The Tubal Connection
from the book How to Have
a Baby: Overcoming Infertility
by Dr. Aniruddha Malpani, MD
and Dr. Anjali Malpani, MD.
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of contents ·
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The fallopian
tubes project out from each side of the body of the uterus and form
the passages through which the egg is conducted from the ovary into
the uterus. The fallopian tubes are about 10 cms long and the outer
end of each tube is funnel shaped, ending in long fringes called fimbriae.
The fimbriae catch the mature egg and channel it down into the fallopian
tube when released by the ovary . The tube itself is a muscular highly
movable structure capable of highly coordinated movement. The egg
and sperm meet in the outer half of the fallopian tube, called the
ampulla. Fertilization occurs here, after which the embryo continues
down the tube toward the uterus. The uterine end of the tube, called
the isthmus, acts like a sphincter, and prevents the embryo from being
released into the uterus until just the right time for implantation,
which is about 4 to 7 days after ovulation. The tube is much more
complex than a simple pipe, and the lining of the tube is folded and
lined with microscopic hair like projections called cilia which push
the egg and embryo along the tube. The tubal lining also produces
a fluid that nourishes the egg and embryo during their journey in
the tube.
Fig
1. Normal tube and ovary, as seen during laparoscopy
Tubal
disease
Tubal
abnormalities account for between 25% and 50% of female infertility
.Tubal damage usually occurs through pelvic infection , and this is
called pelvic inflammatory disease ( PID). Often, we cannot find out
the cause for the inflammation. However, some of the causes of pelvic
infection that can be pinpointed are :
- Sexually
transmitted diseases (e.g. Gonorrhea, Chlamydia)
- Infection
after childbirth, miscarriage, termination of pregnancy ( MTP) or
IUD (intrauterine device) insertion
- Post-operative
pelvic infection (e.g. perforated appendix, ovarian cysts)
- Severe
endometriosis
- Tuberculosis
Besides
causing blocked tubes, any pelvic inflammatory disease can also produce
bands of scar tissue called adhesions, which can alter the functioning
of the fallopian tubes. PID can be a silent disease, and most women
with tubal damage because of PID are completely unaware that they
have this disease.
Pelvic
tuberculosis is a fairly common cause of tubal damage in India. The
tuberculosis bacteria reach the tubes from the lungs through the bloodstream
and can cause irreparable tubal damage.
Making
a Diagnosis of Tubal disease
A number
of tests are available to judge whether or not the tubes are open.
The simplest
and oldest test for tubal patency is the RT or Rubin's test named
after its inventor. In this test, gas is passed under pressure into
the tubes through the cervix and uterus - either with a special machine
(Rubin's apparatus) or with an ordinary syringe. The doctor then listens
with a stethoscope placed on the abdomen to determine if he can hear
the sound of gas passing through the fallopian tube. Even though this
test is now obsolete, because it is so unreliable, a number of doctors
still do it.
Blood
tests for chlamydial antibodies: Since an infection with chlamydia
is the commonest reason for tubal disease in the West, some doctors
test the blood for antibodies against chlamydia . Women who have antibodies
against chlamydia have been exposed to this infection in the past,
and are considered to be at higher risk for tubal damage.
Hysterosalpingogram
(Uterotubogram) or HSG is a specialized X-ray of the uterus and tubes.
An HSG is done after the menstrual flow has just stopped - usually
on Day 6 or 7 of the period, at which time the lining of the uterus
is thin. It is done in an X-ray Clinic. The patient is advised to
take an antibiotic and a pain-killer before the procedure by many
doctors. After being positioned on the X-ray table, the doctor places
a special instrument into the cervix, called a cervical cannula, which
is made of metal. Many doctors now prefer to use a balloon catheter
, as this makes the procedure less painful. A radio-opaque dye (a
liquid which is opaque to X-rays) is then injected into the uterine
cavity. This is done slowly under pressure, and pictures are taken
- preferably under an image intensifier. The passage of the dye into
the uterine cavity and then into the tubes and from there into the
abdomen can be seen; and X-ray pictures taken. These provide a permanent
record.
At least
3 films need to be taken to provide a reliable record - including
an early film for the uterine cavity; and a delayed film to make sure
the spill in the abdomen is free.
A normal
HSG defines the inside of the reproductive tract. This appears as
a triangle (usually white on a black background) which represents
the uterine cavity; and from here the dye enters the tubes which appear
as two long thin lines, one on either side of the cavity. When the
dye spills into the abdomen from a patent ( open) tube, this appears
as a smudge in the X-rays.
Fig
2. Normal HSG findings ( the dye appears black and outlines a normal
cavity and fallopian tubes)
An abnormal
HSG may show a problem in the uterine cavity - and this appears as
a gap or filling defect. However, the commonest problems on HSG appear
in the tubes. If the tubes are blocked at the cornual end (at the
uterotubal junction), then no dye enters the tubes and they cannot
be seen at all. If the block is at the fimbrial end then the tubes
fill up; but the dye does not spill out into the abdominal cavity
and the end of the tubes are often swollen up.
Sometimes,
like any other medical test, the HSG may provide erroneous results.
For example, the cornu of the uterus may go into spasm, as a result
of which the dye may not enter the tubes at all. This may be interpreted
as a tubal block, whereas in reality the tubes are open. Also, if
a hydrosalpinx is very thin and if the dye is injected under pressure,
the dye may appear to spill into the abdomen through a tear in the
wall of the hydrosalpinx - suggesting tubal patency when really the
tubes are closed.
While
the HSG is usually very reliable for determining whether or not the
tubes are open, it provides little information on structures outside
the tube which could nevertheless impair tubal function - such as
peritubal adhesions. If the spill is "loculated",(i.e. it collects
in small puddles), the presence of adhesions can be suspected, but
not confirmed.
An HSG
can be painful - and when the dye is injected into the uterine cavity,
most women will experience a considerable amount of pain. You should
be prepared for this - and taking a pain-killer prior to the procedure
will help to reduce the pain.
An HSG
can be technically difficult for some women (especially if the cervix
is too small or too tight) - and it is better if a gynecologist is
present at the time of the HSG to assist the radiologist if needed.
Many gynecologists will do the HSG themselves.
The major
risk of an HSG is that of spreading an unrecognized infection from
the cervix up into the tubes. This is uncommon, but in order to reduce
the risk, many doctors advise antibiotic coverage during the procedure.
If the
HSG shows that the tubes are closed, then it may be advisable to repeat
the HSG; and also to do a laparoscopy to confirm this diagnosis.
Laparoscopy.
This has already been described, and is the gold standard for making
a diagnosis of tubal disease.
Limitations
of HSG and laparoscopy
The trouble
with both HSG and laparoscopy is that they only provide information
as to whether or not the tube is open or closed. While a closed tube
will never work, they do not provide any information on how well an
apparently open tube works. Remember, that just because a tube is
patent does not necessarily mean that it works!
Fig
3. Laparoscopy shows a large hydrosalpinx on the right side
Another
limitation is that they will rarely provide any information as to
why the tubes are blocked. Occasionally, however, this can be suspected
by other signs (for example, by seeing the tubercles diagnostic of
TB in the abdomen during laparoscopy).
Recent
innovations in this field include:
Fluoroscopic
guided procedures: Using an image intensifier, and techniques
borrowed from coronary angioplasty, the radiologists can now insert
special catheters under fluoroscopic guidance into each of the tubes.
This is called selective salpingography; and allows much better visualization
of each tube. It also allows the radiologist to treat cornual blocks
which are due to mucus plugs by tubal cannulation.
Sonosalpingography:
Under ultrasound guidance, with Doppler facilities if available, the
gynecologist can inject fluid into the tubes through the cervix and
see the flow of the fluid into the tubes and abdomen on the ultrasound
screen. This is a simple bedside test which a gynecologist can do
to judge if the tubes are normal - and can be reassuring if positive.
Tuboscopy:
At the time of laparoscopy, the doctor can insert a fine telescope
into the fallopian tube through its fimbrial end, to inspect the inner
lining of the tube, to judge whether or not it is healthy.
Falloposcopy
is a very recent exciting advance, pioneered by Dr Kerin of USA. In
this method, a very fine flexible fiberoptic tube is guided through
the cervix and uterus into each fallopian tube, thus allowing the
doctor to actually visualize the inner lining of the entire length
of the fallopian tube - something which was never possible so far.
This can provide useful information about the extent of tubal damage
- and the possibility for successful repair.
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