Mullerian Duct System Will Develop When Testosterone Is Present

Mullerian Duct System Will Develop When Testosterone Is Present

Introduction

The uterus is a hollow, pear-shaped organ that is responsible for a variety of functions such as gestation (pregnancy), menstruation, and labor and delivery. On a coronal cut section, its cavity has an inverted triangle shape. Sometimes the development in utero may be incomplete; this is called a Mullerian anomaly and can lead to many variants, ranging from a uterine septum to uterine didelphys (double uterus). Anatomically, the uterus is located in the female pelvis immediately posterior to the bladder and anterior to the rectum. The female uterus subdivides into four main anatomic segments (from superior to inferior): the fundus; a broad curved area in which fallopian tubes connects to the uterus, corpus (body); the main part of a uterus and it starts directly below the level of fallopian tubes and continues downward, isthmus; a lower neck region of the uterus, and cervix; which extends downwards from the isthmus and opens in the vagina.[1][2][3]

Several ligaments support the uterus, including the utero-ovarian ligament, round ligament, broad ligament, cardinal ligament, and uterosacral ligaments. It is further supported (inferiorly) by the pelvic diaphragm, urogenital diaphragm, and perineal body. The uterus may naturally lie in different positions such as anteverted/retroverted, anteflexed/retroflexed, or midline, and it may be rotated (especially during pregnancy). The uterus most commonly lies in an anteflexed and anteverted position in 50% of women.

When the uterus is in a retroverted/retroflexed or "tipped" position, it may cause pelvic pain, dyspareunia, minor incontinence, fertility difficulty, and difficulty inserting tampons. In pregnancy, this may lead to uterine incarceration.

Structure and Function

The uterus functions by nurturing the fertilized ovum, which passes through the fallopian tube. The ovum then implants into the endometrium, where it receives nourishment from blood vessels, which exclusively developed for this purpose. As the embryo grows and matures, the uterus expands to accommodate the developing fetus. During normal labor, the uterus contracts as the cervix dilates, and this results in the delivery of the infant.

Embryology

The early development of the uterus is quite complex. At about eight weeks of gestation, primordia for both female and male internal genitalia paramesonephric (Mullerian) and mesonephric (Wolffian) ducts appear. The sexual differentiation process involves a series of steps which occur due to growth factors, hormonal signals, and inherited genetic influences.

The paramesonephric ducts of both sides extend caudally until they reach the urogenital sinus where they project into its posterior wall to become Mullerian tubercle. The Mullerian duct has three parts.

  • The first part is verticle and runs parallel Wolfian duct on its lateral side.

  • The second part of Mullerian ducts lies horizontally and crosses the ipsilateral Wolfian duct anteriorly.

  • The third part is vertical, which joins its counterpart in the midline.

The first two portions of Mullerian ducts make the fallopian tube. The third part canalizes after fusion with its counterpart to form uterus, cervix, and upper 1/5th of the vagina.

In the female embryo, because of the absence of a Y chromosome and lack of testosterone from any testicular tissue, the typical sequence of developmental events result in canalization and fusion of the paramesonephric (Mullerian) ducts in the middle of the pelvis which gives rise to the female pelvic organs. At this time, the mesonephric (Wolffian) ducts regress. Any abnormality that occurs during this phase of development may result in a variety of paramesonephric anomalies.

Blood Supply and Lymphatics

The uterus receives blood from the uterine and ovarian arteries, which arise from the anterior branch of the internal iliac artery. The uterine arteries are the main blood vessels that supply blood to the uterus. As the blood supply enters the myometrium, it branches into the arcuate arteries, which branch into the radial arteries. As they enter the level of the endometrium, they branch into the basal and spiral arteries.[3] Uterine arteries supply the different parts of the uterus and play an essential role in maintaining blood supply during menstrual cycles and in pregnancy.

The fundal area of the uterus chiefly drains into para-aortic lymph nodes along with the ovarian and fallopian tube lymphatic drainage. Some of it also drains into superficial inguinal lymph nodes along round ligament. The lower portions of the uterus drain along uterine blood vessels into external and internal iliac lymph nodes.

Nerves

The internal pelvic organs receive nerve supply from the autonomic nervous system, sympathetic, and parasympathetic nervous system. Autonomic  T11 and T12 innervate the uterus, and it derives its sympathetic nerve supply from the hypogastric plexus, and the parasympathetic supply is from S2 to S4.  Uterus and cervix are insensitive to cutting and burning. So the cervix can be cauterized without anesthesia during therapeutic procedures. However, uterus and cervix are sensitive to stretch (distension), and dilation of the cervix causes pain during normal vaginal delivery.[4]

Muscles

The uterus is located between the urinary bladder anteriorly and the rectum posteriorly. The average dimensions of the uterus in an adult female are 8 cm long, 5 cm across, and 4 mm thick. The uterine cavity has an average volume of 80 mL to 200 mL. The uterus subdivides into three segments, namely: the body, the cervix, and the fundus.

The uterus has three tissue layers which include the following:

  • Endometrium: the inner lining and consists of the functional (superficial) and basal endometrium. The functional layer responds to reproductive hormones. When this layer sheds, this results in menstrual bleeding. If there is damage to the basal endometrium, this can result in the formation of adhesions and fibrosis (Asherman syndrome).

  • Myometrium: the muscle layer and is composed of smooth muscle cells.

  • Serosa/Perimetrium: the thin outer layer composed of epithelial cells.

Physiologic Variants

The long axis of the cervix is rarely in line with the long axis of the body of the uterus. Commonly, the long axis of the body of the uterus is tilted forward over the long axis of the cervix, which is called anteflexion of the uterus. A backward tilt at this level is called retroflection. In 80 percent of women, the long axis of uterus lies at the right angle to the long axis of the vagina with a forward tilt. It is called anteversion Retroversion, which is present in 20 percent of women, is a backward tilt of uterus over the vagina. The anatomical position within the pelvis may vary. The normal position is an anteverted uterus, where the uterus tips forward, whereas a retroverted uterus is angled slightly posterior. The uterine position is also sometimes described relative to the location of the fundus; that is, an anteflexed uterus, which is normal and where the fundus tilts forward. On the other hand, a retroflexed uterus tilts posteriorly.

The uterus may also vary in size and shape depending on the reproductive phase of the female and response to the female sex hormones.

  • Pre-pubertal age: Uterus is small, and the cervix is longer than the body. Cervix to body ratio is 2:1.

  • Reproductive age: Mature size, the body is bigger than the cervix, and the cervix to body ratio is 1:2.

  • Post-menopausal: Uterus is atrophic, the body size is smaller than the cervix. Cervix to body ratio is 2:1.

Also, a nulliparous uterus is usually smaller than a multiparous uterus. Furthermore, as the female reaches menopause, the uterus starts to atrophy chiefly due to a lack of hormonal stimulation and loss of menstruation.[5][6]

Surgical Considerations

Uterine anomalies of clinical significance include:

  • Segmental hypoplasia (cervical, vaginal, fundal or combined)

  • Unicornuate uterus (with rudimentary horn and a communicating or non communicating endometrial cavity

  • Uterine didelphys

  • Bicornuate uterus

  • Septate uterus

  • Women exposed to Diethylstilbestrol may develop a T-shaped uterus

Clinical Significance

The uterus is affected by a variety of gynecologic disorders, including prolapse, fibroids, polyps, infections, cancer, malformations, and adhesions. Hysterectomy is the second most common surgical procedure performed on women in the United States (cesarean section is the most common). The following are the most common uterine pathologies.

  • Polyp: It a well-circumscribed collection of endometrial tissue within the uterine wall. It has smooth muscle cells, and it can extend into the endometrium cavity in the form of a polyp. It can be asymptomatic or present with painless abnormal uterine bleed.[7] Small polyps without symptoms might resolve on their own. Progestins and gonadotropin-releasing hormones agonists may lessen the symptoms of poly, while definitive treatment is surgical removal.

  • Leiomyoma (fibroid): It is the most common benign tumor in females and often presents with multiple discrete tumors in the uterine cavity. It is more common in African-American ethnicity. It is a benign smooth muscle tumor, but it can rarely transform in malignant leiomyosarcoma. It is estrogen-sensitive, and its size increases in pregnancy and decreases after menopause. It may cause abnormal uterine bleeding and result in miscarriage. Severe bleeding in young females may cause iron deficiency anemia.[8] It usually gives irregular shape to the uterus; it may cause constipation by compressing the rectum posteriorly. Oral medication is not often effective, and surgery, including hysterectomy or myomectomy, is considered the standard gold treatment.

  • Endometrial hyperplasia: Excess estrogen stimulation cause abnormal endometrial gland proliferation. It is usually associated with an increased risk of endometrial carcinoma.

  • Adenomyosis: It is an extension of endometrial tissue (glandular) into uterine myometrium, caused by hyperplasia of the basal layer of the endometrium. It usually presents with dysmenorrhea and menorrhagia. Morphologically it is an enlarged, uniform, and globular uterus.[9] Medical treatment includes NSAIDs and hormonal therapy (Combined estrogen-progestin pills, patches, and vaginal rings), while hysterectomy is being considered the definitive treatment.

  • Endometritis: It is an inflammation of endometrium associated with retained products of conception following delivery, miscarriage, abortion, or with a foreign body—retained material in uterus promotes infection by bacterial flora from the vagina or intestinal tract.

  • Endometriosis: It is a condition in which non-neoplastic endometrial glands or stroma is present outside of the endometrial cavity. It can occur anywhere, but the most common sites are ovary, pelvis, and peritoneum. In the ovary, it appears as endometrioma (Blood filled chocolate cyst). Evidence suggests that it is due to the retrograde flow of menstrual blood.[10] On the ultrasonogram, it appears as homogenous echotexture as well as being hypoechoic. Medical treatment includes NSAIDs, gonadotropin-releasing hormones, progestin therapy, and aromatase inhibitors. If the patient is having difficulty in conceiving, then surgery to remove the endometriosis implants while preserving the uterus and ovaries may increase the chances of success.

Uterine cancer is the most common gynecologic cancer in developed countries and is associated with excess estrogen. Exogenous sources of estrogen include tamoxifen use or unopposed estrogen replacement therapy. Tamoxifen increases endometrial cancer risk due to its ability to stimulate the estrogen receptors found on the endometrium. Endogenous sources of estrogen include polycystic ovary syndrome,  obesity, and estrogen-secreting tumors such as granulosa cell tumors. The majority of women with endometrial cancer will present with abnormal vaginal bleeding or postmenopausal vaginal bleeding. Less commonly, they may present with abdominal pain, change in bowel habits, weight loss, and bloat.

Review Questions

The Uterus, Posterior half of uterus and upper part of vagina, Uterine Tube, Cavity of body, Uterine wall, Internal Orifice, Vagaina

Figure

The Uterus, Posterior half of uterus and upper part of vagina, Uterine Tube, Cavity of body, Uterine wall, Internal Orifice, Vagaina. Contributed by Gray's Anatomy Plates

References

1.

Chaudhry SR, Chaudhry K. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Aug 23, 2020. Anatomy, Abdomen and Pelvis, Uterus Round Ligament. [PubMed: 29763145]

2.

Craig ME, Sudanagunta S, Billow M. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Aug 10, 2020. Anatomy, Abdomen and Pelvis, Broad Ligaments. [PubMed: 29763118]

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Chaudhry R, Chaudhry K. StatPearls [Internet]. StatPearls Publishing; Treasure Island (FL): Sep 9, 2020. Anatomy, Abdomen and Pelvis, Uterine Arteries. [PubMed: 29489202]

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Tong XK, Huo RJ. The anatomical basis and prevention of neurogenic voiding dysfunction following radical hysterectomy. Surg Radiol Anat. 1991;13(2):145-8. [PubMed: 1925917]

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Alimi Y, Iwanaga J, Loukas M, Tubbs RS. The Clinical Anatomy of Endometriosis: A Review. Cureus. 2018 Sep 25;10(9):e3361. [PMC free article: PMC6257623] [PubMed: 30510871]

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Al-Qattan MM, Al-Qattan AM. Fibromodulin: Structure, Physiological Functions, and an Emphasis on its Potential Clinical Applications in Various Diseases. J Coll Physicians Surg Pak. 2018 Oct;28(10):783-790. [PubMed: 30266125]

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Kinkel K, Ascher SM, Reinhold C. Benign Disease of the Uterus. In: Hodler J, Kubik-Huch RA, von Schulthess GK, editors. Diseases of the Abdomen and Pelvis 2018-2021: Diagnostic Imaging - IDKD Book [Internet]. Springer; Cham (CH): Mar 21, 2018. pp. 21–33. [PubMed: 31314373]

8.

Rosa P, Pidhorecky I. A Case of Intravenous Leiomyomatosis with Involvement of a Renal Vein. Ann Vasc Surg. 2018 Nov;53:271.e11-271.e13. [PubMed: 30092420]

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Paul PG, Gulati G, Shintre H, Mannur S, Paul G, Mehta S. Extrauterine adenomyoma: a review of the literature. Eur J Obstet Gynecol Reprod Biol. 2018 Sep;228:130-136. [PubMed: 29940416]

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Pääkkö E, Niinimäki M. Diagnostics of endometriosis by using magnetic resonance imaging. Duodecim. 2017;133(1):61-7. [PubMed: 29200236]

Mullerian Duct System Will Develop When Testosterone Is Present

Source: https://www.ncbi.nlm.nih.gov/books/NBK470297/

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