Hysteroscopic and morphological evaluation of endometrium in reproductive age women with comorbid polycystic ovarian syndrome and chronic endometritis in the protocols of in vitro fertilization

  • Received 17.12.2021

  • Revised 01.03.2022

  • Accepted 29.03.2022



  • 959 Views

  • Retrieved from Vol. 4, No. 1, 2022

  • Pages 103-109

Summary. Today, infertility, which is associated with polycystic ovary syndrome, is a pressing problem in obstetrics, gynecology and reproductive medicine. Polycystic ovary syndrome (PCOS) is a common endocrine disease that affects about 6 to 20 % of women of childbearing potential. Its main signs are ovulatory and menstrual dysfunction (including anovulation), increased levels of gonadotropin-releasing hormone, hypersecretion of luteinizing hormone, hyperandrogenemia, metabolic disorders and morphological changes in the endometrium and ovaries. The aim of the study – to evaluate hysteroscopic and morphological changes in the endometrium of women with infertility against the background of PCOS and chronic endometritis and to analyze the effect of a modified treatment regimen in the protocols of in vitro fertilization on the manifestations of chronic endometritis. Materials and Methods. We examined 140 women with endocrine infertility against the background of PCOS and chronic endometritis, which were divided into 2 study groups, depending on the cause and treatment approach for infertility, as well as 35 women with male-caused infertility who comprised the control group. All examined patients underwent hysteroscopy, targeted biopsy and immunohistochemical study of the endometrium. Histological study of the endometrium was performed by staining the tissue with hematoxylin and eosin according to a standard protocol in order to understand the structural changes of the endometrium in women of the study groups. Immunohistochemical testing involved the detection of CD138 using standard Daco antibody kits (Denmark). Results. Patients with PCOS and chronic endometritis used standard anti-inflammatory treatment which followed our modified protocol. This resulted in significantly reduced manifestations of chronic endometritis. The modified protocol includes inositol and alpha-lipoic acid in pre-pregnancy preparation; PRP therapy of the uterine cavity; and lipofundin infusions on day 2–3 of the menstrual cycle and on the day of embryo transfer. Conclusions. Histological examination of the endometrium with manifestations of stromal-adenomatous polyps revealed reduced signs of cytogenic stroma proliferation, decreased perivascular edema and the number of erythrocyte diapedesis. The number of glandular elements and the size of the glands also decreased

infertility, hysteroscopy, IVF, PCOS, chronic endometritis, CD138

https://doi.org/10.11603/bmbr.2706-6290.2022.1.12936

[1] Comparison of Cumulative Live Birth Rate Between Aged PCOS Women and Controls in IVF/ICSI Cycles, Front Endocrinol (Lausanne). Published online. 2021;12: 724-33.

[2] Yuzko OM, Yuzko TA. [Overcoming infertility with the help  of  assisted  reproductive  technologies].  Med  aspekt zdorov zhin. 2009;3(20): 50-5. Ukrainian.

[3] Patil K, Joseph S, Shah J, Mukherjee S. An integrated in  silico  analysis  highlighted  angiogenesis  regulating miRNA-mRNA network in PCOS pathophysiology. J Assist Reprod Genet. Published online. 2022;39(2): 427-40.

[4] Zhu  Xue,  Juanli  Li,  Jiaxing  Feng,  Han  Han,  Jing Zhao, Jiao Zhang, Yanhua Han, Xiaoke Wu, Yuehui Zhang. Research Progress on the Mechanism Between Polycystic Ovary  Syndrome  and  Abnormal  Endometrium.  Front Physiol. Published online. 2021;12: 772-8.

[5] Kasius  JC,  Broekmans  FJ,  Sie-Go  DM,  Bourgain C,  Eijkemans  MJ,  Fauser  BC,  Devroey  P,  Fatemi  HM. The reliability of the histological diagnosis of endometritis in asymptomatic IVF cases: a multicenter observer study. Hum Reprod. 2012;27(1): 153-8.

[6] Buzzaccarini G, Vitagliano A, Andrisani A, Santarsiero CM, Cicinelli R, Nardelli C, Ambrosini G, Cicinelli E. Chronic endometritis  and  altered  embryo  implantation:  a  unified pathophysiological  theory  from  a  literature  systematic review.  J  Assist  Reprod  Genet.  2020;37(12):  2897-911. DOI: 10.1007/s10815-020-01955-8.  Epub  2020  Oct  6. PMID: 33025403; PMCID: PMC7714873.

[7] Liu H, Song J, Zhang F. A new hysteroscopic scoring system  for  diagnosing  chronic  endometritis.  Journal  of Minimally Invasive Gynecology. 2020;27(5): 1127-32.

[8] Shuang Wang,Huishan Zhao, Fenghua Li, Yanping Xu, Hongchu Bao, Dongmei. Higher chronic endometritis incidences within infertile polycystic ovary syndrome clinical cases. Hindawi Journal of Healthcare Engineering. 2022;6 .

[9] Song  D,  Li  TC,  Zhang  Y.  Correlation  between hysteroscopy  findings  and  chronic  endometritis.  Fertility and Sterility. 2019;111(4): 772-9.

[10] Martini AE, Jasulaitis S, Fogg LF, Uhler ML, Hirshfeld-Cytron  JE.  Evaluating  the  utility  of  intralipid  infusion  to improve live birth rates in patients with recurrent pregnancy loss or recurrent implantation failure. J Hum Reprod Sci. 2018;11(3): 261-8. DOI: 10.4103/jhrs.JHRS_28_18. PMID: 30568356; PMCID: PMC6262661.

[11] Lin Y, Qi J, Sun Y. Platelet-rich plasma as a potential new  strategy  in  the  endometrium  treatment  in  assisted reproductive  technology.  Front  Endocrinol  (Lausanne). 2021;12:  7075-84.  DOI:  10.3389/fendo.2021.707584. PMID: 34733236; PMCID: PMC8558624

[12] Bagriy MM, Dibrova VA, Popadynets OG, Grishchuk IM. Methods of morphological research: monograph. [Методики морфологічних досліджень: монографія] Vinnytsia: Nova knyha; 2016. Ukrainian.

[13] Chen Yq, Fang Rl, Luo Yn. Analysis of the diagnostic value of CD138 for chronic endometritis, the risk factors for the pathogenesis of chronic endometritis and the effect of chronic  endometritis  on  pregnancy: A  cohort  study.  BMC Women's Health. 2016;(16): 60. DOI: 10.1186/s12905-016-0341-3