Backgrounds of patients who received laparoscopy and salpingoscopy due to unexplained infertility.
Submitted: October 22nd, 2010 Published: August 23rd, 2011
From the Edited Volume
Edited by Atef Darwish
In the field of gynecology, infertility treatment in particular, laparoscopy continues to be the gold standard for the evaluation of mechanical factors affecting the fallopian tubes. However, it cannot be used to directly observe the inner cavity of the fallopian tube. The fallopian tube is more than a passive conduit for gametes and early embryos; it also plays an important role in many reproductive functions such as sperm transport and capacitation, oocyte retrieval and transport, fertilization, and embryo storage. However, there are no reports that relate pregnancy outcomes to conditions inside the fallopian tube. It is, therefore, very important to evaluate the conditions both inside and outside of the fallopian tube.
The fallopian tube is easily damaged by an ascending vaginal infection, or by a uterine infection such as Chlamydia. These types of damage result in impaired fallopian tube function, and subsequently cause mechanical factors that contribute to female subfertility (Mol et al., 1997). Hysterosalpingography (HSG) is the most common test used to evaluate the fallopian tube, due to its safety and low cost. Papaioannou et al. stated that HSG is a reliable test for the diagnosis of proximal and distal obstruction, hydrosalpix and peritubal adhesions (Papaioannou et al., 2007). A recent report indicated that laparoscopy was mandatory after abnormal HSG results in the work-up prior to the start of the infertility treatment (Tanahatoe, 2008), but it cannot be used to directly observe the inner cavity of the fallopian tube.
Salpingoscopy was originally performed during laparotomy for reconstructive tubal surgery to assess the mucosa of the infundibulium and ampulla. A flexible bronchoscope was initially used to improve the images obtained before the introduction of a dedicated, rigid salpingoscope (Papaioannou et al., 2007). Indeed, many clinicians performed salpingoscopy more than a decade ago, and reported abnormal results inside the fallopian tubes (Puttemans et al., 1987; Heylen et al., 1995; Surry & Surry, 1996; Marana et al., 1999; 2003; Marchino et al., 2001). They mainly focused on infertile patients with hydrosalpinges. They performed salpingoscopy during a laparoscopic procedure to repair hydrosalpinges and release patients’ tubes from them. One report described normal and abnormal mucosal folds inside fallopian tubes that were damaged by hydrosalpinges (Puttemans et al., 1987). Several reports mentioned results from inside fallopian tubes, but they only described the conditions inside of the fallopian tubes. Salpingoscopy requires special equipment and expertise, making it an expensive proposition. Its risk profile is comparable to laparoscopy, since it is performed simultaneously.
Marhino et al. reported that the prediction of infertility outcomes by laparoscopy could be improved by the concomitant performance of salpingoscopy (Marhino et al., 2001). However, there is no information concerning the accuracy, reliability, prognosis or effectiveness of the procedure. Several studies have reported pregnancy rates after laparoscopy for patients with infertility of unexplained etiology (Cundiff et al. 1995; Nakagawa et al., 2007). However, there are no reports that relate pregnancy outcomes to significant results found inside the fallopian tube. The fertilization between oocyte and sperm is thought to occur at the ampulla of the fallopian tube, and therefore conditions inside of the ampulla are very important. From this point of view, observations from inside the ampulla might be used to predict pregnancy potential.
Assisted reproductive technology (ART) has become a mainstream infertility treatment, but do all patients who received ART treatment need it? It is believed that a significant number of the patients who receive ART treatment have no need for it, but existing infertility screening examination place limitations on the selection of patients who do not need to receive ART treatment, because no examination to evaluate the fallopian tube without HSG is done. Therefore, a new index for evaluation of the fallopian tube is proposed here. In this chapter, the performance of both laparoscopy and salpingoscopy for evaluation of the pelvic cavity and fallopian tube is discussed, with particular attention to the following points:
evaluation of the pelvic cavity;
development of a new score for evaluation of the inside of the fallopian tubes (fallopian tube score; F score); and,
the relationship between the F score and pregnancy outcome.
Laparoscopy was performed under general anesthesia. A three-port laparoscopy was used with a 3 mm umbilical port for the scope and two additional 3-mm operating ports. A 3 mm laparoscope was inserted through an umbilical port and connected to a video monitor (Karl-Stortz, Germany). Pneumoperitoneum was established (8-10mmHg). Observation within the pelvic cavity, and complete adhesiolysis and mobilization of the tubes and ovaries was performed if necessary. Tubal patency was checked with indigocarmine. In addition to patency testing, the gross external appearance of the fallopian tube and fimbrial mucosa were assessed with this procedure as well as the presence of peritubal adhesions, pelvic adhesions or lesions of edometriosis, such as bluish spots or red spots. With abnormal results, adhesiolysis, electroablation or resection of endometriotic implants was undertaken to the extent possible. Periadnexal adhesions are one of the main causes of tubal infertility and have a negative impact on the ability to achieve pregnancy. Adhesiolysis and mobilization of the tubes and ovaries, which eliminated effects such as peritubal or salpingo-ovario adhesions, was performed if necessary to evaluate the correlation between salpingoscopic results and their relationship to reproductive outcomes.
After checking the patency of the bilateral tubes, a 2.9 mm salpingoscope (Karl-Stortz, Germany, Fig 1) was inserted through the right port under observational laparoscopy through the umbilical port, and the inner cavity of the fallopian tube was checked. It is particularly worth nothing that two endoscopes were used concurrently for laparoscopy and salpingoscopy, because it is quite difficult to insert a salpingosope into a fallopian tube with no other observation. An atraumatic grasping forceps was applied just behind the fimbriae to hold the tubal wall against the salpingoscope (Fig 2-a), while an infusion of distending saline water was instilled to open up the potential space of the tubal lumen (Nakagawa et al., 2010). A salpingoscope can observe mainly the ampullary portion of the fallopian tube (Fig 2-b).
We observed both the right and left tubal lumens with the salpingoscope, paying particular attention to the following six abnormal results:
loss of mucosal folds,
rounded edges of mucosal folds,
foreign bodies, and
We used an original classification system for the salpingoscopic results, based on Puttemans’ classification (Puttemans et al., 1987). The mucosa of the ampullary segment in normal cases consisted of three to five major folds with secondary folds arising from them, and several minor folds interspaced among them. Examples of normal mucosa are shown in Figure 3-a, and various abnormal results are shown in figure 3-b through 3-g. ‘Adhesions’ indicated adhesions and/or agglutinations between folds (Fig 3-b). ‘Loss of mucosal folds’ indicated
disseminated fold flat areas or a loss of the fold pattern of flattening folds (Fig 3-c). ‘Rounded edges of mucosal folds’ indicated the disappearance of the secondary folds (Fig 3-d). ‘Debris’ indicated mucus plugs, which were revealed by previous histological examination to consist of a cast of debris containing aggregates of histiocytic-like cells of an endometrial stromal or mesothelial origin (Kerin et al., 1991) (Fig 3-e). ‘Foreign bodies’ consisted of oily contrast agents used for HSG (Fig 3-f). ‘Abnormal vessels’ indicated irregularities of blood vessel diameters (Fig 3-g).
After salpingosopy the F score was calculated which was an original score used to evaluate the tubal lumen, expressed as the sum of the abnormal results listed above. Each abnormal result was given one point with a maximum F score of 12 points.
In the present study unexplained infertility was diagnosed using the following criteria:
the period of infertility was more than one year;
the patient’s normal menstrual cycle and ovulation was investigated by transvaginal ultrasonography, by estimation of serum progesterone concentrations in the mid-luteal phase;
the patient showed normal results for genital organs by ultrasonography, and the patency of at least one fallopian tube was confirmed by HSG;
the patient showed normal values in several hormone analyses (LH, FSH, PRL, E2, P);
the patient’s male partner had normal sperm results (WHO, 1992), and the post-coital test (PCT) was normal; and
the patient did not achieve pregnancy after more than 6 courses of timed intercourse or intrauterine insemination (IUI).
Patients who showed unilateral or bilateral hydrosalpinges or tubal obstruction were excluded, as were patients who had ovarian endometrioma(s) in either ovary. The sera of all patients were checked for anti-chlamydial antibodies before laparoscopy. A total of 227 infertile women who were diagnosed with unexplained infertility and underwent both laparoscopy and salpingoscopy at this clinic were recruited from April 2008 through October 2010 for the present study.
After receiving laparoscopy and salpingoscopy, the patients started infertility treatment as soon as possible, using timed intercourse or intrauterine insemination (IUI). Patients who were in need of ART treatment due to tubal damage were excluded from this evaluation. The patients recruited for the present study were diagnosed with unexplained infertility, and their tubal patency was confirmed by HSG prior to operation. Patients who showed uni- or bilateral hydrosalpinges or tubal obstruction and were in need of ART treatment were excluded from this evaluation, in order to focus on evaluation of the correlation between the salpingoscopic results and the reproductive outcomes. Clinical pregnancy was defined as the development of a gestational sac, as determined by transvaginal ultrasonography after ovulation. The relationship between the F scores and various clinical results and pregnancy rates was analyzed. Data were recorded as the mean ± S.D. or mean ± S.E.M, and were analyzed statistically using the chi- square test. P < 0.05 was considered to be statistically significant.
The backgrounds of the patients who underwent both laparoscopy and salpingostomy due to unexplained infertility are summarized in Table 1. The average age of the patients was 33.8 ± 0.3 years, and the mean duration of infertility was 38.6 ± 0.9 months. The percentage of nullipara was 70.8%, the percentage of patients with positive chlamydial antibodies was 26.4%, and the percentage who showed abnormal HSG results such as peritubal adhesions was 28.9% (table 2& 3).
The average F score was 0.9 ± 0.1, and they ranged from 0 to 7. The distribution of the F scores is shown in Figure 4. Slightly more than half (50.7%) of the patients received an F score of 0, and the percentages of patients who received 1, 2, 3 and 4 or more points were 17.2%, 13.2%, 5.3% and 12.8%, respectively.
|Number of patients||227|
|Average age (years)*||33.8 ± 0.2|
|Duration of infertility (months)*||38.6± 0.9|
|Percentage of nullipara (%)||70.8|
|Percentage of patients with positive chlamydial antibodies (%)||26.4|
|Percentage of patients with abnormal HSG (%)||28.9|
The average F score of nullipara patients was 1.0 ± 0.2. This was somewhat higher than the scores of patients who had a history of pregnancy (0.5 ± 0.2), but the difference was not statistically significant (Table 2). The average F score of patients with an abnormal HSG was similar to that of patients with normal HSG results (1.2 ± 0.4 and 0.8 ± 0.2, respectively; as shown in table 3). However, the average F score for patients who tested positive for chlamydial antibodies was 1.7 ± 0.4, which was significantly higher than that of patients who tested negative (0.6 ± 0.1, p=0.0003; table 4).
|Pregnancy history||P value|
|No gravidity||Pregnant before|
|F score||1.0 ± 0.2||0.5 ± 0.2||0.0945|
|F score||0.8 ± 0.2||1.2 ± 0.4||0.3287|
|Chlamydial antibodies||P value|
|F score||1.7 ± 0.4||0.6 ± 0.1||0.0003|
After evaluation, all patients (n=227) began infertility treatment, and after salpingoscopic evaluation none were in need of ART treatment due to tubal damage. Within a year using either timed intercourse or artificial insemination with the husband’s semen, 71 patients achieved pregnancy. The mean duration before achievement of pregnancy after surgery was 111.1 ± 1.2 days. The pregnancy rates of patients with F scores of 0, 1, 2, 3 and 4 or more were 35.9% (42/115), 33.3% (13/39), 33.3% (10/30), 16.7% (2/12), and 13.8% (4/29), respectively. The pregnancy rates for patients with lower F scores (F score ≤2) were significantly higher than the rates for patients with higher F scores (F score ≥3) (table 5, p<0.05).
|F score||Number of patients||Number of pregnant patients||Pregnancy rates (%)|
From April 2008 through February 2010, there were 94 infertile patients who had unilateral or bilateral endometrioma(s) recruited for the present study. All patients underwent laparoscopic ovarian cystectomy at the clinic. Patients with a history of gynecological operations, other ovarian masses, tubal obstruction or male infertility were excluded from this study. All patients showed regular menstrual cycles, and none of the women received exogenous gonadotropins or clomiphene citrate for ovarian stimulation during the study period. All endometriomas were diagnosed before surgery by magnetic resonance imaging and transvaginal ultrasound. The biaxial diameter of each endometrioma was measured by sonography, and the average was used as the endometrioma size. Informed consent was obtained from all patients and this study was approved by the Institutional Review Board of the Sugiyama Clinic.
An incision was made at the antimesenteric site of the cysts. The cyst was dissected from the ovary by traction and counter traction using a pair of 3 mm atraumatic grasping forceps. Bleeding from the stripped site was stopped by bipolar cauterization of the minimally required area for the shortest possible duration, to avoid thermal damage to the ovarian cortex. None of the operated ovaries were sutured. Tubal patency was checked with indigo carmine. The pelvic cavity was checked for the presence of peritubal and pelvic adhesions and endometriotic lesions, e.g., blue or red spots. Adhesiolysis, electro-ablation, or resection of endometriotic lesions was performed to the extent that these procedures were possible.
After this procedure, salpingoscopic evaluation of the bilateral fallopian tubes was performed as described above. The F scores and several clinical results of these patients (EM group) were compared to those of the unexplained infertility patients who received both laparoscopy and salpingoscopy during the same period (n=133; control group).
The average F score was 0.3 ± 0.1, with a range of 0 to 4, and was significantly lower than that of the control group (0.8 ± 0.2, p<0.01). The distribution of the F scores is shown in Figure 5. About three-fourths (77.6%) of the patients in the EM group received F scores of 0,
and the percentages of patients who received 1, 2, and 3 or more points were 14.9%, 6.4%, and 1.0%, respectively. The percentage of the patients with F scores of 0 in the EM group was significantly lower than that of the patients in the control group (79/133=59.4%, p<0.05).
After laparoscopic cystectomy and salpingoscopy, all patients (n=94) in the EM group began infertility treatment, and 27 patients achieved pregnancy using either timed intercourse or artificial insemination with the husband’s semen within 1 year (pregnancy rate= 28.7%). This rate was comparable to that in the control group (46/133=34.6%). In the EM group, the pregnancy rates of patients with F scores of 0, 1, 2 and 3 or more were 21.4% (24/73), 14.9% (3/14), 0% and 0%, respectively. In the control group, the pregnancy rates of patients with F scores of 0, 1, 2 and 3 or more were 36.7% (29/79), 35.7% (10/28), 28.5% (4/14), and 37.5%3 (3/8), respectively (Table 6). The pregnancy rate of patients with F scores of 0 in the EM group was comparable to that in the control group. However, among the patients with F scores of 1, the pregnancy rate in the EM group was significantly lower than that in the control group (p<0.05; Table 6).
|F score||EM group||Control|
|0||21.4% (24/73)||36.7% (29/79)||n.s.|
|1||14.9% (3/14)||35.7% (10/28)||P<0.05|
Based on these results, it is highly possibe that infertility patients with ovarian endometrioma are more likely to have intact fallopian tubes, compared to infertility patients without ovarian endometrioma. Therefore, ovarian endometrioma itself could be one of the main causes of endometriosis-related infertility, and if these patients have abnormal results inside their fallopian tubes, they should receive ART treatment instead of conventional treatment.
From April 2008 through February 2010, 38 infertile patients with a diagnosis of uni- or bilateral hydrosalpinges were examined by salpingoscopy at the time of resconstructive surgery under laparoscopy. The translaparoscopic salpingoscopy procedure described above was used. Following mobilization of the hydrosalpinx, the tube was opened by a small incision at the site where the scar of the occlusion could be identified. When intact fimbria was confirmed, it was inverted to the outside to prevent it from closing inside, and stitched with thin thread. Bleeding was controlled by endothermic coagulation. A 2.9-mm salpingoscope was used.
After this procedure, salpingoscopic evaluation of the bilateral fallopian tubes was performed as described above. The F scores and several clinical results of these patients (hydro-s group) were compared to those of the patients with unexplained infertility who received both laparoscopy and salpingoscopy during the same period (n=133; control group).
The average F score was 3.4 ± 0.4, with a range of 0 to 10, and this average was significantly higher than that of the control group (0.8 ± 0.2, p<0.01). The distribution of F scores is shown in Figure 6. Only about one- fifth (21.1%) of the patients in the hydro-s group received an F score of 0, and the percentages of patients who showed 1, 2, 3, 4, and 5 or more points were 13.2%, 7.9%, 13.2%, 13.2%, and 31.4%, respectively. The percentage of patients with F scores of 0 was significantly higher in the hydro-s group than in the control group (79/133=59.4%, p<0.05). Surprisingly, about one- third of the patients in the hydro-s group received a high F score.
After laparoscopic reconstructive surgery for hydrosalpinges and salpingoscopy, all patients (n=38) in the hydro-s group began infertility treatment, but only 6 patients achieved pregnancy using either timed intercourse or artificial insemination from the husband’s semen within one year (pregnancy rate=15.8%). This rate was significantly lower than that in the control group (46/133=34.6%). The pregnancy rates of patients with F scores of 0, 1, 2, 3, 4, and 5 or more were 12.5% (1/8), 20.0% (1/5), 33.3% (1/3), 20.0% (2/5), 0%, 8.3% (1/12), respectively. In the control group, the rates for patients with F scores of 0, 1, 2, and 3 or more were 36.7% (29/79), 35.7% (10/28), 28.5% (4/14), and 3/8 (37.5%), respectively (Table 7). In the hydro-s group, 4 additional patients achieved pregnancy using ART treatment, and a total of 10 patients achieved pregnancy (pregnancy rate=26.3%). However, in the control group an additional 16 patients achieved pregnancy using ART treatment, and a total of 62 patients achieved pregnancy (pregnancy rate=46.6%).
|F score||Hydro-s group||Control|
|0||12.5% (1/8)||36.7% (29/79)||n.s.|
|1||20.0% (1/5)||35.7% (10/28)||n.s.|
|2||33.3% (1/3)||28.5% (4/14)||n.s.|
|≥3||13.6% (3/22)||37.5% (3/8)||n.s.|
Predictions of fertility outcome by laparoscopy can be improved by the concomitant performance of salpingoscopy (Marchino et al., 2001). The two tests probably complement rather than substitute for one another. Salpingoscopy was the first tubal assessment test that to disclose a new world of detailed
However, although the presence of ampullary mucosal adhesions has been reported to negatively affect fertility and increase the risk of ectopic pregnancy, mucosal adhesions are not incompatible with normal fertility (Maguiness & Djahanbakhch., 1992) and, unless the damage is severe, there is a poor correlation with histological assessment (Hershlag et al., 1991). Therefore, not enough is known about these lesions, and salpingoscopy remains a research tool.
Essential phenomena of the beginning of life, such as the meeting of between male and female gametes, fertilization, and development, occur inside the fallopian tube. Although in this era ART is the most popular infertility treatment, it is very important and meaningful to focus attention on the results found inside the fallopian tube. According to the data reported here, most of the patients who showed no abnormal results in their pelvic cavity and adnexa could not get pregnant by timed intercourse or IUI when they received high F scores. However, the patients who had no significant results in the fallopian tubes even if significant results were found in the pelvic cavity such as ovarian endometrioma or hydrosalpinges, could expect to achieve pregnancy without using ART treatment. These results indicate that it is very important to focus on conditions inside the fallopian tubes, and the F score might be useful for prediction of the prognosis of infertility treatments andfor treatment selection decisions.
Submitted: October 22nd, 2010 Published: August 23rd, 2011
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