Anatomy of Endometriosis and Adenomyosis
Ashley Davidoff MD
Endometriosis is a disease caused by misplaced or ectopic endometrial tissues located beyond the uterus most commonly resulting in pain at the time of menstruation. The ectopic endometrial tissue is controlled by the oestrogen and progesterone cycles. The ectopic tissue bleeds at the time of menstruation and causes pain. Since neither the ectopic endometrium nor the blood can be extruded from the body, recurrent bleeding eventually results in scar formation which may cause non cyclical chronic pain.
Chronic Pelvic Pain is Unbearable
Endometriosis and adenomyosis cause horrific pain. For some the pain may only occur during the menstrual cycle but for others it can be constant, day and night, excruciating in nature, invading every aspect of normal daily life . Pain is a common symptom defined by the International Association for the Study of Pain as “an unpleasant sensory and emotional experience associated with actual or potential tissue damage or described in terms of such damage.” This statement characterizes the evolved nature of pain as a warning system and feedback mechanism that influences how we adapt to our environment. However, pain at its core it is suffering and its persistence can be insufferable for people and diagnostically problematic to those who care for the sick, as well being a burdensome cost to society.
The cause of endometriosis is not truly known. Long standing hypotheses include spillage of endometrial tissue into the peritoneal cavity via the fallopian tubes or transvascular spread to remote areas . More recent hypotheses include spillage of stem cells during embryonic development, metaplasia of coelomic epithelium, abnormal vasculogenesis, and environmental factors
Endometriosis occurs in 5-10% of women. When endometrial tissue is located outside of the uterus, it can cause pelvic and back pain, as well as pain with sexual intercourse (dyspareunia). It is also associated with infertility by distorting anatomy, (for example Fallopian tube adhesions) , or physiological changes that result in altered immune and hormonal environments with consequent impairment of ovum implantation .
From a structural standpoint, endometriosis most commonly affects the ovaries and Fallopian tubes but can affect any of the pelvic organs including the peritoneal cavity, bladder, ureters, bowel, broad ligaments, uterosacral ligaments, cul de sac and even the nerves. Implants range in size from small microscopic implants, but are are commonly about 1-2cm.
The Intraperitoneal Aspect of the Pelvic Cavity
The peritoneal cavity or coelomic cavity is a large cell lined space via which almost all the abdominal organs are connected . It may be considered the suburban space around which the houses of the town are positioned. The ova are released from the ovary into the peritoneal space, but they are quickly directed by the fimbriae into the Fallopian tubes.
Endometriomas
Endometriomas are large hemorrhagic cysts that occur on the ovary and may be up to to 20cms in size. They are usually round in shape, much like a large blood blister after they have bled. The nodules can be red-blue to yellow-brown in color, (chocolate cysts) and occur just below the serosa of the organ to which they are attached. As the lesions undergo recurrent hemorrhage, they can become associated with fibrosis as stated. Rarely they may be associated with malignant transformation.(<1%).
A T2 weighted image of the pelvis (left) with an overlay of colors on the right shows a 10cms endometrioma (overlaid in red) with internal debris better appreciated in the left image. The large ‘chocolate cyst” lies above the uterus (pink) and compresses the bladder (yellow)
MRI has a 90% specificity and 90% sensitivity for endometriomas. On T1 weighted images the endometriomas may be bright and do not lose signal on fat suppressed sequences. Heterogeneity is due to the presence of degraded products. Septations may also be present. Both these features are present in the above image . On T2 weighted sequences “shading” is caused by repeated episodes of bleeding reflecting hemorrhagic contents in various stages of degradation. The wall of the endometrioma may contain hemosiderin which leads to a loss of signal on the T2 weighted sequence.
Unusual Locations
Endometriosis is rarely can be more far reaching and may involve the kidneys, brain, diaphragm, and pleura. When it involves the diaphragm or pleura, shoulder pain may be associated with the entity. Pleural disease can cause life threatening catamenial pneumothorax induced by the menstrual cycle .
A CT scan through the pelvis (left) shows an endometriotic implant on the bladder wall. The image on the right shows the endometriotic implant overlaid in maroon on the right anterior surface of the bladder (yellow overlay). The implant measures about 1.1cms. The fornix of the vagina is overlaid in pink. Most peritoneal implants are too small to be visualized by conventional imaging and require laparoscopic evaluation for diagnosis.
Endometriosis in the Skin of the Groin
A CT scan through the pelvis (left) shows an endometriotic implant in the subcutaneous region of the skin in the left inguinal region (image a, circled). The region is magnified in image b and the endometriotic deposit is labelled “e” with maroon overlay. An ultrasound of the left groin(c) shows the implanted endometriosis (black) medial to the artery (red) and vein (blue). In image d, the region of endometriosis (e) is overlaid in maroon.
Clinically the entity more commonly occurs in nulliparous women and the degree of pain is variable. As endometrial tissue, it is responsive to the cyclical hormonal fluxes, and thus may bleed in response to hormonal changes. Pain commonly occurs at the time of the menses. The volume of ectopic endometrial tissue does not correlate with the severity of the pain, but rather with the depth of infiltration into the tissue, or the degree of distension that might occur. The pain is usually recurring and commonly but not necessarily occurs during the menses. With induction of fibrosis, pain may be caused by other structural changes that are unrelated to the menses.
Diagnosis is suspected clinically and confirmed by ultrasound. When a woman in the reproductive phase of her life presents with pain, the imaging study of choice is a pelvic ultrasound. Hemorrhage into evolving follicles is a common cause of pelvic pain and these could be also quite large. This entity has to be differentiated from an endometrioma that has a characteristic ultrasonographic appearance shown below
Endometrioma on Ultrasound
A transvaginal ultrasound of the adnexa shows an endometrioma with characteristic low level echoes reminiscent of the texture of the testes on ultrasound. The image on the right is an overlay in a biloculate cyst. Some through transmission is present.
Chocolate Cyst on US and CT
A 25 year old female presents with painful menses. The ultrasound shows a cystic mass in the pelvis with a large amount of debris in the cystic cavity consistent with a chocolate cyst (a). Image b is an overlay showing the fine granular appearance of the sediment. When the patient is in decubitus position (c) , the sediment settles to the dependant portions with a clear supernatant. Image (d) is a CT scan of the same patient, showing a non specific cyst in the left ovary. In this instance CT has little diagnostic value in the characterization of the abnormality other than localising a large cyst, and excluding other causes for the pain. Although the appearance on the ultrasound is consistent with endometriosis, a hemorrhagic cysts is possible and the distinction may only be made pathologically.
When a female patient in the reproductive age presents with pelvic pain and ultrasound or MRI are negative, laparoscopy is indicated both for diagnosis of small or flat lesions lesions as well as for therapy. Microscopic deposits which may cause symptoms will not be identified by imaging techniques and will only be seen laparoscopically. The reluctance to undergo an “invasive” procedure is understandable, but delaying or worse still missing the diagnosis will cause unnecessary long term suffering.
Laparoscopy
Laparoscopic image of small blood blisters characteristic of endometriotic lesions of the pelvic wall in the peritoneum
Courtesy Author Hic et nunc. Acknowledged work is in public domain
Blood Blisters in the Cul De Sac and Sacrouterine Ligament
Laparoscopic image of endometriotic lesions in the pouch of Douglas and on the sacrouterine ligament.
Courtesy Author Hic et nunc. Acknowledged work is in public domain
Treatment options depend on patient preference, including whether fertility is desired, but include both medical and surgical options. Medical management frequently involves suppression of regular menses/hormones . Surgical options include removal of implants or surgical induction of menopause (i.e. oophorectomy and hysterectomy).
Adenomyosis
Adenomyosis is a disease of the myometrium caused by misplaced or ectopic endometrium in the myometrium resulting in myometrial hyperplasia and smooth muscle hypertrophy clinically manifesting as pelvic pain and uterine enlargement. The entity can be focal or diffuse
Enlarged and Painful Uterus of Adenomyosis
The exact cause of the displacement is not known but it is presumed that a breach in the endometrial myometrial barrier enables a small amount of endometrium to translocate and remain viable. There is a high prevalence rate with about 40% of hysterectomy specimens displaying the entity.
The junctional zone of the uterus is the epicenter of the structural abnormality The junctional zone is subendometrial smooth muscle that is more compacted, and contains less water in comparison to the outer myometrium. (McCarthy) The junctional zone is functionally different from the outer myometrium.
The Normal Junctional Zone on MRI
Clinically the patient presents with pelvic pain, dysmenorrhea, menorrhagia and may contribute to infertility. On exam the uterus is enlarged.
The diagnosis is best made by MRI which shows a thickened junctional zone (>10-12mms) s. The deposition of acute blood, blood degradation products such as iron, or the presence of fluid filled microglandular deposits in the junctional zone make the MRI findings highly specific for the diagnosis.
Treatment options include pain management with NSAIDS, and hormonal manipulation. Surgery and hysterectomy is the only current option for cure.
MRI
The junctional zone thickening is key to the diagnosis of adenomyosis on MRI. The junctional zone normally measures 8mm or less. Between 8-11mm it is considered indeterminate, and when it measures 12mm or greater, it is considered diagnostic for the disease. The junctional zone may thicken normally in the first few days of the menstrual cycle or during myometrial contractions. Cystic changes in the junctional zone are also characteristic and relatively common and represent small blood blisters. Linear striations radiating from endometrium to myometrium are also seen but these are not as easy to discern. These probably reflect a breech in the endometrium reflecting microscopic tears extending into the myometrium.
Ultrasound
The Normal Junctional Zone on Ultrasound
A transvaginal ultrasound of a premenstrual woman in the sagittal plane (left) reveals a normal view of the uterus with characteristic premenstrual appearance. Image on the right is an overlay showing the components of the endometrium and subendometrial layers. The stripe is almost homogeneously echogenic and thick but also shows a hypoechoic halo of the junctional zone or inner myometrium. (salmon) The homogeneous stripe is made up from two histological layers (barely distinguished by this ultrasound)– the inner stratum functionalis (deep orange) that will shed once the spiral arteries vasoconstrict, and the outer stratum basalis (deep yellow) that will not shed, and will be the basis for regenerating the endometrium in the next cycle. The next layer as stated above is the compact myometrium – the junctional zone (aka inner myometrium) , and is followed by the thicker outer myometrium (maroon).
The junctional zone is hypoechoic due to decreased water content, and is formed by smooth muscle cells that are tightly packed. The extracellular matrix and water content are sparse. It usually measures less than 8mm.