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Ovarian Torsion

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Last Update: July 17, 2023.

Continuing Education Activity

Ovarian torsion is caused by twisting of the ligaments that support the adnexa, cutting off the blood flow to the organ and represents a true surgical emergency. In order to avoid the high morbidity associated with this condition, it must be promptly diagnosed and treated. This activity reviews the evaluation and treatment of ovarian torsion and highlights the role of an interprofessional team in evaluating and treating patients with this condition.

Objectives:

  • Describe the etiology of ovarian torsion.
  • Summarize the evaluation steps for ovarian torsion.
  • Outline the management options available for ovarian torsion.
Access free multiple choice questions on this topic.

Introduction

Ovarian torsion is a process that occurs when the ovary twists over the ligaments that support it in the adnexa. The fallopian tube often twists with the ovary and is then referred to as adnexal torsion. The ovary is supported by multiple structures in the pelvis. One ligament it is suspended by is the infundibulopelvic ligament, also called the suspensory ligament of the ovary, which connects the ovary to the pelvic sidewall. This ligament also contains the main ovarian vessels. The ovary is also connected to the uterus by the utero-ovarian ligament.[1] 

The ovary has dual blood supply from the ovarian arteries and uterine arteries. Twisting of these ligaments can lead to venous congestion, edema, compression of arteries, and, eventually, loss of blood supply to the ovary. This can cause a constellation of symptoms, including severe pain when blood supply is compromised. This is a true surgical emergency that can lead to necrosis, loss of ovary, and infertility if not identified promptly.

Etiology

The main risk factor for ovarian torsion is an ovarian mass that is 5 cm in diameter or larger. The mass increases the chance that the ovary could rotate on the axis of the two ligaments holding it in suspension. This torsion impedes venous outflow and eventually, arterial inflow.

In a study of torsions confirmed by surgery, 46% were associated with neoplasm, and 48% were associated with cysts. Of these masses, 89% were benign, and 80% of patients were under age 50. Therefore, reproductive-age females are at greatest risk of torsion.[2] However, torsion can still occur in normal ovaries, especially in the pediatric population. Pregnancy, as well as patients undergoing fertility treatments, are high risk due to enlarged follicles on the ovary.[1]

Epidemiology

Torsion occurs in females of all ages but is most common in women of childbearing age. In a 10-year review of surgical emergencies at a women’s hospital, ovarian torsion was the fifth most common, accounting for 2.7 percent. Only 20% of patients are premenarchal, and 50% of these will have a normal ovary. The majority of reproductive-age females with torsion had a benign ovarian mass.[3] Pregnancy is also an independent risk factor for torsion. In a retrospective study of patients diagnosed with torsion, 8 to 15% of them were pregnant.[1]

Pathophysiology

Torsion occurs when the ovary twists over the supporting ligaments, the infundibulopelvic ligament, and the utero-ovarian ligament. This causes swelling and obstruction of blood flow. Initially, the venous outflow is obstructed, and later arterial inflow is also interrupted due to increased swelling, leading to necrosis of the ovary, infarction, hemorrhage, and possibly peritonitis. The right side has been seen more commonly than left-sided torsion, which is thought to be due to increased space in the right pelvis due to the location of the sigmoid colon in the left.[4]

History and Physical

The patient most commonly will present with lower abdominal pain or pelvic pain. Pain can be sharp, dull, constant, or intermittent. Pain may radiate to the abdomen, back, or flank.[5] One study showed that post-menopausal women commonly presented with dull, constant pain when compared to premenopausal, who more commonly had sharp stabbing pain. Symptoms may or may not be intermittent if the ovary is torsing and detorsing.

The patient may also have associated nausea and vomiting. In one study of children and adolescents with lower abdominal pain, vomiting was found to be an independent risk factor for ovarian torsion.[6] The patient may or may not already have a known adnexal mass, which predisposes them to torsion.

Fever may be present if the ovary is already necrotic. The patient could also have abnormal vaginal bleeding, or discharge if torsion involves a tubo-ovarian abscess. Infants with torsion may present with feeding intolerance or inconsolability.

Physical exam in the patient is variable. The patient may have abdominal tenderness focally in the lower abdomen, pelvic area, diffusely, or not at all. Up to one-third of patients were found to have no abdominal tenderness. There could also be an abdominal mass. If the patient has guarding, rigidity, or rebound, there may already be necrosis of the ovary. Every patient should also have a pelvic exam to better evaluate for masses, discharge, and cervical motion tenderness.

Evaluation

Laboratory testing should include a complete blood count, complete metabolic panel, and a serum hCG. CBC may show a leukocytosis, or anemia if the torsion is causing hemorrhage. Hcg is especially important since pregnancy is a risk factor for torsion. These laboratory abnormalities are non-specific, and most often, the lab values will be normal in torsion.

The imaging study of choice is ultrasound with doppler.  Both a transvaginal and pelvic ultrasound should be done. The sensitivity of ultrasound for ovarian torsion is dependent on many factors, including technician skill and patient anatomy, but is reported to be around 84%.[7] In one study, the most sensitive findings on ultrasound were ovarian edema, abnormal ovarian blood flow, and relative enlargement of the ovary.[8] There may also be free fluid or the whirlpool sign, which is thought to be due to the twisting of the vascular pedicle in cross-section.[9] 

Blood flow should be assessed as compared to the contralateral ovary. Due to the ovaries having dual blood supply, the complete lack of flow is not necessary to be symptomatic. The ovary may also not be torsed at the time of ultrasound, which is why ultrasound alone cannot rule out ovarian torsion. CT and MRI are not generally used to diagnose ovarian torsion but are commonly done to rule out other abdominal pathology such as acute appendicitis.

The definitive diagnosis of ovarian torsion is made by direct visualization of a rotated ovary during surgery. For this reason, if clinical suspicion remains high with relatively normal labs and ultrasound imaging, the patient must have surgical evaluation.

Treatment / Management

The treatment of ovarian torsion is surgical detorsion, preferably by a gynecologist. In reproductive age females, salvage of the ovary should be attempted, and the surgeon must evaluate the ovary for viability. Most often, the approach to surgery should be laparoscopic and involves direct visualization of a twisted ovary. The evaluation of viability is mostly by visualization. A dark, enlarged ovary with hemorrhagic lesions may have compromised blood flow but is often salvageable.[10] 

After detorsion, ovaries were found to be functional in greater than 90% of patients who underwent detorsion. This was assessed by the appearance of the adnexa on ultrasound, including follicular development on the ovaries.[11] Therefore, surgery with adnexal sparing is the management of choice. Rarely, if the ovary appears necrotic and gelatinous beyond possible salvage, the surgeon may choose to perform a salpingo-oophorectomy. The surgeon may also perform cystectomy if a benign cyst is present. If the cyst appears to be malignant, or if the woman is post-menopausal, salpingo-oophorectomy is the preferred management.

Differential Diagnosis

There are many differentials for abdominal pain in a female. In a patient of childbearing age, ectopic pregnancy must first be ruled out with a beta hCG. If the beta hCG is negative, then this can essentially be ruled out. If positive, then an intrauterine pregnancy on ultrasound dramatically decreases the risk of ectopic but does not rule out heterotopic pregnancy. A ruptured ovarian cyst can also present like an ovarian torsion. Both may also have free fluid in the pelvis on ultrasound. However, cyst rupture typically causes sudden onset of sharp pain, which commonly occurs during sexual intercourse.

A tubo-ovarian abscess may present with lower pelvic pain, which is usually more gradual in onset and associated with fever. Appendicitis can present with right-sided pelvic pain, nausea, vomiting, and fever. Lab values may show leukocytosis, and CT imaging should aid in differentiating it from ovarian pathology.[12] Other differentials include pyelonephritis, diverticulitis, and pelvic inflammatory disease.

Prognosis

Ovarian torsion is not usually life-threatening, but it is organ threatening. In premenopausal women, surgery with adnexal sparring is now the preferred treatment, and the majority of women had normal-appearing adnexa on ultrasound after surgery.[13] Ovarian salvage is increased in patients with less time from the onset of symptoms to surgical intervention. In postmenopausal women, salpingo-oophorectomy is done to prevent reoccurrence. This approach is also used in women with a mass suspicious for malignancy. The majority of ovarian masses are benign. Some case reports show less than 2% of torsions involving a malignant lesion. However, the chances of a malignant lesion involved in torsion are increased in the postmenopausal group.[1]

Complications

The main complication of ovarian torsion is the inability to salvage the ovary and the need for salpingo-oophorectomy. This may affect fertility in a woman of childbearing age. Other complications of torsion include abnormal pelvic anatomy that may contribute to infertility, such as adhesions, or atrophied ovaries.[14] There may be complications from the surgery itself, such as infection or venous thromboembolism. The risk of post-operative infection is increased when necrotic tissue is already present.[15]

Consultations

The most important and time-sensitive consultation will be to a gynecologist and should occur before confirmatory studies if clinical suspicion is high. The more time the ovary is without blood flow, the lower likelihood of salvaging function of the organ.

Deterrence and Patient Education

The most important thing for patients to keep in mind is seeking care immediately to allow for timely diagnosis and management. This is especially important if patients have a known risk factor for ovarian torsion such as a known cyst, are pregnant, or trying to become pregnant with fertility treatments.

Pearls and Other Issues

Ovarian torsion is a difficult diagnosis due to vague symptoms and nonspecific labs and imaging. It is important to keep this diagnosis in the differential and maintain clinical suspicion for torsion when another pathology has been ruled out. The dual blood supply to the ovary can also be deceiving, so the presence of blood supply on ultrasound does not rule out a torsion when clinical suspicion is high. Ultrasound also cannot rule out torsion due to the possibility that the patient can have intermittent torsion. Remember that gynecologic consultation may be necessary, and direct visualization by surgical evaluation is the only way to make a definitive diagnosis.

Enhancing Healthcare Team Outcomes

The diagnosis and management of ovarian torsion are complex and involve many different healthcare professionals. A female presenting with non-specific symptoms of abdominal pain, nausea, and vomiting may represent a gynecological, obstetrical, gastrointestinal, or genitourinary process. Nursing plays a vital role in getting accurate vitals, drawing labs, and giving medications to help the patient feel better. The emergency room provider needs to take an accurate history, do a good physical exam, and order the appropriate tests. They also need to coordinate care with the interprofessional team. It is also very important for the ultrasound technician to get good images to send to the radiologist.

The radiologist is also necessary to read both ultrasound and CT findings to evaluate for intraabdominal and pelvic processes. Consultation with a gynecologist will also be necessary to take the patient to surgery. In the postoperative period, nurses will play an important role in pain management, patient education, and observing for complications.

Review Questions

References

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2.
Varras M, Tsikini A, Polyzos D, Samara Ch, Hadjopoulos G, Akrivis Ch. Uterine adnexal torsion: pathologic and gray-scale ultrasonographic findings. Clin Exp Obstet Gynecol. 2004;31(1):34-8. [PubMed: 14998184]
3.
Bouguizane S, Bibi H, Farhat Y, Dhifallah S, Darraji F, Hidar S, Lassoued L, Chaieb A, Khairi H. [Adnexal torsion: a report of 135 cases]. J Gynecol Obstet Biol Reprod (Paris). 2003 Oct;32(6):535-40. [PubMed: 14593299]
4.
Albayram F, Hamper UM. Ovarian and adnexal torsion: spectrum of sonographic findings with pathologic correlation. J Ultrasound Med. 2001 Oct;20(10):1083-9. [PubMed: 11587015]
5.
Cohen A, Solomon N, Almog B, Cohen Y, Tsafrir Z, Rimon E, Levin I. Adnexal Torsion in Postmenopausal Women: Clinical Presentation and Risk of Ovarian Malignancy. J Minim Invasive Gynecol. 2017 Jan 01;24(1):94-97. [PubMed: 27702703]
6.
Schwartz BI, Huppert JS, Chen C, Huang B, Reed JL. Creation of a Composite Score to Predict Adnexal Torsion in Children and Adolescents. J Pediatr Adolesc Gynecol. 2018 Apr;31(2):132-137. [PubMed: 28847757]
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Bardin R, Perl N, Mashiach R, Ram E, Orbach-Zinger S, Shmueli A, Wiznitzer A, Hadar E. Prediction of Adnexal Torsion by Ultrasound in Women with Acute Abdominal Pain. Ultraschall Med. 2020 Dec;41(6):688-694. [PubMed: 31703238]
8.
Mashiach R, Melamed N, Gilad N, Ben-Shitrit G, Meizner I. Sonographic diagnosis of ovarian torsion: accuracy and predictive factors. J Ultrasound Med. 2011 Sep;30(9):1205-10. [PubMed: 21876091]
9.
Valsky DV, Esh-Broder E, Cohen SM, Lipschuetz M, Yagel S. Added value of the gray-scale whirlpool sign in the diagnosis of adnexal torsion. Ultrasound Obstet Gynecol. 2010 Nov;36(5):630-4. [PubMed: 20586041]
10.
Bider D, Mashiach S, Dulitzky M, Kokia E, Lipitz S, Ben-Rafael Z. Clinical, surgical and pathologic findings of adnexal torsion in pregnant and nonpregnant women. Surg Gynecol Obstet. 1991 Nov;173(5):363-6. [PubMed: 1948585]
11.
Oelsner G, Cohen SB, Soriano D, Admon D, Mashiach S, Carp H. Minimal surgery for the twisted ischaemic adnexa can preserve ovarian function. Hum Reprod. 2003 Dec;18(12):2599-602. [PubMed: 14645177]
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Wilkinson C, Sanderson A. Adnexal torsion -- a multimodality imaging review. Clin Radiol. 2012 May;67(5):476-83. [PubMed: 22137723]
13.
Oelsner G, Bider D, Goldenberg M, Admon D, Mashiach S. Long-term follow-up of the twisted ischemic adnexa managed by detorsion. Fertil Steril. 1993 Dec;60(6):976-9. [PubMed: 8243702]
14.
Wang JH, Wu DH, Jin H, Wu YZ. Predominant etiology of adnexal torsion and ovarian outcome after detorsion in premenarchal girls. Eur J Pediatr Surg. 2010 Sep;20(5):298-301. [PubMed: 20533130]
15.
Pryor RA, Wiczyk HP, O'Shea DL. Adnexal infarction after conservative surgical management of torsion of a hyperstimulated ovary. Fertil Steril. 1995 Jun;63(6):1344-6. [PubMed: 7750613]

Disclosure: Shelby Guile declares no relevant financial relationships with ineligible companies.

Disclosure: Josephin Mathai declares no relevant financial relationships with ineligible companies.

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