Destruction of the endometrium due to trauma to the basal layer of endometrium may cause intra uterine adhesions, known as Asherman's syndrome (AS). There are various types of imaging method for diagnosis of the intra uterine adhesion such as hysterosalpingography, sonohysterography, ultrasonography, and hysteroscopy which is considered as the gold standard approach. Hysterosalpingogram may suggest the presence of intrauterine adhesions, and may reveal the extent of the scar formation. Knowing different images in each technique is helpful in detection of intra uterine adhesion.
Destruction of the endometrium due to trauma to the basal layer of endometrium may cause intra uterine adhesions, known as Asherman's syndrome (AS). There are various types of imaging method for diagnosis of the intra uterine adhesion such as hysterosalpingography, sonohysterography, ultrasonography, and hysteroscopy which is considered as the gold standard approach. Hysterosalpingogram may suggest the presence of intrauterine adhesions, and may reveal the extent of the scar formation. Knowing different images in each technique is helpful in detection of intra uterine adhesion.
Asherman’s syndrome (AS) was first described
by Heinrich Fritsch in 1894 (1), then it was further
characterized by a gynecologist, Joseph Asherman, in 1950 (2). This acquired uterine condition
is characterized with a wide range of partial adhesions (occurring in some part of the uterus) to complete adhesion (front and back walls of the uterus
stick to one another) within the uterine cavity due
to scars. It is also termed as follows: uterine synechiae, intrauterine adhesions (IUA), uterine/cervical atresia, traumatic uterine atrophy and sclerotic
endometrioma (3).Trauma to the basal layer due to dilation and
curettage (D&C), after a miscarriage, delivery
and medical abortion are the most common predisposing factors for AS (4). Other factors causing this condition are as follows: pelvic surgery
such as cesarean section and myomectomy, intra uterine devices (IUDs), pelvic infection such
as schistosomiasis and genital tuberculosis, as
well as after mullerian anomalies surgery (5).
Infection even in low-grade or subclinical case
is always associated with scarring (6). About
40% of patients undergoing repeated D&C for
retaining products of conception after missed
abortion or retaining placenta (7, 8), and 25%
of D&Cs which is performed within 1-4 weeks
post-partum (9, 10) develop the risk of AS.
Some studies have reported that the risk of AS
is 16% after one D&C, while it is 32% after
three or more D&Cs (11).There are various classification systems to describe AS. Classification systems have been developed to describe the location and severity of
adhesions inside the uterus. For instance, mild
cases with adhesions restricted to the cervix may
present with amenorrhea and infertility, it shows
that symptoms alone do not indicate the severity
of condition.Early diagnosis and appropriate treatment by
the removal of adhesion improve reproductive
outcome of infertilewomen and resolve abnormal
uterine bleeding (AUB) complications. According
to the American Society of Reproductive Medicine (ASRM), the type and severity of the adhesions correlates with the two following reproductive outcomes: i. After removing mild to moderate
uterine adhesions, patient has 70 to 80% full-term
pregnancy success rates, while normal menstruation is restored in over 90% of patients (12, 13),
ii. If the intrauterine adhesions are severe or cause
extensive damage to the endometrial lining, fullterm pregnancy success rates are only 20 to 40%
after treatment.The objective of this pictorial essay is to depict
various appearance of intrauterine adhesion which
is taken by hysterosalpingography.
Discussion
In AS, destruction of endometrium causes scar
in the endometrium, followed by rapid expansion
of scar tissue band or synechiae within the uterine
cavity. Scarring may be minor, affecting a small
area of the uterine wall, or be extensive with diffuse involvement and obliteration of the uterine
cavity. Synechiae may be found anywhere in the
uterine cavity. They can also involve adjacent
structures, causing stenosis of tubal ostia in the
corneal region or stenosis of the endocervical canal near the internal cervical canal (14).Symptoms related to AS are as follows: infertility, recurrent pregnancy loss, menstrual irregularity specially amenorrhea, as well as cyclic pelvic
pain, indicating that mensturation is occurring, but
the blood cannot exit the uterus because the cervix
is blocked by adhesions.The American Fertility Society (AFS) classifies
intrauterine synechia involvement by applying the
combination of hysterosalpingographic, hysteroscopic and menstrual changes (10, 14) as follows:
i. mild (adhesion involving one-fourth of uterine
cavity), ii. moderate (adhesion involving one–half
of uterine cavity), and iii. severe (adhesion involving three-fourths or more of uterine cavity).
Furthermore, the stage of disease is determined
by the extent of the endometrial cavity involved
(adhesions throughout the uterus or just in a small
area), the type of adhesions (filmy or dense) and
the menstrual pattern.AS is identified through application of the following techniques: two dimensional ultrasonography (2DUS) and 3DUS trans vaginal sonography
(TVS), hystrosonography, hysterosalpingography
(HSG), as well as hysteroscopy.Hysteroscopy is the gold standard for the diagnosis of severe intrauterine adhesions (15). The
result of Soares et al. study revealed that sonohysterography and HSG had a sensitivity of 75% in
the detection of intrauterine adhesions and respective positive predictor values (PPVs) of 42.9 and
50% (16).Figure 1 shows an ultrasound scan of a patient
with AS showing a mixed picture of the endometrial line; however, the line in some parts cannot be
visualized, while in other parts, the endometrium
appears normal. Other appearances are adhesions,
which are observed as endometrial irregularities
(17). Intrauterine adhesions (IUA) appear either
as eccentric echogenic or as calcificated areas in
ultrasound. Endometrial thickness may be with or
without focal multi cystic. If the canal is completely obliterated, there is an absent endometrial stripe
in ultrasound (US) finding (4).Ultrasound shows irregular endometrial contour
with typical adhesion appearnace.Three dimensional ultrasound (3DUS) is a
good supplement to TVS which only obtains
images in two planes. The third plane can depict
the extent and location of synechiae, more thoroughly (4).phy findings, there may be
echogenic bands traversing distended endometrial
canal extending side to side of uterine wall. Distention of uterine cavity with saline infusion may
be done hardly (Fig 2).
Fig 2
In sonohysterography there are echogenic fibrotic
bands, distended endometrium side to side wall of the uterus
and superior to inferior in sagital and coronal plane which
is shows typic adhesion.
In sonohysterography there are echogenic fibrotic
bands, distended endometrium side to side wall of the uterus
and superior to inferior in sagital and coronal plane which
is shows typic adhesion.The extent and location of the synechiae can be
identified through HSG; however, patients may
feel pain during contrast medium injection due to
poor distansibility of cavity.The radiographic appearance of intrauterine adhesions varies with the sites involved and the severity of scares (17).Synechiae appears as filling defects distorting
the contour of the uterine cavity; although, they
typically have an irregular, multiple angulated
lacunar-shaped and immobile intracavity filling
defect (Figs 3-5).
Fig 3
A 24 years old woman with history of three curettages. HSG detected a small filling defect with totally sharp
contour and typical synechiae. The adhesion involves less
than ¼ of uterine cavity.
Fig 5
A 25-years-old woman with history of three curettages. HSG result shows that configuration of uterine cavity is
totally disturbed. Multiple defects in uterine wall and cavity,
considered as secondary to extensive adhesion, involve more
than ¾ of the uterine cavity volume (severe synechiae).
A 24 years old woman with history of three curettages. HSG detected a small filling defect with totally sharp
contour and typical synechiae. The adhesion involves less
than ¼ of uterine cavity.(A and B): 32 and 40 years old women with history
of two curettages, each. HSG shows multiple irregular and
angulated filling defects with sharp border involving ½ of
uterine cavity (moderate synechiae).A 25-years-old woman with history of three curettages. HSG result shows that configuration of uterine cavity is
totally disturbed. Multiple defects in uterine wall and cavity,
considered as secondary to extensive adhesion, involve more
than ¾ of the uterine cavity volume (severe synechiae).They are easily defined because the uterine walls are adhered, while the contrast material does not completely
surround the defects (4, 17). Unlike other uterine cavity
defects, increasing volumes of contrast will not obscure
adhesions because there is no contrast flowing in front of or behind them (17). In cases with extensive symmetrical obliteration of the uterine cavity, sometimes,
the cavity is smaller than its normal size and gives the
appearance of an infantile (dwarf) uterus (Fig 6).
Fig 6
A 35 year old lady with a history of 5 year of infertility and
family tuberculosis history.HSG shows Small irregular hypo
plastic uterine cavity. (Dwarf uterus) Spillage of contrast media
up to isthmus region of both tubes, under pressure is detected.
Pipe-like appearance is detected bilaterally. All of the mentioned
features could be considered in genital tuberculosis.
A 35 year old lady with a history of 5 year of infertility and
family tuberculosis history.HSG shows Small irregular hypo
plastic uterine cavity. (Dwarf uterus) Spillage of contrast media
up to isthmus region of both tubes, under pressure is detected.
Pipe-like appearance is detected bilaterally. All of the mentioned
features could be considered in genital tuberculosis.In this situation, a history of previous trauma or disease, as well as clinical and sonographic signs will be
helpful to diagnose adhesions (17). In 1955, Netter et
al. (18) have described total obliteration of the whole
uterine cavity with severe involvement. In this case,
the cervical canal is observable, but there is virtually
complete obliteration of the uterine cavity (Glove’s
finger appearance) (Fig 7).
Fig 7
A 28-year-old woman with history of three curettages.
HSG shows spindle shape cervical canal with normal appearance. There is obliteration of the isthmus and uterine
cavity, considered as secondary to multiple curettages. In
obtained image series, there is no filling of contrast in uterine cavity. Intravasation of contrast media into surrounded
ventricular plexus is observable due to severe force of injection (Finger glove’s appearance).
A 28-year-old woman with history of three curettages.
HSG shows spindle shape cervical canal with normal appearance. There is obliteration of the isthmus and uterine
cavity, considered as secondary to multiple curettages. In
obtained image series, there is no filling of contrast in uterine cavity. Intravasation of contrast media into surrounded
ventricular plexus is observable due to severe force of injection (Finger glove’s appearance).Asymmetrical obliteration in uterine cavity with
unicorn involvement resembles unicorn (pseudo
unicorn-uterus) appearances (Fig 8). Sometimes,
indentation in the cavity due to synechiae resembles a septate uterus (Fig 9).
Fig 8
A 20 years old woman with history of one curettage.
HSG shows spindle shape uterus with unicorn appearance
in left pelvic cavity. Previous HSG shows normal uterus,but
now, there is no filling of contrast in right corn due to adhesion. Uterus is appeared as a unicorn which is known as
pseudo-unicorn uterus.
Fig 9
A 29-year-old woman with history of seven curettages.
HSG shows irregular contour of uterine cavity and asymmetry in both corn and adhesion in right corn. Due to adhesive changes, result reveals an image mimicking bicorne
or septate uterus
A 20 years old woman with history of one curettage.
HSG shows spindle shape uterus with unicorn appearance
in left pelvic cavity. Previous HSG shows normal uterus,but
now, there is no filling of contrast in right corn due to adhesion. Uterus is appeared as a unicorn which is known as
pseudo-unicorn uterus.A 29-year-old woman with history of seven curettages.
HSG shows irregular contour of uterine cavity and asymmetry in both corn and adhesion in right corn. Due to adhesive changes, result reveals an image mimicking bicorne
or septate uterus
Conclusion
Ultrasound is not a reliable method for diagnosing AS compared to HSG. One study reported that transvaginal sonography showed low sensitivity
and PPV for this kind of diagnosis (16) unless
fluid is instilled into the uterine cavity to provide enhanced endometrial visualization during
transvaginal ultrasound examination (Fig 10),
which it clarifies the reason behind the falsenegative of sonography findings in depicting
IUA.
Fig 10
TVS shows normal appearance (A), but sonohysterography depicts IUA (B).
TVS shows normal appearance (A), but sonohysterography depicts IUA (B).The gold standard is to look directly at the
uterine cavity and scar tissue using hysteroscopy (12). However, HSG reveals the extent of the scar formation, while suggesting
the presence of intrauterine adhesions (19).
Furthermore, as there is a high correlation
between the diagnosis by hysteroscopy and
HSG, hysterosalpingography is known as one
of the appropriate imaging technique (3). HSG
is commonly used as a first-line tool in the diagnosis of IUA because it is simple, safe, cost
effective, sensitive, and minimally invasive
procedure, allowing the visualization of the
uterine cavity and tubal patency (14).
Fig 2
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Fig 6
Fig 7
Fig 8
Fig 9
Fig 10