Panacea Journal of Medical Sciences 2020;10(3):276–281

 

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Panacea Journal of Medical Sciences

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Original Research Article

Diagnostic accuracy of hysterosalpingography in comparison to laparoscopy to
detect tubal occlusion in female infertility: An observational study

Subrata Das1,*, Ajit R Bhattacharyya2

1Dept. of Obstetrics & Gynaecology, ESI PGI MSR & ESIC Medical College and ESIC Hospital & ODC (EZ), Kolkata, West
Bengal, India
2Dept. of Obstetrics & Gynaecology, R G Kar Medical College and Hospital, Kolkata, West Bengal, India

A R T I C L E I N F O

Article history:
Received 07-08-2020
Accepted 03-09-2020
Available online 29-12-2020

Keywords:
Infertility
Hysterosalpingography
Laparoscopy
Chromopertubation

A B S T R A C T

Background: An accurate diagnosis of tubal occlusion is a crucial part of infertility management of women
for which Hysterosalpingography is an integral part for this purpose.
Objective: The study is designed to find out tubal occlusion by hysterosalpingography (HSG) and
comparing the findings with diagnostic laparoscopy with chromopertubation (laparoscopy) by determining
validity and agreement of findings in the study group.
Materials and Methods : In this observational study, one hundred and ninety-seven women with infertility
were recruited from an infertility clinic of a tertiary care hospital of West Bengal, in between April 2018 and
March 2020, i.e. 24 months’ period. Women, who were exposed to both of the investigations i.e. HSG and
laparoscopy tests, were our study subjects. HSG findings were compared with the findings of laparoscopy
to detect tubal occlusion by analyzing sensitivity, specificity, positive predictive value, negative predictive
value and kappa.
Results: We found mean age of women with primary infertility (66%) was 27.23 years and with secondary
infertility (34%) was 32.02 years. The sensitivity, specificity, positive predictive value, negative predictive
value and accuracy of HSG in comparison to laparoscopy to detect tubal occlusion were 80.85%, 74%,
49.35%, 92.5% and 75.63% respectively. Findings showed statistically significant (p<0.05) detection of
tubal occlusion by HSG in comparison to findings of laparoscopy. Here tubal factor denotes any form of
tubal obstruction i.e. unilateral or bilateral.
Conclusion: This study provides strong supportive evidence to utilise HSG as a screening test for
diagnosing tubal occlusion in infertility work up with high accuracy, especially in low resourceful area
of rural India.

© This is an open access article distributed under the terms of the Creative Commons Attribution
License (https://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and
reproduction in any medium, provided the original author and source are credited.

1. Introduction

Infertility is a disease of couples due to failure to
achieve clinical pregnancy even after 12 months of regular
unprotected intercourse. 1 It may be primary or secondary. In
primary infertility clinical pregnancy was never documented
and secondary infertility refer to a couple where there
was documented clinical pregnancy but failed to conceive
subsequently.

* Corresponding author.
E-mail address: drsubrata02@gmail.com (S. Das).

In the last decade, increasing trend of infertility 2,3

was seen in global population, 4 almost 10-15% couple 4,5

needed infertility related advice. Increased trends of
infertility mostly due to delayed marriage with delayed
child bearing, increased prevalence of sexually transmitted
disease and preponderance of pelvic endometriosis.

Other than anovulation, tubal factor is the major
contributing factor (20-30%) 3 for female infertility. 2,6

Hysterosalpingography (HSG) was used as a screening
test to detect infertility from tubal occlusion. 5 The test
is noninvasive, economical and less expertise is needed

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Das and Bhattacharyya / Panacea Journal of Medical Sciences 2020;10(3):276–281 277

but with the risk of exposure of patients to radiation and
iodinated contrast medium. It is an outpatient department
procedure; 7 patients are less relaxed as sedation or
anesthesia is not used during the procedure. Presence of
‘cornual spasm’ at the level of interstitial part of tube
sometimes is evident as tubal occlusion, which could lead
to false positive result. 8

Laparoscopic chromopertubation is a gold standard
test for confirmation of tubal blockage. 3,8 Laparoscopy
was carried out in cases of tubal occlusion detected by
HSG and/or where patients failed to conceive even after
reasonable period of six months wait following tubal
patency confirmed by HSG. But laparoscopy is invasive,
costly, associated with surgical risk and training required
to perform and interpret. Hence, objective of our study to
analyze validity and relation of findings of hysteroscopy
with reference standard test e.g. laparoscopy 9 is to detect
tubal occlusions in women with infertility.

2. Materials and Methods

It is a retrospective observational study performed from
April 2018 to March 2020. A total of one hundred and
ninety-seven women who have infertility were enrolled
from an infertility clinic of a tertiary care hospital.
The Institutional Ethics Committee approved the study,
and the study was performed in accordance with its
recommendations and that of Helsinki Declaration of 1975
that was revised in 2000. All women participating in this
study gave a written informed consent.

2.1. Inclusion criteria

Women in between 21 and 40 years’ age with either
primary or secondary infertility and who were subjected
to both investigation i.e. hysterosalpingography (HSG)
and laparoscopy were selected for study. Every woman
underwent detailed examination and investigations to detect
the cause of infertility. Women with normal hormone profile
i.e. thyroid stimulating hormone (TSH), follicle stimulating
hormone (FSH) and anti-mullerian hormone (AMH) and
normal semen analysis of husband were included as a study
subject.

2.2. Exclusion criteria

Prior history of ectopic pregnancy, pelvic inflammatory
disease or history of pelvic endometriosis or uterine
anomalies were excluded from the study. Women who had
uterine myoma of more than 5 cm or non-functional ovarian
cyst, detected by pelvic ultrasonography during infertility
work up, were also excluded from study. (Figure 1)

In this study, one hundred and ninety-seven women were
evaluated by hysteroscopy and followed by laparoscopy.
Hysterosalpingography was done in the proliferative
phase in between 7th and 10th day of menstruation

in the department of radiology. Pregnancy test was
performed in patients with grossly irregular menstrual
cycle or amenorrhea before the procedures and such tests
resulted in negative test result. Hysterosalpingography
was performed in dorsal lithotomy position after taking
antiseptic precautions. Water soluble radio opaque dye was
introduced after holding cervix with tenaculum and cannula
introduced just beyond the internal os. Under fluoroscopic
guidance anterior-posterior skiagrams were obtained during
the phase of uterine cavity filling and subsequently to
watch for the tubal patency, tubal lumen and free spillage
within the peritoneal cavity. Delayed skiagram was also
obtained. Presence of spillage in peritoneal cavity on either
or both sides, denotes as patent fallopian tube. Absence of
spillage and presence of obstruction within uterine cavity or
irrespective of site of obstruction within the fallopian tube
was recorded as tubal block on respective sides. But for
the purpose of study it is grouped as unilateral and bilateral
tubal obstruction or patent tube. Any space occupying lesion
detected within the uterine cavity or ballooning of tube due
to hydro salpinx was recorded for treatment purpose but was
not included as it was beyond the scope of the study.

Laparoscopy with chromopertubation was done on those
women who did not conceive within six months after
Hysterosalpingography or unilateral or bilateral tubal block
was detected in Hysterosalpingography, were included in
the study.

After pre-operative evaluation, patients were put under
general anesthesia at operation theatre. A small 2-3 cm
incision at supra umbilical and another 2 cm incision
at right or left side of lower abdomen were given for
introduction of 10 mm laparoscope and hand instrument
respectively. Diluted Methylene blue solution of 15 ml was
introduced slowly through cervix after placement of cannula
beyond internal os. The Passage of blue coloured solution
of methylene blue from the fimbriae end of fallopian
tube was marked as patent fallopian tube. In absence of
passage of Methylene blue solution in one or both tubal end
was denoted as unilateral or bilateral tubal block. During
laparoscopy, presence of endometriosis, peritubal adhesion
and distorted pelvic anatomy was seen in few patients and
documented for treatment purpose but such data was not
included as it was beyond our scope of study.

Following prognostic factors, we considered during
collection of data i.e. age and type of subfertility (i.e.
Primary or secondary). We followed the guideline that was
reported by Deville WL et al 10 in their diagnostic trial
of meta-analysis. Here we considered two outcomes by
hysterosalpingography and by laparoscopy, i.e. unilateral
and bilateral occlusion of tube as a single group of tubal
occlusion is considered as positive findings and patency
found in both the is tube considered as negative finding.
Test error was defined whenever hysterosalpingography
detect tubal occlusion (i.e. positive finding) but patency of



278 Das and Bhattacharyya / Panacea Journal of Medical Sciences 2020;10(3):276–281

both tube (i.e. negative finding) was found by reference
standard test i.e. laparoscopy, was considered as false
negative result. False positive results were cases in which
the hysterosalpingography results were positive for tubal
occlusion but in the reference standard test (laparoscopy)
result showed patency of both tube present (negative result).

For considering tubal obstruction of both i.e.
unilateral and bilateral obstruction in a single group,
we compared the group with patency of tube in between
hysterosalpingography and Laparoscopic findings. Here we
used two by two table for calculating sensitivity, specificity,
positive predictive value and negative predictive value and
accuracy. To compare the findings of hysterosalpingography
with laparoscopy, 2x2 table was constructed and findings
were measured at 95% confidence level and Pearson’s
Chi-Squared test was used to see the significance level
where p <0.05. For descriptive statistics and student T test
was used for parametric data and Pearson’s Chi-Squared
test was used to measure for non-parametric data. For
statistical analysis we used IBM SPSS v24 software.

3. Results

Out of one hundred and ninety-seven women with Infertility,
one hundred thirties were presented with primary infertility
and sixty-seven were presented with secondary infertility.

According to age both types of infertility were divided
into four group of ages i.e. 21-25 years, 26-30 years, 31-35
years and 36-40 years. The age group of 21-25 years was+
the most common age group of presentation of primary
infertility with mean age of 27.23±4.26 years. The most
common age of presentation for secondary infertility was
31-35 years with mean age of 32.03±4.17years. (Table 1)

The age distribution according to findings of
hysterosalpingography and laparoscopy were found
significant (p value<0.05). (Tables 2 and 3)

Patent tube was found in one hundred and eleven
women by both hysterosalpingography and laparoscopy
(Table 4Figure 2).

In hysterosalpingography findings, all types of tubal
blockage were compared with findings of laparoscopy. Here
tubal block was defined as both unilateral and bilateral
tubal occlusions. In the analysis of study over all sensitivity,
specificity, positive predictive value, negative predictive
value and accuracy were 80.85%, 74%, 49.35%, 92.5%
and 75.63% respectably and findings were significant (i.e.
p value <0.05). The weighted k-statistic was 0.45 (95%
Cl 0.32-0.57), which indicate moderate agreement beyond
chance between the test result of Hysterosalpingography
and laparoscopy. We found that the likelihood ratio of
Hysterosalpingography for positive test result to detect tubal
occlusion was 3.11 (95% Cl 2.30 to 4.21) and negative
likelihood ratio for negative test result was 0.26 (95% Cl
0.14 to 0.47).

Fig. 1: Flow chart of cases included in the study.

Fig. 2: Distribution of HSG and Laparoscopy findings.



Das and Bhattacharyya / Panacea Journal of Medical Sciences 2020;10(3):276–281 279

Table 1: Distribution of women according to infertility type and age

Age groups
Primary Infertility Secondary Infertility

No. Percentage Mean age No. Percentage Mean±SD
21-25 63 32

27.23±4.26

4 2

32.03±4.17
26-30 35 17.8 22 11.2
31-35 21 10.6 24 12.2
36-40 11 5.6 17 8.6
Total (n=197) 130 66 67 34

Table 2: Distribution of women according to HSG test and Age group
Age

Total
21-25yrs 26-30yrs 31-35yrs 36-40yrs

HSG
(Screening
Diagnosis)

Patent 49 33 23 15 120
Blocked (Unilateral +
bilateral)

18 24 22 13 77

Total 67 57 45 28 197

□2 = 5.3769, df=1, p=0.0204

Table 3: Distribution of women according to Laparoscopy and Age group
Age

Total
21-25yrs 26-30yrs 31-35yrs 36-40yrs

HSG
(Screening
Diagnosis)

Patent 64 39 26 21 150
Blocked (Unilateral +
bilateral)

3 18 19 7 47

67 57 45 28 197

□2 = 12.0906, df=1, p= 0.0005

Table 4: Tubal factor detected by HSG was compared to the tubal factor detected by Laparoscopy
Tubal status at HSG and Laparoscopy No. of women with infertility
HSG patent, Laparoscopy patent 111
HSG unilateral block, Laparoscopy patent 18
HSG bilateral block, Laparoscopy patent 21
HSG patent, Laparoscopy unilateral block 6
HSG Unilateral block, Laparoscopy Unilateral block 7
HSG Bilateral block, Laparoscopy unilateral block 10
HSG Patent, Laparoscopy bilateral block 3
HSG Unilateral block, Laparoscopy bilateral block 4
HSG bilateral block, Laparoscopy bilateral block 17
Total patient (N) 197

Table 5: Accuracy of HSG in predicting Tubal factors of Infertility
HSG
Findings of
Fallopian
tubes

Laparoscopy Findings of
Fallopian tubes

Validity of HSG to diagnose Infertility from Tubal factor

Tubal block
(Unilateral and

bilateral)

Patent
Tube

Total Sensitivity Specificity Positive
predictive

value

Negative
predictive

value

Accuracy

Tubal block
(Unilateral
and bilateral

38 39 77
80.85% 74% 49.35% 92.5% 75.63%

Patent Tube 9 111 120
Total 47 150 197

□2 = 10.564, df=1, p=.00012



280 Das and Bhattacharyya / Panacea Journal of Medical Sciences 2020;10(3):276–281

Table 6: Comparison of findings of present study with study of others authors.

Principle Author Year Size of Sample
Types of Infertility
Primary Secondary

Moghissi KS et al. 11 1975 132 66% 34%
Ikechebelu JI et al. 12 2010 57 52.63% 47.37%
Khetmalas et al. 8 2016 114 58.8% 41.2%
Singh S. et al. 13 2019 100 68% 32%
In our study 2020 197 66% 34%

Table 7: Comparison of HSG finding of present study with the study by other authors.

Principle
Author Year Sample size

HSG
Sensitivity Specificity PPV NPV

Sakar MN et
al. 14

2008 82 63% 89.3% 92% 55%

Gandotra et
al. 15

2015 30 90.91% 77.78% 83.33% 87.50%

Rizvi SM et
al. 2

2016 60 90.1 77.78 83.33 87.50

In our study 2020 197 80.85% 74% 49.35% 92.5%

4. Discussion

In this observational study, it was found that both
investigations i.e. Hysterosalpingography and diagnostic
laparoscopy could diagnose tubal occlusion effectively. But
hysterosalpingography is less costly, devoid of any major
risk and can be incorporated with other investigations
of infertility in outdoor settings and is also free from
surgical and anesthetic risks. Laparoscopy has higher degree
of specificity and is considered as reference standard to
confirm the diagnosis of tubal occlusion in the women with
infertility.

As an investigator, we compared our study with the
studies of other authors. In our study primary and secondary
infertility were 66% and 34% respectably. Similar finding
was found in the study performed by Moghissi KS et al. 11

and Singh S. et al. 13 Their sample size was one hundred and
thirty-two and one hundred respectively i.e. A little smaller
than our sample size. (Table 6)

The study by Choudhary A at al 16 had reported that
26-30 years was the most common presenting age (38%)
with mean age were 28.40 ± 6.73 at their study, and in our
study mean age of primary and secondary infertility were
27.23±4.26 and 32.03±4.17 respectively.

In our study, most of the women (32%) was from 21-25
years. The most commonly (32%) affected age of primary
infertility was 21-25 years. The women with secondary
infertility was most common (12.2%) in 31-35 years’ age
followed by 11.2%, 8.6% and 2% of women with secondary
infertility were in 26-30 years, 36-40 years and 21-25 years’
age respectably in the study. Our findings were very close to
the reported study of Choudhary A at al. 5

The sensitivity, specificity, positive predictive value
and negative predictive value were 80.85%, 74%, 49.35%
and 92.5% respectably in the study to detect tubal

occlusion by hysterosalpingography. The compared findings
were significant (i.e. p value <.05) to detect tubal
occlusion by hysterosalpingography. Our findings of
hysterosalpingography were compared with laparoscopic
findings by Rizvi SM et al. 2 and Gandotra et al. 15

Rizvi SM et al. 2 and Gandotra et al. 15 in their study
sensitivity, specificity, positive predictive value (PPV) and
negative predictive value (NPV) reported as 90.1%, 77.78%,
83.33%, 87.50% and 90.91%, 77.78%, 83.33%, 87.50%
respectively. The positive likelihood ratio for positive test
was 3.11(95% Cl 2.30-4.21) and negative likelihood ratio
for negative test was 0.26 (95% Cl 0.14-0.47). In my study
sensitivity of hysterosalpingography was less, which might
be due to stringent criteria adopted by radiologist and bigger
sample size, but the other values were quite similar to our
study. (Table 7)

In our study weighted k-static was 0.45 (95% Cl
0.32-0.57), indicating moderate agreement beyond chances
between hysterosalpingography and laparoscopy. In a
similar study conducted by Mol BJM 9 et al found weighted
k-static value was 0.42 (95% Cl 0.37-0.48), showed
moderate agreement between hysterosalpingography and
laparoscopy beyond chances. Their finding was closely
similar with our findings. Study reported by Goynumer
G. et al 17 found sensitivity, specificity, positive predictive
value, negative predictive value, positive likelihood ratio
and negative likelihood ratio of hysterosalpingography were
0.80, 0.75, 0.91, 0.55, 3.21 and 0.26 respectively at 95%
confidence level.

From hysterosalpingography and laparoscopy
investigations, we tried to know the tubal occlusion of
women with infertility. Some other additional important
results may be gained from these diagnostic investigations,
that was relevant to know the other aetiological factor



Das and Bhattacharyya / Panacea Journal of Medical Sciences 2020;10(3):276–281 281

of infertility, but we did not tabulate such findings here,
as it was beyond the scope of our study. Laparoscopy
is an accurate predictor of intra-abdominal pathologies
i.e. peritubular adhesions, endometriosis 14 and pelvic
inflammatory disease which cannot be detected by
using hysterosalpingography alone. On the other side
hysterosalpingography is more appropriate to detect intra
uterine anatomy and intra luminal pathology, specially in
low resource areas and rural population.

Limitation of our study includes, possibility of inter-
observer variability of hysterosalpingography results, as
more than one radiologist interpreted. The time gap of
six months between hysterosalpingography and laparoscopy
may have contributed some bias also. Reporting was not
real-time hysterosalpingography and not observing dynamic
nature of gradual filling and spillage of tube by radiopaque
medium but was interpreted as time-shot from skiagram.

It can be concluded, that although there was
some constrains in our study but reliability of
hysterosalpingography as screening test has seen proved
from our analysis. An inference can be drawn that
hysterosalpingography can be a suitable alternative to
reference standard test laparoscopy in the investigations for
evaluation of infertility.

5. Conclusion

It can be concluded that hysterosalpingography is non-
invasive, economical with high degree of sensitivity and
can be incorporated as screening test during involution of
infertility. Due to low specificity of hysterosalpingography,
laparoscopy is needed for confirmation of tubal occlusion.
Hysterosalpingography detect intraluminal disease and
laparoscopy detect extra-luminal disease by the direct
vision into pelvis. Both findings are required for
appropriate therapy formulation. Hysterosalpingography
and laparoscopy can be considered as complementary to one
another rather than substitute.

6. Authors’ contributions

The author exclusively contributed this work and have read
and approved the final manuscript.

7. Source of Funding

No financial support was received for the work within this
manuscript.

8. Conflict of Interest

The authors declare they have no conflict of interest.

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Author biography

Subrata Das, Associate Professor

Ajit R Bhattacharyya, Professor

Cite this article: Das S, Bhattacharyya AR. Diagnostic accuracy of
hysterosalpingography in comparison to laparoscopy to detect tubal
occlusion in female infertility: An observational study. Panacea J Med
Sci 2020;10(3):276-281.

http://dx.doi.org/10.18103/mra.v5i6.1297
http://dx.doi.org/10.21276/aimdr.2016.2.4.43
http://dx.doi.org/10.5455/jrmds.2015349
http://dx.doi.org/10.18203/2320-1770.ijrcog20174626
http://dx.doi.org/10.3329/bmjk.v46i1-2.18234
http://dx.doi.org/10.18311/mvpjms/2016/v3/i1/722
http://dx.doi.org/10.1186/1471-2288-2-9
http://dx.doi.org/10.1016/s0015-0282(16)41531-1
http://dx.doi.org/10.18535/jmscr/v3i10.46
http://dx.doi.org/10.18203/2320-1770.ijrcog20181926
http://dx.doi.org/10.18203/2320-1770.ijrcog20181926

	Introduction
	Materials and Methods
	Inclusion criteria
	Exclusion criteria

	Results
	Discussion
	Conclusion
	Authors' contributions
	Source of Funding
	Conflict of Interest