A prospective evaluation of the effect of salpingectomy on endometrial receptivity in cases of women with communicating hydrosalpinges

I. Bildirici1, O. Bukulmez1,3, A. Ensari2, H. Yarali1 and T. Gurgan1

1 Department of Obstetrics and Gynecology, Hacettepe University School of Medicine and 2 Department of Pathology, Ankara University School of Medicine, Ankara, Turkey


    Abstract
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
BACKGROUND: We aimed to assess whether salpingectomy in women with communicating hydrosalpinges influenced endometrial receptivity. METHODS: The inclusion criteria were: women with communicating hydrosalpinges, absence of other confounding infertility factors and aged <40 years. Patients were scheduled for laparoscopy during the putative window of implantation (cycle days 19–21). In patients in whom salpingectomy was decided upon due to the severity of tubal disease (n = 10), an intra-operative endometrial biopsy was performed. Post-treatment endometrial sampling was done between day 19–21 of the fourth consecutive cycle. Pre-treatment and post-treatment samples were assessed by both conventional histologic criteria and {alpha}3 integrin immunostaining, where histological score (HSCORE) was used for quantification. RESULTS: Despite normal histological maturation assessed by conventional criteria, 8/10 hydrosalpinx cases yielded an epithelial HSCORE of <0.7, which was below the accepted threshold. Following salpingectomy, luminal endometrial epithelium demonstrated a significantly increased {alpha}3 integrin expression (Wilcoxon's signed rank test, P = 0.017). Although the mean HSCORE for glandular epithelia improved, it failed to reach statistical significance. Ultrasound visible hydrosalpinges (n = 5) and non-visible cases (n = 5) were also compared. However, neither the pre-treatment integrin expression, nor the postoperative improvement were significantly different between these groups. CONCLUSIONS: We conclude that the surgical treatment of communicating hydrosalpinges may improve endometrial receptivity as assessed by {alpha}3 integrin expression. Women with hydrosalpinges may undergo endometrial evaluation by the molecular markers of implantation, such as {alpha}3 integrin. This evaluation may be decisive in determining the optimal management of cases, and may also be used to assess the efficacy of the treatment. The expression of the implantation markers should be correlated with implantation and clinical pregnancy rates in IVF–embryo transfer programs.

Key words: {alpha}3 integrin/endometrial receptivity/hydrosalpinx/salpingectomy


    Introduction
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
Tubal disease is one of the major causes of female infertility (Westrom, 1980Go). IVF–embryo transfer was initially developed as a method to overcome tubal infertility (Edwards et al., 1984Go). Recent IVF–embryo transfer studies reported low pregnancy and implantation rates in the presence of tubal disease accompanied by hydrosalpinx (Andersen et al., 1994Go; Kassabji et al., 1994Go; Strandell et al., 1994Go; Katz et al., 1996Go). These studies were complemented by reports demonstrating increased implantation rates and decreased miscarriage rates after surgical extirpation, neosalpingostomy or proximal ligation of hydrosalpinges (Vandromme et al., 1995Go; Levy et al., 1996Go). Recently, a prospective, randomized multicentre trial demonstrated the benefit of surgical treatment of hydrosalpinges prior to IVF (Strandell et al., 1999Go).

A direct embryotoxic effect of hydrosalpinx fluid (Mukherjee et al., 1996Go), physical interference due to the intrauterine accumulation of refluxed fluid (Mansour et al., 1991Go), or altered endometrial receptivity (Lessey et al., 1994bGo) have been among the proposed mechanisms by which a hydrosalpinx exerts an adverse influence on development and/or implantation of embryos.

Lessey et al. and Tabibzadeh evaluated the expression of integrin molecules in human endometrium throughout the menstrual cycle (Lessey et al., 1992Go, 1994aGo; Tabibzadeh, 1992Go). The vitronectin receptor, {alpha}3, was found to appear abruptly on cycle day 19 or 20, coincident with the opening of the putative window of implantation. The expression of {alpha}3 was absent in endometrial biopsies with maturational delay. Hence, {alpha}3 integrin appeared to be a consistent internal marker of luteal phase maturation and receptive endometrium (Lessey et al., 1992Go, 1994aGo). Lessey et al. also documented the presence of an endometrial dysfunction in patients with hydrosalpinges by means of histological delay and lower integrin expression (Lessey et al., 1994bGo).

This prospective study was undertaken to assess whether surgical treatment of communicating hydrosalpinges resulted in a significant change in endometrial maturation and {alpha}3 integrin expression.


    Materials and Methods
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
During a 2 year period, infertile women with unilateral or bilateral communicating hydrosalpinges, detected by hysterosalpingography, were evaluated for possible inclusion. Among these subjects, women <40 years of age and those having regular menstrual cycles with no ovulatory dysfunction (mid-luteal progesterone >10 ng/ml; conversion factor to SI units, 3.18) were included. Male factor was excluded by the presence of normal semen parameters according to the World Health Organization definition (World Health Organization, 1992Go) (sperm count >=20x106/ml, progressive motility >=40%, normal sperm morphology >=40%). The study was approved by the Institutional Review Board of Hacettepe University School of Medicine.

After all the patients were informed and written consent obtained, they were assigned to laparoscopy scheduled during the putative window of implantation (cycle day 19–21). Following laparoscopic confirmation of hydrosalpinges and associated severe tubal disease, salpingectomy and endometrial sampling were performed in 10 patients. These women were subjected to post-treatment endometrial sampling on the corresponding days of the fourth consecutive cycle. The Pipelle device (Laboratoire C.C.D., Paris, France) was used for all biopsies. Transvaginal ultrasounds performed prior to surgery revealed visible hydrosalpinges in 5/10 women.

The endometrial samples were transported on ice and snap frozen in liquid nitrogen to be maintained at –70°C until cryo-sectioning. Serial cryo-sections 5 µm thick were made on poly-L-lysine-coated slides. These slides were then fixed in +4°C acetone for 10 min, and stained using immunofluorescent techniques. One slide for each case was also stained with haemotoxylin and eosin for endometrial histological dating, according to the criteria of Noyes et al. (Noyes et al., 1950Go).

Immunofluorescent staining
An indirect immunofluorescent technique was employed. The primary antibody, {alpha}3 mouse monoclonal IgG1 (Santa Cruz Biotechnology, sc-7312, California, USA), was placed on cryosections after blocking with 1% bovine serum albumin in phosphate buffered saline (PBS) and incubated at room temperature for 1 h in a dark chamber. A PBS (pH = 7.2–7.4) rinse was followed by incubation with the secondary antibody (anti-mouse IgG-FITC, Santa Cruz Biotechnology, sc-2010) for 45 min at room temperature in a dark chamber. Subsequently, the samples were washed in PBS and mounted (Immu-mount, Shandon Inc, Pittsburgh, PA, USA). The staining was evaluated under a Nikon microscope by a single blinded observer. Photomicrographs were made using Kodak 400 ASA film.

An intestinal biopsy specimen known to express luminal and glandular epithelial {alpha}3 was used as a positive control slide. As a negative control slide, a normal non-immune serum was used instead of the primary antibody.

Immunostaining was evaluated by the histological score (HSCORE). HSCORE was calculated using the following equation: HSCORE = {Sigma} Pi (i + 1); where i is the intensity of staining with a value of 1, 2 or 3 (weak, moderate or strong respectively), Pi is the percentage of stained epithelial cells for each intensity varying from 0 to 100%, and 1 is a correction for optical density. This yielded a range of results from 0 for no staining to 4 for maximal staining. Luminal and glandular epithelial HSCORE were assessed separately for a detailed evaluation of the endometrium. The HSCORE has been shown to yield low inter- and intra-observer variation (Budwit-Navotny et al., 1986Go). Based on a previous receiver operator characteristic curve analysis (Lessey et al., 1994cGo), HSCORE >0.7 was used as the threshold of a positive test for the evaluation of epithelial {alpha}3 immunostaining.

Statistical evaluation
Wilcoxon's signed rank test was used for the comparison of both luminal and glandular endometrial HSCORE of the pre- and post-treatment samples. The pre- and post-treatment HSCORE of ultrasound visible and non-visible hydrosalpinges were separately compared by the Mann–Whitney U-test. P < 0.05 was considered as statistically significant.


    Results
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
The demographic characteristics of the cases are shown in Table IGo.


View this table:
[in this window]
[in a new window]
 
Table I. Demographic characteristics of cases
 
Histopathological evaluation of all salpingectomy specimens confirmed chronic salpingitis with distal tubal occlusion and hydrosalpinx, irrespective of ultrasound visibility.

The conventional histological dating of endometrial biopsies was in concordance with the chronologic dating in all cases. Hence, no case of out-of-phase endometrium in either pre- or post-treatment samples was observed.

The immunofluorescent staining for {alpha}3 integrin was observed on both the luminal and glandular epithelium. Diffuse cytoplasmic and membranous staining patterns were noticed. There was no {alpha}3 expression in the mesenchyme. Occasionally, vascular structures showed linear fluorescence.

The pre-treatment endometrial samples exhibited an average of 25% luminal epithelial {alpha}3 staining with a median staining intensity of 1. The mean HSCORE for the luminal epithelium was 0.8. Eight out of 10 cases revealed an HSCORE <0.7, which was below the accepted cut-off for positive staining. The post-treatment samples revealed an average of 75% luminal epithelial immunostaining with a median staining intensity of 2. The corresponding mean HSCORE was 2.1. Nine out of 10 cases resulted in an improvement of HSCORE (P = 0.017) (Figure 1Go). Finally, all of the post-treatment biopsies yielded a luminal epithelial HSCORE >0.7. Figure 2AGo illustrates weak luminal epithelial {alpha}3 immunostaining prior to salpingectomy, and Figure 2BGo shows increased staining after the treatment.



View larger version (19K):
[in this window]
[in a new window]
 
Figure 1. Scattergram of the luminal epithelial HSCORE before and after salpingectomy. HSCORE >=7 indicates positive {alpha}3 immunostaining. P = 0.017, before versus after salpingectomy.

 


View larger version (92K):
[in this window]
[in a new window]
 
Figure 2. Photomicrographs of the immunofluorescent staining for the integrin {alpha}3 in endometrial samples. The staining in the luminal epithelium was weak prior to salpingectomy (A) but quite pronounced (arrow) following salpingectomy (B). Original magnification x200.

 
The pre-treatment endometrial samples yielded an average of 30% glandular epithelial staining and a mean HSCORE of 0.8. Corresponding figures for post-treatment samples were 47% and 1.3 respectively (not significant). Prior to salpingectomy, glandular epithelial HSCORE was <0.7 in 7/10 cases, whereas 7/10 cases resulted in an HSCORE above the cut-off following salpingectomy (Figure 3Go). Figure 4AGo demonstrates a pre-treatment glandular epithelium lacking {alpha}3 immunostaining and Figure 4BGo demonstrates post-treatment enhancement of glandular immunofluorescence.



View larger version (17K):
[in this window]
[in a new window]
 
Figure 3. Scattergram of the glandular epithelial HSCORE before and after salpingectomy. HSCORE >=7 indicates positive {alpha}3 immunostaining. Before versus after salpingectomy, P is non-significant.

 


View larger version (77K):
[in this window]
[in a new window]
 
Figure 4. Immunofluorescent staining of {alpha}3 in glandular endometrial epithelium. The staining was largely absent in a patient with hydrosalpinx (A) compared with increased immunofluorescence (asterisk) following salpingectomy (B). Original magnification x100.

 
The pre-treatment HSCORE was comparable among subjects with ultrasound visible and non-visible hydrosalpinges (not significant). Of the five patients with ultrasound visible hydrosalpinges, four resulted in an HSCORE below the cut-off, and of the five patients with hydrosalpinges that were not seen on ultrasound, four also resulted in an HSCORE <0.7.

All post-treatment endometrial biopsies of women with ultrasound visible hydrosalpinges (n = 5) resulted in an improved HSCORE. All but one post-treatment endometrial biopsy in ultrasound non-visible subjects (n = 5) also revealed a higher HSCORE. The post-treatment HSCORE for each group did not significantly differ from one another.


    Discussion
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
Our data further support the effect of hydrosalpinx and its surgical treatment on the endometrial receptivity marker, {alpha}3 integrin. Interestingly, conventional histological evaluation of the endometrium did not reveal any maturational delay. However, the impaired endometrial epithelial {alpha}3 immunofluorescent staining was followed by its improvement after salpingectomy. This finding may suggest the presence of an unknown endometrial defect in patients with communicating hydrosalpinges. Unlike our series, Meyer et al. reported a combination of histological delay and aberrant integrin expression in women with hydrosalpinges (Meyer et al., 1997Go).

Following salpingectomy, endometrial luminal epithelial {alpha}3 expression was significantly increased. Although an improvement was observed in the post-treatment glandular integrin expression, it did not reach statistical significance. The limited number of cases and a slower glandular response, which was not completed after a 3-cycle interval, might be possible explanations.

We decided to perform our post-treatment endometrial biopsies somewhat arbitrarily, in the fourth sequential cycle. This policy was employed according to some conventional knowledge. The normalization of endometrium has been accepted to take place following three cycles of continued treatment in certain disorders, such as dysfunctional uterine bleeding (Speroff, 1999). Likewise, a repeat biopsy has been recommended following 3 months of medical therapy in cases of endometrial hyperplasia (DiSaia, 1997). Ideally, the progressive change would have been shown by sequential monthly biopsies, but this was not possible due to ethical concerns. Hence, the timing of optimal improvement in endometrial receptivity markers following salpingectomy remains undetermined.

One of the challenges in the management of the hydrosalpinx is to determine who would benefit from salpingectomy. Vasquez et al. suggested salpingectomy in thick-walled hydrosalpinges with wall fibrosis and hydrosalpinges with mucosal adhesions (Vasquez et al., 1995Go). Puttemans et al. supported the use of tubal endoscopy in the decision-making process (Puttemans et al., 2000Go). According to several authors, only the ultrasound visible hydrosalpinges would be responsible for the impaired implantation and pregnancy rates (Andersen et al., 1994Go; de Witt et al., 1998). The findings of some studies (Meyer et al., 1997Go), including this one, linked the possibly impaired endometrial receptivity by means of reduced expression of the {alpha}3 integrin to the presence of hydrosalpinx. Therefore, the evaluation of endometrial {alpha}3 integrin expression for the selection of salpingectomy candidates might be a promising alternative.

Since the transvaginal ultrasound was routinely employed in the pre-treatment evaluation of our patients, we were able to compare the influence of ultrasound visible and non-visible hydrosalpinges on endometrial integrin expression. Neither pre-treatment nor post-treatment integrin expression was different among cases with and without ultrasound visible hydrosalpinges. However, due to the limited number of cases in each group, the power is inadequate to reach strong conclusions as to whether ultrasound visibility of hydrosalpinx affects endometrial receptivity or not.

Ultrasound evaluation of hydrosalpinges has several potential limitations. A false negative interpretation is possible due to intermittent intrauterine drainage and on the other hand, an unrecognized hydrosalpinx may be stimulated during ovulation induction (Schiller and Tsuchiyama, 1995Go). Sonographic evaluation may not provide substantial information regarding endometrial receptivity and a possible toxicity of hydrosalpinx fluid, the latter of which is in fact a dilemma.

Mukherjee et al. reported embryotoxic effects of hydrosalpinx fluid on murine embryogenesis and suggested prophylactic salpingectomy (Mukherjee et al. 1996Go). However, several subsequent studies in mouse models failed to show obvious embryotoxicity (Beyler et al., 1997Go; Murray et al., 1997Go; Koong et al., 1998Go; Spandorfer et al., 1999Go). In addition, hydrosalpinx fluid was not found to exertjyany major negative effects on in-vitro development of human embryos (Granot et al., 1998Go; Strandell et al., 1998Go).

We conclude that the surgical treatment of communicating hydrosalpinges improves endometrial receptivity as assessed by immunofluorescent {alpha}3 integrin staining. The initial impaired integrin expression and its improvement following salpingectomy is independent of the conventional histological dating of the endometrium. Therefore, women with communicating hydrosalpinges may undergo endometrial evaluation with the help of molecular markers of implantation, such as {alpha}3 integrin. This evaluation may be both decisive in determining the optimal management of cases, and used to assess the efficacy of the treatment. Finally, the expression of implantation markers should be correlated with implantation and clinical pregnancy rates in IVF–embryo transfer programs.


    Notes
 
3 To whom correspondence should be addressed at: Tezel sokak 8/10, Ayranci, Ankara 06550, Turkey.E-mail: obukulmez{at}hotmail.com Back


    References
 Top
 Abstract
 Introduction
 Materials and Methods
 Results
 Discussion
 References
 
Andersen, A.N., Yue, Z., Meng, F.J. et al. (1994) Low implantation rate after in-vitro fertilization in patients with hydrosalpinges diagnosed by ultrasonography. Hum. Reprod., 9, 1935–1938.[Abstract]

Beyler, S.A., James, K.P., Fritz, M.A. et al. (1997) Hydrosalpingeal fluid inhibits in-vitro embryonic development in a murine model. Hum. Reprod., 12, 2724–2728.[Abstract]

Budwit-Navotny, D.A., McCarty Sr, K.S., Cox, E.B. et al. (1986) Immunohystochemical analyses of estrogen receptor in endometrial adenocarcinoma using a monoclonal antibody. Cancer Res., 46, 5419–5425.[Abstract]

De Wit, W., Gowrising, C.J., Kuik, D.J. et al. (1998) Only hydrosalpinges visible on ultrasound are associated with reduced implantation and pregnancy rates after in-vitro fertilization. Hum. Reprod., 13, 1696–1701.[Abstract]

DiSaia, P.J. and Creasman W.T. (eds.) (1997) Clinical Gynecologic Oncology. Mosby-Year Book, Inc., Missouri, p. 113.

Edwards, R.G., Fishel, S.B., Cohen, J. et al. (1984) Factors influencing the success of in vitro fertilization alleviating human infertility. J. in Vitro Fertil. Embryo Transf., 1, 3–23.[Medline]

Granot, I., Dekel, N., Segal, I. et al. (1998) Is hydrosalpinx fluid cytotoxic? Hum. Reprod., 13, 1620–1624.[Abstract]

Kassabji, M., Sims, J.A., Butler, L. et al. (1994) Reduced pregnancy outcome in patients with unilateral or bilateral hydrosalpinx after in vitro fertilization. Eur. J. Obstet. Gynecol. Reprod. Biol., 56, 129–132.[ISI][Medline]

Katz, E., Akman, M.A., Damewood, M.D. et al. (1996) Deleterious effect of the presence of hydrosalpinx on implantation and pregnancy rates with in vitro fertilization. Fertil. Steril., 66, 122–125.[ISI][Medline]

Koong, M.K., Jun, J.H., Song, S.J. et al. (1998) A second look at the embryotoxicity of hydrosalpingeal fluid: an in-vitro assessment in a murine model. Hum. Reprod., 13, 2852–2856.[Abstract/Free Full Text]

Lessey, B.A., Damjanovich, L., Coutifaris, C. (1992) Integrin adhesion molecules in the human endometrium. J. Clin. Invest., 90, 188–195.[ISI][Medline]

Lessey, B.A., Castelbaum, A.J., Buck, C.A. et al. (1994a) Further characterization of endometrial integrins during the menstrual cycle and in pregnancy. Fertil. Steril., 62, 497–506.[ISI][Medline]

Lessey, B.A., Castelbaum, A.J., Riben, M. et al. (1994b) Effect of hydrosalpinges on markers of uterine receptivity and success in IVF (abstract). The 50th Annual Meeting of the American Society for Reproductive Medicine, San Antonio, TX, USA, p. 45.

Lessey, B.A., Castelbaum, A.J., and Sawin, S.J. (1994c) Aberrant integrin expression in the endometrium of women with endometriosis. J. Clin. Endocrinol. Metab., 79, 643–649.[Abstract]

Levy, M.J., Murray, D., and Sagoskin, A. (1996) The adverse effect of hydrosalpinges on IVF success rates are reversed equally well by salpingectomy, proximal tubal occlusion and neosalpingostomy. Presented at the meeting of the American Society for Reproductive Medicine, American Society for Reproductive Medicine, program supplement, p. 64.

Mansour, R.T., Aboulghar, M.A., Sevour, B. et al. (1991) Fluid accumulation of the uterine cavity before embryo transfer: a possible hindrance for implantation. J. in Vitro Fertil. Embryo Transf., 8, 157–159.[ISI][Medline]

Meyer, R.W., Castelbaum, A.J., Somkuti, S. et al. (1997) Hydrosalpinges adversely affect markers of endometrial receptivity. Hum. Reprod., 12, 1393–1398.[Abstract]

Mukherjee, T., Copperman, A.B., McCaffrey, C. et al. (1996) Hydrosalpinx fluid has embryotoxic effects on murine embryogenesis: a case for prophylactic salpingectomy. Fertil. Steril., 66, 851–853.[ISI][Medline]

Murray, C.A., Clarke, H.J., Tulandi, T. et al. (1997) Inhibitory effect of human hydrosalpingeal fluid on mouse preimplantation embryonic development is significantly reduced by the addition of lactate. Hum. Reprod., 12, 2504–2507.[Abstract]

Noyes, R.W., Hertig, A.T. and Rock, J. (1950) Dating the endometrial biopsy. Fertil. Steril., 1, 3–25.[ISI][Medline]

Puttemans, P., Campo, R., Gordts, S. et al. (2000) Hydrosalpinx and ART: hydrosalpinx-functional surgery or salpingectomy. Hum. Reprod., 15, 1427–1430.[Abstract/Free Full Text]

Schiller, V.L., and Tsuchiyama, K. (1995) Development of hydrosalpinx during ovulation induction. J. Ultrasound Med., 14, 799–803.[Abstract]

Spandorfer, S.D., Liu, H.C., Neuer, A. et al. (1999) The embryo toxicity of hydrosalpinx fluid is only apparent at high concentrations: an in vitro model that stimulates in vivo events. Fertil. Steril., 71, 619–626.[ISI][Medline]

Speroff, L., Glass, R.H. and Kase, N.G. (eds.) (1999) Clinical Gynecologic Endocrinology and Infertility. Lippincott Williams & Wilkins, Philadelphia, p. 583.

Strandell, A., Waldenstrom, U., Nilsson, L. et al. (1994) Hydrosalpinx reduces in-vitro fertilization/embryo transfer pregnancy rates. Hum. Reprod., 9, 861–863.[Abstract]

Strandell, A., Sjogren, A., Bentin-Ley, U. et al. (1998) Hydrosalpinx fluid does not adversely affect the normal development of human embryos and implantation in vitro. Hum. Reprod., 13, 2921–2925.[Abstract/Free Full Text]

Strandell, A., Lindhard, A., Waldenstrom, U. et al. (1999) Hydrosalpinx and IVF outcome: a prospective, randomized multicentre trial in Scandinavia on salpingectomy prior to IVF. Hum. Reprod., 14, 2762–2769.[Abstract/Free Full Text]

Tabibzadeh, S. (1992) Patterns of expression of integrin molecules in human endometrium throughout the menstrual cycle. Hum. Reprod., 7, 876–882.[Abstract]

Vandromme, J., Chasse, E., Lejeune, B. et al. (1995) Hydrosalpinges in in-vitro fertilization: an unfavourable prognostic feature. Hum. Reprod., 10, 576–579.[Abstract]

Vasquez, G., Boeckx, W., and Brosens, I. (1995) Prospective study of tubal mucosal lesions and fertility in hydrosalpinges. Hum. Reprod., 10, 1075–1078.[Abstract]

Westrom, L. (1980) Incidence, prevalence, and trends of acute pelvic inflammatory disease and its consequences in industrialized countries. Am. J. Obstet. Gynecol., 138, 880–892.[ISI][Medline]

World Health Organization (1992) WHO Laboratory manual for the examination of human semen and sperm–cervical mucus interaction 3rd edn. Cambridge University Press, Cambridge, UK.

Submitted on April 24, 2001; accepted on July 20, 2001.