4:27–36.
MLA Hamutoğlu, Rasim vd. “Tekrarlayan Implantasyon başarısızlığında hücre Adezyon moleküllerinin Rolü”. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi, c. 4, sy. 1, 2018, ss. 27-36.
Vancouver Hamutoğlu R, Özdenoğlu Kutlu B, Dağdeviren T, Bulut HE. Tekrarlayan implantasyon başarısızlığında hücre adezyon moleküllerinin rolü. İstanbul Bilim Üniversitesi Florence Nightingale Tıp Dergisi. 2018;4(1):27-36.