Study of hydrosalpinx on endometrial growth and expression of HOXA10mRNA and related factors.

Objective: The objective of the study is to extract the patient's endometrium at the time of proliferative stage using hydrosalpinx in order to culture the cells and decidualization induction in vitro. Further, the study is also intended at identifying the expression of HOXA10mRNA and related factors and understand the hydrosalpinx's impact upon the working mechanism of endometrial cells. Methods: Once the extraction of the primary cells is over, the cells are cultured and other activities are performed such as the cell identification, CCK8 assay, cell decidua induction and HE staining. The researchers assessed the expression levels of HOXA10, IGFBP1 and avß3 in either proliferation or secretion of the endometrium. This was accomplished using Western blot assay and real-time fluorescence quantitative PCR. Results: The results confirmed that at the time of endometrial proliferation, there was a decline in the expression of HOXA10 as a result of tubal effusion influence. This affected its expression in the secretory stage i.e., corresponding function. Further, a significant decline was observed in the levels of HOXA10mRNA of endometrial cells that were subjected to continuous tubal effusion, post decidualization. It was found that during decidualization, if thetubal effusion is removed, it is possible to restore the expression of HOXA10mRNA to a certain extent, though it is not possible to reach the general endometrial level. So, in terms of clinical aspects, the expression of HOxa10 mRNA by the endometrial cells decreases significantly when blocking the hydrosalpinx. Conclusions: Among hydrosalpinx patients, one of the major mechanisms that damage the endometrium was found to be the abnormal expression of HOXA10 followed by IGFBP1 and avß3, its downstream genes. This further results in the implantation of the embryo as well. Though it is possible to gradually repair the damage after the removal of hydrosalpinx, the recovery is a time-consuming process.

Effect of human hydrosalpinx fluid in fertilization rate of mouse oocyte and embryo quality.

OBJECTIVE: To determine whether human hydrosalpinx fluid might have a deleterious effect on the fertilization rate and embryonic development of the exposed mouse oocytes. METHODS: Mouse cumulus-oocyte complexes (COCs) were randomly allocated for exposure to pure hydrosalpinx fluid (100% HSF group, n=400), EBSS containing 50% of hydrosalpinx fluid (50% HSF group, n=320) and pure EBSS (control group, n=300). RESULTS: The results showed that the fertilization rate in the 100% HSF group was significantly lower than the control group (64.0% versus 73.0%, p=0.031). The blastocyst formation rate was also lower in the 100% HSF group than 50% HSF and the control group (51.5% versus 56.9% versus 56.3%, respectively), but not statistically significant (p=0.275). There was no significant difference in the mean numbers of cells in the ICM, TE, and total cell number in blastocysts from the control group and two hydrosalpinx fluid exposure groups. CONCLUSIONS: Human hydrosalpinx fluid has a negative effect on the fertilization rate of the exposed mouse oocytes. However, this effect was found only in undiluted concentration and does not affect the subsequence of embryonic development and blastocyst cell number.

Effects of hydrosalpinx on endometrial implantation failures: evaluating salpingectomy in women undergoing in vitro fertilization / Efeitos do hydrosalpinx no falho de implantação endometrial: Avaliar a salpingectomia nas mulheres em curso de fertilização in vitro

Abstract Hydrosalpinx is a disease characterized by the obstruction of the salpinx, with progressive accumulation in the shape of a fluid-filled sac at the distal part of the tuba uterina, and closed to the ovary. Women with hydrosalpinges have lower implantation and pregnancy rates due to a combination of mechanical and chemical factors thought to disrupt the endometrial environment. Evidence suggests that the presence of hydrosalpinx reduces the rate of pregnancy with assisted reproductive technology. The main aim of the present is review to make an overview of the possible effects of hydrosalpinx on in vitro fertilization (IVF).We conducted a literature search on the PubMed, Ovid MEDLINE, and Google Scholar data bases regarding hydrosalpinx and IVF outcomes. Hydrosalpinx probably has a direct toxic effect on sperm motility and on the embryos. In addition, the increasing liquid inside the salpinges could alter the mechanisms of endometrial receptivity. The window of endometrial receptivity is essential in the implantation of blastocysts, and it triggers multiple reactions arising from the endometrium as well as the blastocysts. Hydrosalpinx could influence the expression of homeobox A10 (HOXA10) gene, which plays an essential role in directing embryonic development and implantation. Salpingectomy restores the endometrial expression of HOXA10; therefore, it may be one mechanism by which tubal

Impact of hydrosalpinx fluid on early human embryos.

This study aimed to investigate the impact of hydrosalpinx fluid (HF) on early human embryonic development. A total of 33 patients who underwent laparoscopic surgery for hydrosalpinx were selected, and the HF specimens obtained from these patients were subjected to bacterial culture, Chlamydia antigen detection, biochemical analysis, and cytokine detection. Meanwhile, human embryos derived from three pronuclei (3PN) were cultured in various HF concentrations. There was no significant difference in the chemical components and physical characteristics between colorless and colored HF specimens, apart from the glucose concentration which was significantly higher in colorless HF. K+ and HCO3- were significantly increased (P < 0.05 and P < 0.01), and Ca2+, Mg2+, and glucose were significantly decreased (P < 0.05, P = 0.006, and P = 0.007) in the two HF specimens, compared to blastocyst culture medium (G-2 medium); no phosphates were detected in the HF specimens. Compared to colorless HF, the concentrations of tumor necrosis factor α (TNF-α) and interleukin 2 (IL-2) in the colored HF specimens were significantly increased (P < 0.05). There were no differences in the Chlamydia antigen-positive rate between the HF groups (62.5% vs. 70.6%), and no bacterial growth occurred in the HF specimens. There were no significant differences in the development of the 3PN embryos between the two HF groups (P > 0.05). High-concentration HF (75%) significantly affected the rates of blastulation, blastocyst hatching, and high-quality blastocyst formation (P < 0.05). HF is related to chlamydial infection. Embryonic development may be significantly affected only in high-concentration HF, possibly due to the deficiency of essential elements required for embryonic development. TNF-α and IL-2 concentrations were found to vary between the clear and colored HF specimens; however, TNF-α and IL-2 in HF do not appear to exert adverse effects on embryonic development.

Hydrosalpinx functional surgery or salpingectomy? The importance of hydrosalpinx fluid in assisted reproductive technologies.

The first IVF baby, Louise Brown, was born in a natural cycle IVF of a woman who had bilateral tubal block making IVF the only option for having a child. The last 3 decades has seen astounding progress in the field of ART. Today thanks to ART, tubal disease and tubal factor infertility is easily overcome. The accepted theory today is that the hydrosalpinx fluid plays a causative role in the reduced pregnancy rate with ART. It is well known that the success of ART for patients with tubal disease with hydrosalpinx is reduced by half compared with patients without hydrosalpinx. Ideal would be removal of a hydrosalpinx by laparoscopic salpingectomy to improve pregnancy rates. However in some cases this is not feasible due to dense pelvic adhesions making access difficult. In such cases it is recommended that even de-linking the tube from the uterus would help in improving the ART outcome. There is suggestion that sonographically visible hydrosalpinges and those affected bilaterally have a poorer prognosis than those seen incidentally at laparoscopy. While there is clinical evidence supporting the causative role of the fluid itself, there is a lack of knowledge as to how the fluid exerts its negative effects. It is generally believed that the fluid holds a key position in impairing implantation potential. The aim of this review is to highlight the importance of identifying hydrosalpinges and its association with reduced fertility outcome using assisted reproductive technologies. Here we have discussed the different options available for the same, and highlighted the current modes of treatment.

Effect of human hydrosalpinx fluid on mouse in in vitro fertilization and embryo development / 대한산부인과학회잡지

OBJECTIVE: To ascertain if hydrosalpinges are associated with reduced pregnancy rates and increased pregnancy loss after IVF-ET, a study was conducted. Increased volume and leakage of hydrosalpinx fluid may exert negative effects on follicular development and embryo quality and/or render the uterine environment hostile to embryogenesis. This study was undertaken to examine the effect of hydrosalpinx fluid on mouse embryogenesis in vitro. METHODS: The study was designed by comparison of mouse embryo blastulation rate in media containing increasing concentrations of hydrosalpinx fluid. In vitro fertilization rate and the development of one-, two-, four-cell mouse embryos in medium containing 0% (Control), 0.3%, 0.6%, 0.9%, 5%, 10% and 20% of human hydrosalpinx fluid-containing media was observed. RESULTS: In vitro fertilization and culture of mouse embryo at 0% (control), 0.3%, 0.6%, 0.9%, 5%, 10%, 20% hydrosalpinx fluid concentrations demonstrated significantly lower blastulation rate at each level compared with the controls (p<0.05). In vivo fertilization and culture of embryo at the same increasing concentration of hydrosalinx fluid showed the same results (p<0.05). And the difference of each embryo development (zygote, 2cell, 4cell) was not significant. CONCLUSION: Hydrosalpinx fluid is highly embryotoxic. Procedures such as salpingectomy or proximal tubal occlusion to circumvent the passage of hydrosalpinx fluid into the uterine cavity may have beneficial effects on the developmental environment for embryos in vivo.