Ovarian torsion
- Philips Australia, Paid speaker at Philips Spectral CT events (ongoing)
Updates to Article Attributes
Ovarian torsion, also sometimes termed adnexal torsion or tubo-ovarian torsion, refers to rotation of the ovary and portion of the fallopian tube supplying the vascular pedicle.
It can be intermittent or sustained and results in venous, arterial and lymphatic stasis. It is a gynaecological emergency and requires urgent surgical intervention to prevent ovarian necrosis.
Epidemiology
Ovarian torsion has a bimodal age distribution occurring mainly in young women (15-30 years) and post-menopausal women. Approximately 20% of the cases occur during pregnancy 1.
Torsion occurs due to two main reasons 2:
hypermobility of the ovary: <50%
-
adnexal mass: ~50-80%
most lesions are dermoid cysts or paraovarian cysts
large cystic ovaries undergoing ovarian hyperstimulation are at particular risk
masses between 5-10 cm are at most risk 13
Clinical presentation
Most patients present with severe non-specific lower abdominal and pelvic pain, either intermittent or sustained, nausea, and vomiting. There is an adnexal tenderness. A raised white cell count is common.
Pathology
The result of vascular compromise secondary to ovarian torsion is haemorrhagic infarction and necrosis, which can occur as rapidly as within hours of torsion onset.
Torsion of a normal ovary more commonly occurs in young children when developmental abnormalities predispose the ovary to torsions, such as excessively long fallopian tubes or an absent mesosalpinx.
In adulthood, causes include both benign and malignant ovarian tumours, polycystic ovaries and adhesions. In early pregnancy, a torsion can occur secondary to a corpus luteal cyst or laxity of the adjacent tissues.
Radiographic features
The main feature of torsion is ovarian enlargement due to venous/lymphatic engorgement, oedema, and haemorrhage. Secondary signs include free pelvic fluid, an underlying ovarian lesion, reduced or absent vascularity and a twisted dilated tubular structure corresponding to the vascular pedicle. Adnexal torsion is commonly unilateral, with a slight (3:2) right-sided predilection (presumably due to the protective effects of the sigmoid colon on the left) 6,8.
Ultrasound
Ultrasound is the initial imaging modality of choice. Sonographic features include:
enlarged (>4 cm) ovary, if the ovaries are normal in size and symmetric, torsion is unlikely.
ovarian oedema 17
-
variable echogenicity (hypo- or hyperechoic)
a long-standing infarcted ovary may have a more complex appearance with cystic or haemorrhagic degeneration
-
peripherally displaced follicles with hyperechoic central stroma
midline ovary position
-
Doppler findings in torsion are widely variable 3
little or no ovarian venous flow (common; sensitivity of 100% and specificity of 97%) 14
absent arterial flow (a less common, sign of poor prognosis)
absent or reversed diastolic flow
-
normal vascularity does not rule out intermittent torsion
normal Doppler flow can also occasionally be found due to dual supply from both the ovarian and uterine arteries
whirlpool sign of twisted vascular pedicle 3
an underlying ovarian lesion may be seen (possible lead point for torsion)
ovary tenderness to transducer pressure 13
free pelvic fluid may be seen in >80% of cases
CT
CT is useful for ruling out ovarian torsion if a normal ovary/adnexa is seen on ultrasound.
There are many features seen on CT which favour ovarian torsion
enlarged ovary
involved ovary shifted to the midline and most often anterior to the uterus
lead mass may be identified
twisted pedicle in the adnexa
uterus displaced to the involved side
minimal free fluid
fat stranding in the adnexa
The appearance of a twisted ovarian pedicle on CT is pathognomonic for ovarian torsion 11.
HU >50 on non-contrast CT suggests haemorrhagic necrosis 2. A lack of contrast enhancement may be seen. Haemorrhagic necrosis is a sign of nonviability.
An underlying ovarian lesion may be present (lead point for torsion).
{{youtube:https://www.youtube.com/watch?v=-mFaxPvllyo}}
MRI
MRI is not the imaging modality of choice if torsion is suspected, as urgent imaging is required.
If haemorrhagic infarction is present, signal changes include 4:
-
T1
thin rim of high signal (methaemoglobin) without contrast enhancement
endometriomas and haemorrhagic corpus luteal cysts are less likely to have a high T1 rim and do not usually involve the entire ovary
T2: can have low signal due to interstitial haemorrhage
Treatment and prognosis
Urgent surgery is required to prevent ovarian necrosis. Most ovaries are not salvageable, in which case a salpingo-oophorectomy is required. If not removed, the necrotic ovary can become infected and cause an abscess or peritonitis. In the case of a non-infarcted adnexa, surgical untwisting can be performed. Mortality resulting from ovarian torsion is rare. Spontaneous detorsion has also been reported.
Differential diagnosis
For an enlarged oedematous ovary +/- fallopian tube, consider:
pelvic inflammatory disease (PID): has a very different clinical presentation
Practical points
the ovary should be tender to transducer pressure
absence of ovarian Doppler flow is highly specific for torsion, but normal Doppler flow does not completely rule out torsion
an ovarian mass causing the torsion must always be sought
-<p><strong>Ovarian torsion</strong>, also sometimes termed <strong>adnexal torsion</strong> or <strong>tubo-ovarian torsion</strong>, refers to rotation of the ovary and portion of the fallopian tube supplying the vascular pedicle. </p><p>It can be intermittent or sustained and results in venous, arterial and lymphatic stasis. It is a gynaecological emergency and requires urgent surgical intervention to prevent ovarian necrosis. </p><h4>Epidemiology</h4><p>Ovarian torsion has a bimodal age distribution occurring mainly in young women (15-30 years) and post-menopausal women. Approximately 20% of the cases occur during pregnancy <sup>1</sup>.</p><p>Torsion occurs due to two main reasons <sup>2</sup>: </p><ul>-<li><p>hypermobility of the ovary: <50%</p></li>-<li>-<p>adnexal mass: ~50-80%</p>-<ul>-<li><p>most lesions are <a href="/articles/mature-cystic-ovarian-teratoma-1">dermoid cysts</a> or <a href="/articles/paraovarian-cyst">paraovarian cysts</a></p></li>-<li><p>large cystic ovaries undergoing ovarian hyperstimulation are at particular risk</p></li>-<li><p>masses between 5-10 cm are at most risk <sup>13</sup></p></li>-</ul>-</li>-</ul><h4>Clinical presentation</h4><p>Most patients present with severe non-specific lower abdominal and pelvic pain, either intermittent or sustained, nausea, and vomiting. There is an adnexal tenderness. A raised white cell count is common.</p><h4>Pathology</h4><p>The result of vascular compromise secondary to ovarian torsion is haemorrhagic infarction and necrosis, which can occur as rapidly as within hours of torsion onset.</p><p>Torsion of a normal ovary more commonly occurs in young children when developmental abnormalities predispose the ovary to torsions, such as excessively long <a href="/articles/fallopian-tube-1">fallopian tubes</a> or an absent <a href="/articles/mesosalpinx">mesosalpinx</a>.</p><p>In adulthood, causes include both benign and malignant <a href="/articles/ovarian-tumours">ovarian tumours</a>, <a href="/articles/polycystic-ovaries">polycystic ovaries</a> and <a href="/articles/abdominal-adhesions">adhesions</a>. In early pregnancy, a torsion can occur secondary to a <a href="/articles/corpus-luteal-cyst">corpus luteal cyst</a> or laxity of the adjacent tissues.</p><h4>Radiographic features</h4><p>The main feature of torsion is ovarian enlargement due to venous/lymphatic engorgement, oedema, and haemorrhage. Secondary signs include free pelvic fluid, an underlying ovarian lesion, reduced or absent vascularity and a twisted dilated tubular structure corresponding to the vascular pedicle. Adnexal torsion is commonly unilateral, with a slight (3:2) right-sided predilection (presumably due to the protective effects of the sigmoid colon on the left) <sup>6,8</sup>.</p><h5>Ultrasound</h5><p>Ultrasound is the initial imaging modality of choice. Sonographic features include:</p><ul>-<li><p>enlarged (>4 cm) ovary, if the ovaries are normal in size and symmetric, torsion is unlikely.</p></li>-<li><p>ovarian oedema <sup>17</sup></p></li>-<li>-<p>variable echogenicity (hypo- or hyperechoic)</p>-<ul><li><p>a long-standing infarcted ovary may have a more complex appearance with cystic or haemorrhagic degeneration</p></li></ul>-</li>-<li>-<p>peripherally displaced follicles with hyperechoic central stroma</p>-<ul><li><p><a href="/articles/follicular-ring-sign">follicular ring sign</a> <sup>16</sup></p></li></ul>-</li>-<li><p>midline ovary position</p></li>-<li>-<p>Doppler findings in torsion are widely variable <sup>3</sup></p>-<ul>-<li><p>little or no ovarian venous flow (common; sensitivity of 100% and specificity of 97%) <sup>14</sup></p></li>-<li><p>absent arterial flow (a less common, sign of poor prognosis)</p></li>-<li><p>absent or reversed diastolic flow</p></li>-<li>-<p>normal vascularity does not rule out intermittent torsion</p>-<ul><li><p>normal Doppler flow can also occasionally be found due to dual supply from both the ovarian and uterine arteries</p></li></ul>-</li>-</ul>-</li>-<li><p><a href="/articles/whirlpool-sign-ovarian-torsion">whirlpool sign</a> of twisted vascular pedicle <sup>3</sup></p></li>-<li><p>an underlying ovarian lesion may be seen (possible lead point for torsion)</p></li>-<li><p>ovary tenderness to transducer pressure <sup>13</sup></p></li>-<li><p>free pelvic fluid may be seen in >80% of cases</p></li>-</ul><h5>CT</h5><p>CT is useful for ruling out ovarian torsion if a normal ovary/adnexa is seen on ultrasound. </p><p>There are many features seen on CT which favour ovarian torsion</p><ul>-<li><p>enlarged ovary</p></li>-<li><p>involved ovary shifted to the midline and most often anterior to the uterus</p></li>-<li><p>lead mass may be identified</p></li>-<li><p>twisted pedicle in the adnexa</p></li>-<li><p>uterus displaced to the involved side</p></li>-<li><p>minimal free fluid </p></li>-<li><p>fat stranding in the adnexa </p></li>-</ul><p>The appearance of a twisted ovarian pedicle on CT is pathognomonic for ovarian torsion <sup>11</sup>. </p><p>HU >50 on non-contrast CT suggests haemorrhagic necrosis <sup>2</sup>. A lack of contrast enhancement may be seen. Haemorrhagic necrosis is a sign of nonviability. </p><p>An underlying ovarian lesion may be present (lead point for torsion). </p><p>{{youtube:https://www.youtube.com/watch?v=-mFaxPvllyo}}</p><h5>MRI</h5><p>MRI is not the imaging modality of choice if torsion is suspected, as urgent imaging is required.</p><p>If haemorrhagic infarction is present, signal changes include <sup>4</sup>:</p><ul>-<li>-<p><strong>T1</strong></p>-<ul>-<li><p>thin rim of high signal (methaemoglobin) without contrast enhancement</p></li>-<li><p><a href="/articles/endometriosis">endometriomas</a> and haemorrhagic corpus luteal cysts are less likely to have a high T1 rim and do not usually involve the entire ovary</p></li>-</ul>-</li>-<li><p><strong>T2:</strong> can have low signal due to interstitial haemorrhage</p></li>-</ul><h4>Treatment and prognosis</h4><p>Urgent surgery is required to prevent ovarian necrosis. Most ovaries are not salvageable, in which case a salpingo-oophorectomy is required. If not removed, the necrotic ovary can become infected and cause an <a href="/articles/tubo-ovarian-abscess-1">abscess</a> or peritonitis. In the case of a non-infarcted adnexa, surgical untwisting can be performed. Mortality resulting from ovarian torsion is rare. Spontaneous detorsion has also been reported.</p><h4>Differential diagnosis</h4><p>For an enlarged oedematous ovary +/- fallopian tube, consider:</p><ul>-<li><p><a href="/articles/pelvic-inflammatory-disease-pid">pelvic inflammatory disease (PID)</a>: has a very different clinical presentation</p></li>-<li><p><a href="/articles/massive-ovarian-oedema-moo">massive ovarian oedema (MOO)</a></p></li>-<li><p><a href="/articles/oophoritis">oophoritis</a></p></li>-</ul><h4>Practical points</h4><ul>-<li><p>the ovary should be tender to transducer pressure</p></li>-<li><p>absence of ovarian Doppler flow is highly specific for torsion, but normal Doppler flow does not completely rule out torsion</p></li>-<li><p>an ovarian mass causing the torsion must always be sought</p></li>- +<p><strong>Ovarian torsion</strong>, also sometimes termed <strong>adnexal torsion</strong> or <strong>tubo-ovarian torsion</strong>, refers to rotation of the ovary and portion of the fallopian tube supplying the vascular pedicle. </p><p>It can be intermittent or sustained and results in venous, arterial and lymphatic stasis. It is a gynaecological emergency and requires urgent surgical intervention to prevent ovarian necrosis. </p><h4>Epidemiology</h4><p>Ovarian torsion has a bimodal age distribution occurring mainly in young women (15-30 years) and post-menopausal women. Approximately 20% of the cases occur during pregnancy <sup>1</sup>.</p><p>Torsion occurs due to two main reasons <sup>2</sup>: </p><ul>
- +<li><p>hypermobility of the ovary: <50%</p></li>
- +<li>
- +<p>adnexal mass: ~50-80%</p>
- +<ul>
- +<li><p>most lesions are <a href="/articles/mature-cystic-ovarian-teratoma-1">dermoid cysts</a> or <a href="/articles/paraovarian-cyst">paraovarian cysts</a></p></li>
- +<li><p>large cystic ovaries undergoing ovarian hyperstimulation are at particular risk</p></li>
- +<li><p>masses between 5-10 cm are at most risk <sup>13</sup></p></li>
- +</ul>
- +</li>
- +</ul><h4>Clinical presentation</h4><p>Most patients present with severe non-specific lower abdominal and pelvic pain, either intermittent or sustained, nausea, and vomiting. There is an adnexal tenderness. A raised white cell count is common.</p><h4>Pathology</h4><p>The result of vascular compromise secondary to ovarian torsion is haemorrhagic infarction and necrosis, which can occur as rapidly as within hours of torsion onset.</p><p>Torsion of a normal ovary more commonly occurs in young children when developmental abnormalities predispose the ovary to torsions, such as excessively long <a href="/articles/fallopian-tube-1">fallopian tubes</a> or an absent <a href="/articles/mesosalpinx">mesosalpinx</a>.</p><p>In adulthood, causes include both benign and malignant <a href="/articles/ovarian-tumours">ovarian tumours</a>, <a href="/articles/polycystic-ovaries">polycystic ovaries</a> and <a href="/articles/abdominal-adhesions">adhesions</a>. In early pregnancy, a torsion can occur secondary to a <a href="/articles/corpus-luteal-cyst">corpus luteal cyst</a> or laxity of the adjacent tissues.</p><h4>Radiographic features</h4><p>The main feature of torsion is ovarian enlargement due to venous/lymphatic engorgement, oedema, and haemorrhage. Secondary signs include free pelvic fluid, an underlying ovarian lesion, reduced or absent vascularity and a twisted dilated tubular structure corresponding to the vascular pedicle. Adnexal torsion is commonly unilateral, with a slight (3:2) right-sided predilection (presumably due to the protective effects of the sigmoid colon on the left) <sup>6,8</sup>.</p><h5>Ultrasound</h5><p>Ultrasound is the initial imaging modality of choice. Sonographic features include:</p><ul>
- +<li><p>enlarged (>4 cm) ovary, if the ovaries are normal in size and symmetric, torsion is unlikely.</p></li>
- +<li><p>ovarian oedema <sup>17</sup></p></li>
- +<li>
- +<p>variable echogenicity (hypo- or hyperechoic)</p>
- +<ul><li><p>a long-standing infarcted ovary may have a more complex appearance with cystic or haemorrhagic degeneration</p></li></ul>
- +</li>
- +<li>
- +<p>peripherally displaced follicles with hyperechoic central stroma</p>
- +<ul><li><p><a href="/articles/follicular-ring-sign">follicular ring sign</a> <sup>16</sup></p></li></ul>
- +</li>
- +<li><p>midline ovary position</p></li>
- +<li>
- +<p>Doppler findings in torsion are widely variable <sup>3</sup></p>
- +<ul>
- +<li><p>little or no ovarian venous flow (common; sensitivity of 100% and specificity of 97%) <sup>14</sup></p></li>
- +<li><p>absent arterial flow (a less common, sign of poor prognosis)</p></li>
- +<li><p>absent or reversed diastolic flow</p></li>
- +<li>
- +<p>normal vascularity does not rule out intermittent torsion</p>
- +<ul><li><p>normal Doppler flow can also occasionally be found due to dual supply from both the ovarian and uterine arteries</p></li></ul>
- +</li>
- +</ul>
- +</li>
- +<li><p><a href="/articles/whirlpool-sign-ovarian-torsion">whirlpool sign</a> of twisted vascular pedicle <sup>3</sup></p></li>
- +<li><p>an underlying ovarian lesion may be seen (possible lead point for torsion)</p></li>
- +<li><p>ovary tenderness to transducer pressure <sup>13</sup></p></li>
- +<li><p>free pelvic fluid may be seen in >80% of cases</p></li>
- +</ul><h5>CT</h5><p>CT is useful for ruling out ovarian torsion if a normal ovary/adnexa is seen on ultrasound. </p><p>There are many features seen on CT which favour ovarian torsion</p><ul>
- +<li><p>enlarged ovary</p></li>
- +<li><p>involved ovary shifted to the midline and most often anterior to the uterus</p></li>
- +<li><p>lead mass may be identified</p></li>
- +<li><p>twisted pedicle in the adnexa</p></li>
- +<li><p>uterus displaced to the involved side</p></li>
- +<li><p>minimal free fluid </p></li>
- +<li><p>fat stranding in the adnexa </p></li>
- +</ul><p>The appearance of a twisted ovarian pedicle on CT is pathognomonic for ovarian torsion <sup>11</sup>. </p><p>HU >50 on non-contrast CT suggests haemorrhagic necrosis <sup>2</sup>. A lack of contrast enhancement may be seen. Haemorrhagic necrosis is a sign of nonviability. </p><p>An underlying ovarian lesion may be present (lead point for torsion). </p><p>{{youtube:https://www.youtube.com/watch?v=-mFaxPvllyo}}</p><h5>MRI</h5><p>MRI is not the imaging modality of choice if torsion is suspected, as urgent imaging is required.</p><p>If haemorrhagic infarction is present, signal changes include <sup>4</sup>:</p><ul>
- +<li>
- +<p><strong>T1</strong></p>
- +<ul>
- +<li><p>thin rim of high signal (methaemoglobin) without contrast enhancement</p></li>
- +<li><p><a href="/articles/endometriosis">endometriomas</a> and haemorrhagic corpus luteal cysts are less likely to have a high T1 rim and do not usually involve the entire ovary</p></li>
- +</ul>
- +</li>
- +<li><p><strong>T2:</strong> can have low signal due to interstitial haemorrhage</p></li>
- +</ul><h4>Treatment and prognosis</h4><p>Urgent surgery is required to prevent ovarian necrosis. Most ovaries are not salvageable, in which case a salpingo-oophorectomy is required. If not removed, the necrotic ovary can become infected and cause an <a href="/articles/tubo-ovarian-abscess-1">abscess</a> or peritonitis. In the case of a non-infarcted adnexa, surgical untwisting can be performed. Mortality resulting from ovarian torsion is rare. Spontaneous detorsion has also been reported.</p><h4>Differential diagnosis</h4><p>For an enlarged oedematous ovary +/- fallopian tube, consider:</p><ul>
- +<li><p><a href="/articles/pelvic-inflammatory-disease-pid">pelvic inflammatory disease (PID)</a>: has a very different clinical presentation</p></li>
- +<li><p><a href="/articles/massive-ovarian-oedema-moo">massive ovarian oedema (MOO)</a></p></li>
- +<li><p><a href="/articles/oophoritis">oophoritis</a></p></li>
- +</ul><h4>Practical points</h4><ul>
- +<li><p>the ovary should be tender to transducer pressure</p></li>
- +<li><p>absence of ovarian Doppler flow is highly specific for torsion, but normal Doppler flow does not completely rule out torsion</p></li>
- +<li><p>an ovarian mass causing the torsion must always be sought</p></li>
Image 40 Ultrasound ( create )
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