Ovarian cancer screening update

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Ovarian cancer remains the most deadly gynecologic malignancy in the United States with more than 14,000 deaths in 2016. Yet, the prevalence remains low with approximately 22,000 cases in 2016. Stage at diagnosis is one of the strongest predictors of overall survival. The 5-year overall survival is more than 90% with stage I disease; this drops to 25% for those with distant metastases. Unfortunately, three-quarters of patients have disease spread beyond the ovary at the time ovarian cancer is clinically identified.

In this update, we will review:

• The fundamentals of ovarian cancer screening.

• How to identify patients who would benefit from surveillance.

• The usefulness of tumor markers.

• The results from recent large ovarian cancer screening trials.

Screening is a critical part of secondary prevention through early disease detection, when patients are asymptomatic and treatment can stop progression. Core principles of a good screening test are that the test is noninvasive, tolerable to the patient, and not costly. The disease should pose a major health threat and be detected at a stage at which intervention can impart a survival advantage. Most critically, the test should be sensitive and specific (i.e., detect disease when it is truly present and rarely be positive in the absence of disease).

Dr. Emma C. Rossi
The likelihood that a screening test accurately diagnoses the disease is referred to as the positive or negative predictive value. For example, the positive predictive value refers to the probability that a patient has ovarian cancer when the test is positive. These predictive values rely strongly on the prevalence of the disease in the test population. Herein lies the major challenge with ovarian cancer screening: The average lifetime risk of developing ovarian cancer is low, approximately 1 in 70. Even a clinical test with 100% sensitivity and 99% specificity would have a positive predictive value of just 4.8%.1.

Dr. Stuart R. Pierce
A further challenge for ovarian cancer screening is that the confirmatory test requires a major surgical procedure – oophorectomy or ovarian cystectomy – with its own potential risk and harm. Currently, all North American expert groups, including the U.S. Preventive Services Task Force and the Society of Gynecologic Oncology, recommend against screening patients who are at average risk for ovarian cancer.

Screening vs. case finding

A significant distinction should be made between average-risk patients and high-risk patients. Ob.gyns. frequently encounter high-risk patients who would benefit from regular surveillance or case finding (for example, patients with BRCA deleterious mutations or with Lynch syndrome). There are multiple risk factors for ovarian cancer, but the strongest known is family history, which is present in 15% of ovarian cancer patients. Having one relative with ovarian cancer increases the lifetime risk of ovarian cancer up to 5%. When a patient reports having one or more family members with ovarian cancer, it is important to differentiate between a common sporadic presentation and a rare familial cancer syndrome. ACOG Practice Bulletin 103 provides excellent guidance on which patients warrant formal genetic risk assessments by a genetic counselor.2

Tumor markers

During the last 25 years, screening for ovarian cancer in an average-risk population has been evaluated in multiple large prospective studies using serum tumor markers (i.e., CA 125) and ultrasound results.

CA 125 and HE4 tumor markers are frequently elevated in ovarian cancer and have been studied in ovarian cancer screening. However, while having a high sensitivity for detecting disease, they are nonspecific because they are also elevated in numerous benign conditions and therefore have not proven to be a useful screening tool in the average-risk population. There are clinically available tumor marker panels that are not intended for screening. Rather, they clarify the uncertainty of the presurgical adnexal mass evaluation by providing a risk score. High risk scores are generally managed in conjunction with a gynecologic oncology referral.

Multimodal screening

Combined assessment of both ultrasound findings and tumor marker levels shows more promise with respect to prediction of ovarian cancer. However, a systematic review of 25 ovarian cancer screening studies concluded that screening low-risk populations should not be included in clinical practice until randomized trials assessed the effect on mortality and the risk of adverse events. Three large randomized controlled trials have been completed to date.3,4,5

The U.K. Collaborative Trial of Ovarian Cancer Screening (UKCTOCS) results appear promising. However, the revealing analysis was post hoc since the original study design did not take into account the inherent delayed effect in screening studies. While these results may provide a basis for future successful screening for ovarian cancer, confirmatory further analysis is pending, using additional data over a period of the next 3 years.

Ultimately, we are all excited about the possibility of effective screening protocols for ovarian cancer and await completed analyses of UKCTOCS. Until their benefits are confirmed, screening and preventive measures should be limited to those at high risk for ovarian cancer.

 

 

References

1. Hippokratia. 2007 Apr;11(2):63-6.

2. Obstet Gynecol. 2009 Apr;113(4):957-66.

3. Am J Obstet Gynecol. 2005 Nov;193(5):1630-9.

4. Int J Gynecol Cancer. 2008 May-Jun;18(3):414-20.

5. Lancet. 2016 Mar 5;387(10022):945-56.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Rossi is an assistant professor in the division of gynecologic oncology at UNC–Chapel Hill. They reported having no relevant financial disclosures.

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Ovarian cancer remains the most deadly gynecologic malignancy in the United States with more than 14,000 deaths in 2016. Yet, the prevalence remains low with approximately 22,000 cases in 2016. Stage at diagnosis is one of the strongest predictors of overall survival. The 5-year overall survival is more than 90% with stage I disease; this drops to 25% for those with distant metastases. Unfortunately, three-quarters of patients have disease spread beyond the ovary at the time ovarian cancer is clinically identified.

In this update, we will review:

• The fundamentals of ovarian cancer screening.

• How to identify patients who would benefit from surveillance.

• The usefulness of tumor markers.

• The results from recent large ovarian cancer screening trials.

Screening is a critical part of secondary prevention through early disease detection, when patients are asymptomatic and treatment can stop progression. Core principles of a good screening test are that the test is noninvasive, tolerable to the patient, and not costly. The disease should pose a major health threat and be detected at a stage at which intervention can impart a survival advantage. Most critically, the test should be sensitive and specific (i.e., detect disease when it is truly present and rarely be positive in the absence of disease).

Dr. Emma C. Rossi
The likelihood that a screening test accurately diagnoses the disease is referred to as the positive or negative predictive value. For example, the positive predictive value refers to the probability that a patient has ovarian cancer when the test is positive. These predictive values rely strongly on the prevalence of the disease in the test population. Herein lies the major challenge with ovarian cancer screening: The average lifetime risk of developing ovarian cancer is low, approximately 1 in 70. Even a clinical test with 100% sensitivity and 99% specificity would have a positive predictive value of just 4.8%.1.

Dr. Stuart R. Pierce
A further challenge for ovarian cancer screening is that the confirmatory test requires a major surgical procedure – oophorectomy or ovarian cystectomy – with its own potential risk and harm. Currently, all North American expert groups, including the U.S. Preventive Services Task Force and the Society of Gynecologic Oncology, recommend against screening patients who are at average risk for ovarian cancer.

Screening vs. case finding

A significant distinction should be made between average-risk patients and high-risk patients. Ob.gyns. frequently encounter high-risk patients who would benefit from regular surveillance or case finding (for example, patients with BRCA deleterious mutations or with Lynch syndrome). There are multiple risk factors for ovarian cancer, but the strongest known is family history, which is present in 15% of ovarian cancer patients. Having one relative with ovarian cancer increases the lifetime risk of ovarian cancer up to 5%. When a patient reports having one or more family members with ovarian cancer, it is important to differentiate between a common sporadic presentation and a rare familial cancer syndrome. ACOG Practice Bulletin 103 provides excellent guidance on which patients warrant formal genetic risk assessments by a genetic counselor.2

Tumor markers

During the last 25 years, screening for ovarian cancer in an average-risk population has been evaluated in multiple large prospective studies using serum tumor markers (i.e., CA 125) and ultrasound results.

CA 125 and HE4 tumor markers are frequently elevated in ovarian cancer and have been studied in ovarian cancer screening. However, while having a high sensitivity for detecting disease, they are nonspecific because they are also elevated in numerous benign conditions and therefore have not proven to be a useful screening tool in the average-risk population. There are clinically available tumor marker panels that are not intended for screening. Rather, they clarify the uncertainty of the presurgical adnexal mass evaluation by providing a risk score. High risk scores are generally managed in conjunction with a gynecologic oncology referral.

Multimodal screening

Combined assessment of both ultrasound findings and tumor marker levels shows more promise with respect to prediction of ovarian cancer. However, a systematic review of 25 ovarian cancer screening studies concluded that screening low-risk populations should not be included in clinical practice until randomized trials assessed the effect on mortality and the risk of adverse events. Three large randomized controlled trials have been completed to date.3,4,5

The U.K. Collaborative Trial of Ovarian Cancer Screening (UKCTOCS) results appear promising. However, the revealing analysis was post hoc since the original study design did not take into account the inherent delayed effect in screening studies. While these results may provide a basis for future successful screening for ovarian cancer, confirmatory further analysis is pending, using additional data over a period of the next 3 years.

Ultimately, we are all excited about the possibility of effective screening protocols for ovarian cancer and await completed analyses of UKCTOCS. Until their benefits are confirmed, screening and preventive measures should be limited to those at high risk for ovarian cancer.

 

 

References

1. Hippokratia. 2007 Apr;11(2):63-6.

2. Obstet Gynecol. 2009 Apr;113(4):957-66.

3. Am J Obstet Gynecol. 2005 Nov;193(5):1630-9.

4. Int J Gynecol Cancer. 2008 May-Jun;18(3):414-20.

5. Lancet. 2016 Mar 5;387(10022):945-56.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Rossi is an assistant professor in the division of gynecologic oncology at UNC–Chapel Hill. They reported having no relevant financial disclosures.

Ovarian cancer remains the most deadly gynecologic malignancy in the United States with more than 14,000 deaths in 2016. Yet, the prevalence remains low with approximately 22,000 cases in 2016. Stage at diagnosis is one of the strongest predictors of overall survival. The 5-year overall survival is more than 90% with stage I disease; this drops to 25% for those with distant metastases. Unfortunately, three-quarters of patients have disease spread beyond the ovary at the time ovarian cancer is clinically identified.

In this update, we will review:

• The fundamentals of ovarian cancer screening.

• How to identify patients who would benefit from surveillance.

• The usefulness of tumor markers.

• The results from recent large ovarian cancer screening trials.

Screening is a critical part of secondary prevention through early disease detection, when patients are asymptomatic and treatment can stop progression. Core principles of a good screening test are that the test is noninvasive, tolerable to the patient, and not costly. The disease should pose a major health threat and be detected at a stage at which intervention can impart a survival advantage. Most critically, the test should be sensitive and specific (i.e., detect disease when it is truly present and rarely be positive in the absence of disease).

Dr. Emma C. Rossi
The likelihood that a screening test accurately diagnoses the disease is referred to as the positive or negative predictive value. For example, the positive predictive value refers to the probability that a patient has ovarian cancer when the test is positive. These predictive values rely strongly on the prevalence of the disease in the test population. Herein lies the major challenge with ovarian cancer screening: The average lifetime risk of developing ovarian cancer is low, approximately 1 in 70. Even a clinical test with 100% sensitivity and 99% specificity would have a positive predictive value of just 4.8%.1.

Dr. Stuart R. Pierce
A further challenge for ovarian cancer screening is that the confirmatory test requires a major surgical procedure – oophorectomy or ovarian cystectomy – with its own potential risk and harm. Currently, all North American expert groups, including the U.S. Preventive Services Task Force and the Society of Gynecologic Oncology, recommend against screening patients who are at average risk for ovarian cancer.

Screening vs. case finding

A significant distinction should be made between average-risk patients and high-risk patients. Ob.gyns. frequently encounter high-risk patients who would benefit from regular surveillance or case finding (for example, patients with BRCA deleterious mutations or with Lynch syndrome). There are multiple risk factors for ovarian cancer, but the strongest known is family history, which is present in 15% of ovarian cancer patients. Having one relative with ovarian cancer increases the lifetime risk of ovarian cancer up to 5%. When a patient reports having one or more family members with ovarian cancer, it is important to differentiate between a common sporadic presentation and a rare familial cancer syndrome. ACOG Practice Bulletin 103 provides excellent guidance on which patients warrant formal genetic risk assessments by a genetic counselor.2

Tumor markers

During the last 25 years, screening for ovarian cancer in an average-risk population has been evaluated in multiple large prospective studies using serum tumor markers (i.e., CA 125) and ultrasound results.

CA 125 and HE4 tumor markers are frequently elevated in ovarian cancer and have been studied in ovarian cancer screening. However, while having a high sensitivity for detecting disease, they are nonspecific because they are also elevated in numerous benign conditions and therefore have not proven to be a useful screening tool in the average-risk population. There are clinically available tumor marker panels that are not intended for screening. Rather, they clarify the uncertainty of the presurgical adnexal mass evaluation by providing a risk score. High risk scores are generally managed in conjunction with a gynecologic oncology referral.

Multimodal screening

Combined assessment of both ultrasound findings and tumor marker levels shows more promise with respect to prediction of ovarian cancer. However, a systematic review of 25 ovarian cancer screening studies concluded that screening low-risk populations should not be included in clinical practice until randomized trials assessed the effect on mortality and the risk of adverse events. Three large randomized controlled trials have been completed to date.3,4,5

The U.K. Collaborative Trial of Ovarian Cancer Screening (UKCTOCS) results appear promising. However, the revealing analysis was post hoc since the original study design did not take into account the inherent delayed effect in screening studies. While these results may provide a basis for future successful screening for ovarian cancer, confirmatory further analysis is pending, using additional data over a period of the next 3 years.

Ultimately, we are all excited about the possibility of effective screening protocols for ovarian cancer and await completed analyses of UKCTOCS. Until their benefits are confirmed, screening and preventive measures should be limited to those at high risk for ovarian cancer.

 

 

References

1. Hippokratia. 2007 Apr;11(2):63-6.

2. Obstet Gynecol. 2009 Apr;113(4):957-66.

3. Am J Obstet Gynecol. 2005 Nov;193(5):1630-9.

4. Int J Gynecol Cancer. 2008 May-Jun;18(3):414-20.

5. Lancet. 2016 Mar 5;387(10022):945-56.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Rossi is an assistant professor in the division of gynecologic oncology at UNC–Chapel Hill. They reported having no relevant financial disclosures.

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Preventing and managing vaginal cuff dehiscence

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Preventing and managing vaginal cuff dehiscence

Vaginal cuff dehiscence, or separation of the vaginal incision, is a rare postoperative complication unique to hysterectomy. Morbidity related to evisceration of abdominal contents can be profound and prompt intervention is required.

A 10-year observational study of 11,000 patients described a 0.24% cumulative incidence after all modes of hysterectomy.1 Though data are varied, the mode of hysterectomy does have an impact on the risk of dehiscence.

Dr. Stuart R. Pierce

Laparoscopic (0.64%-1.35%) and robotic (0.46%-1.5%) hysterectomy have a higher incidence than abdominal (0.15%-0.26%) and vaginal (0.08%-0.25%) approaches.2 The use of monopolar cautery for colpotomy and different closure techniques may account for these differences.

Cuff cellulitis, early sexual intercourse, cigarette smoking, poor nutrition, obesity, menopausal status, and corticosteroid use are all proposed risk factors that promote infection, pressure at the vaginal cuff, and poor wound healing. Although some are modifiable, the rarity of this complication has made establishing causality and promoting prevention challenging.

Prevention

• Preoperatively. Treating bacterial vaginosis, Trichomonas vaginalis, gonorrhea, and chlamydia can decrease the risk of cuff cellulitis and dehiscence.3

• Intraoperatively. Surgeons should ensure adequate vaginal margins (greater than 1 cm) with full-thickness cuff closures while avoiding excessive electrocautery.4 Retrospective data show that transvaginal cuff closure is associated with a decreased risk of dehiscence.5 However, given the lack of randomized data and the difficulty controlling for surgeon experience, gynecologists should use the approach that they are most comfortable with. Though the various laparoscopic cuff closure techniques have limited evidence regarding superiority, some experts propose using two-layer cuff closure and barbed sutures.6-8 Several retrospective studies have found an equivalent or a decreased incidence of cuff dehiscence with barbed sutures, compared with other methods (e.g., 0-Vicryl, Endo Stitch).9,10

• Postoperatively. Women should avoid intercourse and lifting more than 15 pounds for at least 6-8 weeks as the vaginal cuff gains tensile strength. Vaginal estrogen can promote healing in postmenopausal patients.11

Management

Patients with vaginal cuff dehiscence commonly present within the first several weeks to months after surgery with pelvic pain (60%-100%), vaginal bleeding (30%-60%), vaginal discharge (30%), or vaginal pressure/mass (30%).1,7 Posthysterectomy patients with these complaints warrant an urgent evaluation. The diagnosis is made during a pelvic exam.

Broad-spectrum antibiotics are necessary because all vaginal cuff separations or dehiscences expose the peritoneal cavity to vaginal flora. Nonsurgical management is reasonable for small separations – less than 25% of the cuff – if there is no evidence of evisceration.

However, surgically closing all recognized cuff dehiscences is reasonable, given the potential for further separation. A vaginal approach is preferred when possible. Women with vaginal cuff dehiscence, stable vital signs, and no evidence of bowel evisceration can be repaired vaginally without an abdominal survey.

In contrast, women with bowel evisceration have a surgical emergency because of the risk of peritonitis and bowel injury. If the eviscerated bowel is not reducible, it should be irrigated and wrapped in a warm moist towel or gauze in preparation for inspection and reduction in the operating room. If the bowel is reducible, the patient can be placed in Trendelenburg’s position. Her vagina should be packed to reduce the risk of re-evisceration as she moves toward operative cuff repair.

If the physician is concerned about bowel injury, inspection via laparoscopy or laparotomy would be reasonable. However, when bowel injury is not suspected, a vaginal technique for dehiscence repair has been described by Matthews et al.:12

1. Expose the cuff with a weighted speculum and Breisky-Navratil retractors.

2. Sharply debride the cuff edges back to viable tissue.

3. Dissect adherent bowel or omentum to allow for full-thickness closure.

4. Place full-thickness, interrupted delayed absorbable sutures to reapproximate the cuff edges.

Cuff dehiscence is a rare but potentially morbid complication of hysterectomy. Prevention, recognition, and appropriate management can avoid life-threatening sequelae.

References

1. Obstet Gynecol. 2011 Oct;118(4):794-801.

2. JSLS. 2012 Oct-Dec;16(4):530-6.

3. Am J Obstet Gynecol. 1990 Sep;163(3):1016-21; discussion 1021-3.

4. Obstet Gynecol. 2013 Mar;121(3):654-73.

5. Obstet Gynecol. 2012 Sep;120(3):516-23.

6. J Am Assoc Gynecol Laparosc. 2002 Nov;9(4):474-80.

7. Eur J Obstet Gynecol Reprod Biol. 2006 Mar 1;125(1):134-8.

8. Obstet Gynecol. 2009 Aug;114(2 Pt 1):231-5.

9. J Minim Invasive Gynecol. 2011 Mar-Apr;18(2):218-23.

10. Int J Surg. 2015 Jul;19:27-30.

11. Maturitas. 2006 Feb 20;53(3):282-98.

12. Obstet Gynecol. 2014 Oct;124(4):705-8.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology and professor in the division of gynecologic oncology at the university. They reported having no relevant financial disclosures.

References

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Vaginal cuff dehiscence, or separation of the vaginal incision, is a rare postoperative complication unique to hysterectomy. Morbidity related to evisceration of abdominal contents can be profound and prompt intervention is required.

A 10-year observational study of 11,000 patients described a 0.24% cumulative incidence after all modes of hysterectomy.1 Though data are varied, the mode of hysterectomy does have an impact on the risk of dehiscence.

Dr. Stuart R. Pierce

Laparoscopic (0.64%-1.35%) and robotic (0.46%-1.5%) hysterectomy have a higher incidence than abdominal (0.15%-0.26%) and vaginal (0.08%-0.25%) approaches.2 The use of monopolar cautery for colpotomy and different closure techniques may account for these differences.

Cuff cellulitis, early sexual intercourse, cigarette smoking, poor nutrition, obesity, menopausal status, and corticosteroid use are all proposed risk factors that promote infection, pressure at the vaginal cuff, and poor wound healing. Although some are modifiable, the rarity of this complication has made establishing causality and promoting prevention challenging.

Prevention

• Preoperatively. Treating bacterial vaginosis, Trichomonas vaginalis, gonorrhea, and chlamydia can decrease the risk of cuff cellulitis and dehiscence.3

• Intraoperatively. Surgeons should ensure adequate vaginal margins (greater than 1 cm) with full-thickness cuff closures while avoiding excessive electrocautery.4 Retrospective data show that transvaginal cuff closure is associated with a decreased risk of dehiscence.5 However, given the lack of randomized data and the difficulty controlling for surgeon experience, gynecologists should use the approach that they are most comfortable with. Though the various laparoscopic cuff closure techniques have limited evidence regarding superiority, some experts propose using two-layer cuff closure and barbed sutures.6-8 Several retrospective studies have found an equivalent or a decreased incidence of cuff dehiscence with barbed sutures, compared with other methods (e.g., 0-Vicryl, Endo Stitch).9,10

• Postoperatively. Women should avoid intercourse and lifting more than 15 pounds for at least 6-8 weeks as the vaginal cuff gains tensile strength. Vaginal estrogen can promote healing in postmenopausal patients.11

Management

Patients with vaginal cuff dehiscence commonly present within the first several weeks to months after surgery with pelvic pain (60%-100%), vaginal bleeding (30%-60%), vaginal discharge (30%), or vaginal pressure/mass (30%).1,7 Posthysterectomy patients with these complaints warrant an urgent evaluation. The diagnosis is made during a pelvic exam.

Broad-spectrum antibiotics are necessary because all vaginal cuff separations or dehiscences expose the peritoneal cavity to vaginal flora. Nonsurgical management is reasonable for small separations – less than 25% of the cuff – if there is no evidence of evisceration.

However, surgically closing all recognized cuff dehiscences is reasonable, given the potential for further separation. A vaginal approach is preferred when possible. Women with vaginal cuff dehiscence, stable vital signs, and no evidence of bowel evisceration can be repaired vaginally without an abdominal survey.

In contrast, women with bowel evisceration have a surgical emergency because of the risk of peritonitis and bowel injury. If the eviscerated bowel is not reducible, it should be irrigated and wrapped in a warm moist towel or gauze in preparation for inspection and reduction in the operating room. If the bowel is reducible, the patient can be placed in Trendelenburg’s position. Her vagina should be packed to reduce the risk of re-evisceration as she moves toward operative cuff repair.

If the physician is concerned about bowel injury, inspection via laparoscopy or laparotomy would be reasonable. However, when bowel injury is not suspected, a vaginal technique for dehiscence repair has been described by Matthews et al.:12

1. Expose the cuff with a weighted speculum and Breisky-Navratil retractors.

2. Sharply debride the cuff edges back to viable tissue.

3. Dissect adherent bowel or omentum to allow for full-thickness closure.

4. Place full-thickness, interrupted delayed absorbable sutures to reapproximate the cuff edges.

Cuff dehiscence is a rare but potentially morbid complication of hysterectomy. Prevention, recognition, and appropriate management can avoid life-threatening sequelae.

References

1. Obstet Gynecol. 2011 Oct;118(4):794-801.

2. JSLS. 2012 Oct-Dec;16(4):530-6.

3. Am J Obstet Gynecol. 1990 Sep;163(3):1016-21; discussion 1021-3.

4. Obstet Gynecol. 2013 Mar;121(3):654-73.

5. Obstet Gynecol. 2012 Sep;120(3):516-23.

6. J Am Assoc Gynecol Laparosc. 2002 Nov;9(4):474-80.

7. Eur J Obstet Gynecol Reprod Biol. 2006 Mar 1;125(1):134-8.

8. Obstet Gynecol. 2009 Aug;114(2 Pt 1):231-5.

9. J Minim Invasive Gynecol. 2011 Mar-Apr;18(2):218-23.

10. Int J Surg. 2015 Jul;19:27-30.

11. Maturitas. 2006 Feb 20;53(3):282-98.

12. Obstet Gynecol. 2014 Oct;124(4):705-8.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology and professor in the division of gynecologic oncology at the university. They reported having no relevant financial disclosures.

Vaginal cuff dehiscence, or separation of the vaginal incision, is a rare postoperative complication unique to hysterectomy. Morbidity related to evisceration of abdominal contents can be profound and prompt intervention is required.

A 10-year observational study of 11,000 patients described a 0.24% cumulative incidence after all modes of hysterectomy.1 Though data are varied, the mode of hysterectomy does have an impact on the risk of dehiscence.

Dr. Stuart R. Pierce

Laparoscopic (0.64%-1.35%) and robotic (0.46%-1.5%) hysterectomy have a higher incidence than abdominal (0.15%-0.26%) and vaginal (0.08%-0.25%) approaches.2 The use of monopolar cautery for colpotomy and different closure techniques may account for these differences.

Cuff cellulitis, early sexual intercourse, cigarette smoking, poor nutrition, obesity, menopausal status, and corticosteroid use are all proposed risk factors that promote infection, pressure at the vaginal cuff, and poor wound healing. Although some are modifiable, the rarity of this complication has made establishing causality and promoting prevention challenging.

Prevention

• Preoperatively. Treating bacterial vaginosis, Trichomonas vaginalis, gonorrhea, and chlamydia can decrease the risk of cuff cellulitis and dehiscence.3

• Intraoperatively. Surgeons should ensure adequate vaginal margins (greater than 1 cm) with full-thickness cuff closures while avoiding excessive electrocautery.4 Retrospective data show that transvaginal cuff closure is associated with a decreased risk of dehiscence.5 However, given the lack of randomized data and the difficulty controlling for surgeon experience, gynecologists should use the approach that they are most comfortable with. Though the various laparoscopic cuff closure techniques have limited evidence regarding superiority, some experts propose using two-layer cuff closure and barbed sutures.6-8 Several retrospective studies have found an equivalent or a decreased incidence of cuff dehiscence with barbed sutures, compared with other methods (e.g., 0-Vicryl, Endo Stitch).9,10

• Postoperatively. Women should avoid intercourse and lifting more than 15 pounds for at least 6-8 weeks as the vaginal cuff gains tensile strength. Vaginal estrogen can promote healing in postmenopausal patients.11

Management

Patients with vaginal cuff dehiscence commonly present within the first several weeks to months after surgery with pelvic pain (60%-100%), vaginal bleeding (30%-60%), vaginal discharge (30%), or vaginal pressure/mass (30%).1,7 Posthysterectomy patients with these complaints warrant an urgent evaluation. The diagnosis is made during a pelvic exam.

Broad-spectrum antibiotics are necessary because all vaginal cuff separations or dehiscences expose the peritoneal cavity to vaginal flora. Nonsurgical management is reasonable for small separations – less than 25% of the cuff – if there is no evidence of evisceration.

However, surgically closing all recognized cuff dehiscences is reasonable, given the potential for further separation. A vaginal approach is preferred when possible. Women with vaginal cuff dehiscence, stable vital signs, and no evidence of bowel evisceration can be repaired vaginally without an abdominal survey.

In contrast, women with bowel evisceration have a surgical emergency because of the risk of peritonitis and bowel injury. If the eviscerated bowel is not reducible, it should be irrigated and wrapped in a warm moist towel or gauze in preparation for inspection and reduction in the operating room. If the bowel is reducible, the patient can be placed in Trendelenburg’s position. Her vagina should be packed to reduce the risk of re-evisceration as she moves toward operative cuff repair.

If the physician is concerned about bowel injury, inspection via laparoscopy or laparotomy would be reasonable. However, when bowel injury is not suspected, a vaginal technique for dehiscence repair has been described by Matthews et al.:12

1. Expose the cuff with a weighted speculum and Breisky-Navratil retractors.

2. Sharply debride the cuff edges back to viable tissue.

3. Dissect adherent bowel or omentum to allow for full-thickness closure.

4. Place full-thickness, interrupted delayed absorbable sutures to reapproximate the cuff edges.

Cuff dehiscence is a rare but potentially morbid complication of hysterectomy. Prevention, recognition, and appropriate management can avoid life-threatening sequelae.

References

1. Obstet Gynecol. 2011 Oct;118(4):794-801.

2. JSLS. 2012 Oct-Dec;16(4):530-6.

3. Am J Obstet Gynecol. 1990 Sep;163(3):1016-21; discussion 1021-3.

4. Obstet Gynecol. 2013 Mar;121(3):654-73.

5. Obstet Gynecol. 2012 Sep;120(3):516-23.

6. J Am Assoc Gynecol Laparosc. 2002 Nov;9(4):474-80.

7. Eur J Obstet Gynecol Reprod Biol. 2006 Mar 1;125(1):134-8.

8. Obstet Gynecol. 2009 Aug;114(2 Pt 1):231-5.

9. J Minim Invasive Gynecol. 2011 Mar-Apr;18(2):218-23.

10. Int J Surg. 2015 Jul;19:27-30.

11. Maturitas. 2006 Feb 20;53(3):282-98.

12. Obstet Gynecol. 2014 Oct;124(4):705-8.

Dr. Pierce is a gynecologic oncology fellow in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology and professor in the division of gynecologic oncology at the university. They reported having no relevant financial disclosures.

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Risk-reducing salpingectomy during surgery for benign indications

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Risk-reducing salpingectomy during surgery for benign indications

Ovarian cancer is the most deadly gynecologic malignancy in the United States, with 14,270 deaths expected in 2014 (CA Cancer J. Clin. 2014;64:9-29 ). The 5-year overall survival remains less than 50%. Difficulties in treatment arise due to its aggressive nature, coupled with vague symptomatology and no effective screening test. Advanced-stage disease at the time of diagnosis is an unfortunate hallmark.

Traditional teaching about the pathogenesis of ovarian cancers has been that a metaplastic change in the mesothelial ovarian surface leads to their de novo development. Under this paradigm, 70% of serous tumors were ovarian, 17% peritoneal, and 13% tubal in origin. However, a major change occurred when BRCA carriers began having risk-reducing bilateral salpingo-oophorectomies (BSO). Sequential histologic sections of the adnexa found occult malignancy in 30% of fallopian tubes, but similar lesions were not present within the ovary (Am. J. Surg. Pathol. 1020;34:1407-16). Could these cancers in the fallopian tube be the precursor lesion and then seed or spread to the ovarian surface?

Molecular and genetic analysis of these serous tubal intraepithelial carcinoma (STIC) cells found p53 mutations that were identical to those in concurrent “ovarian” tumors. STICs have been identified in 70% of nonhereditary forms of serous ovarian cancer. Under this paradigm of STIC as tubal in origin, only 28% of serous tumors were ovarian and 64% were of tubal origin (Am. J. Surg. Pathol. 2007;31:161-9).

This paradigm shift elicited new hypotheses about the etiology of endometrioid and clear cell types of ovarian cancer. Rather than metaplasia of the surface epithelium, endometrioid and clear cell tumors may result from retrograde menstruation, with the fallopian tube acting as a conduit for cells to gain access to the peritoneal cavity and the ovarian surface. This hypothesis provides a mechanism for the 34% reduction in ovarian cancer with bilateral tubal ligation (Hum. Reprod. Update 2011;17:55-67). Interestingly, in a large collaborative pooled analysis, the risk reduction of tubal ligation was greatest for endometrioid and clear cell subtypes (Int. J. Epidemiol. 2013;42:579-89).

Given the mounting evidence of fallopian tube involvement in the development of ovarian cancers, there are new primary prevention considerations. After 5 or more years of oral contraceptive use, a 50% reduction in the relative risk of ovarian cancer has been reported (Ann. Epidemiol. 2011;21:188-96). Bilateral salpingo-oophorectomy provides a greater than 50% risk reduction even in the highest-risk BRCA-positive population. However, results from the Nurses’ Health Study suggest that while there are fewer cancers in a low-risk population following BSO, it comes with an increase in all-cause mortality, predominately due to negative cardiovascular effects. With these issues in mind, is it time to consider incorporating prophylactic bilateral salpingectomy in benign gynecologic surgery (Obstet. Gynecol. 2013;121:709-16)?

While salpingectomy at the time of hysterectomy for benign conditions or for sterilization is becoming more common, there are concerns about premature loss of ovarian function secondary to compromise of ovarian blood supply. However, amassing data demonstrates preserved ovarian function. A retrospective study comparing total laparoscopic hysterectomy (TLH) to TLH with bilateral salpingectomy found no difference in markers of ovarian function (anti-Müllerian hormone, FSH, antral follicle count, mean ovarian diameters) up to 3 months postoperatively (Gynecol. Oncol. 2013;129:448-51). In a randomized controlled trial, 30 women were 1:1 randomized to TLH vs. TLH with salpingectomy. There was no change in anti-Müllerian hormone levels (at 3 months), operative time, or estimated blood loss (Fertil. Steril. 2013;100:1704-8). While there are concerns about the paucity of long-term follow-up data, these initial studies are encouraging. Additionally, a large retrospective study of 540 BRCA-negative patients found no difference in surgical outcomes with salpingectomy (estimated blood loss, hospital stay), and furthermore, the study found that removal of the tubes significantly reduces the risk of developing subsequent benign adnexal lesions by nearly 50% (J. Cancer Res. Clin. Oncol. 2014;140:859-65).

Though salpingectomy removes tubal re-anastomosis as an option in cases of “tubal ligation regret,” wisely choosing candidates can minimize this risk. Women less than 30 years old are at highest risk for regret, and the decision for salpingectomy in these patients should be made with caution and extensive counseling. Yet recently, emerging thought leaders in family planning have called for removal to be routinely considered (Obstet. Gynecol. 2014;124:596-9).

Surgical technique involves electrosurgery or suture ligation just inferior to the fallopian tube, ligating the fallopian branches of the ovarian and utero-ovarian arteries while avoiding unnecessary involvement of ovarian branches within the mesosalpinx. Since the fimbria are thought to be the site of origin for many serous carcinomas, removing the fimbrial portion of the tube is crucial.

 

 

Ovarian cancer remains the most deadly gynecologic malignancy. Efforts to find effective screening methods have not yet delivered. Pathologic data confirms that over half of “ovarian” cancers are actually of tubal origin, and we should consider risk-reducing salpingectomy in the low-risk population. The Society of Gynecologic Oncology in their November 2013 Clinical Practice Statement stated, “For women at average risk of ovarian cancer, risk-reducing salpingectomy should also be discussed and considered with patients at the time of abdominal or pelvic surgery, hysterectomy or in lieu of tubal ligation [once childbearing is complete].”

Dr. Pierce is a third-year resident in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology, and a professor in the division of gynecologic oncology at the university. Dr. Pierce and Dr. Clarke-Pearson said that they had no relevant financial disclosures.

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Ovarian cancer is the most deadly gynecologic malignancy in the United States, with 14,270 deaths expected in 2014 (CA Cancer J. Clin. 2014;64:9-29 ). The 5-year overall survival remains less than 50%. Difficulties in treatment arise due to its aggressive nature, coupled with vague symptomatology and no effective screening test. Advanced-stage disease at the time of diagnosis is an unfortunate hallmark.

Traditional teaching about the pathogenesis of ovarian cancers has been that a metaplastic change in the mesothelial ovarian surface leads to their de novo development. Under this paradigm, 70% of serous tumors were ovarian, 17% peritoneal, and 13% tubal in origin. However, a major change occurred when BRCA carriers began having risk-reducing bilateral salpingo-oophorectomies (BSO). Sequential histologic sections of the adnexa found occult malignancy in 30% of fallopian tubes, but similar lesions were not present within the ovary (Am. J. Surg. Pathol. 1020;34:1407-16). Could these cancers in the fallopian tube be the precursor lesion and then seed or spread to the ovarian surface?

Molecular and genetic analysis of these serous tubal intraepithelial carcinoma (STIC) cells found p53 mutations that were identical to those in concurrent “ovarian” tumors. STICs have been identified in 70% of nonhereditary forms of serous ovarian cancer. Under this paradigm of STIC as tubal in origin, only 28% of serous tumors were ovarian and 64% were of tubal origin (Am. J. Surg. Pathol. 2007;31:161-9).

This paradigm shift elicited new hypotheses about the etiology of endometrioid and clear cell types of ovarian cancer. Rather than metaplasia of the surface epithelium, endometrioid and clear cell tumors may result from retrograde menstruation, with the fallopian tube acting as a conduit for cells to gain access to the peritoneal cavity and the ovarian surface. This hypothesis provides a mechanism for the 34% reduction in ovarian cancer with bilateral tubal ligation (Hum. Reprod. Update 2011;17:55-67). Interestingly, in a large collaborative pooled analysis, the risk reduction of tubal ligation was greatest for endometrioid and clear cell subtypes (Int. J. Epidemiol. 2013;42:579-89).

Given the mounting evidence of fallopian tube involvement in the development of ovarian cancers, there are new primary prevention considerations. After 5 or more years of oral contraceptive use, a 50% reduction in the relative risk of ovarian cancer has been reported (Ann. Epidemiol. 2011;21:188-96). Bilateral salpingo-oophorectomy provides a greater than 50% risk reduction even in the highest-risk BRCA-positive population. However, results from the Nurses’ Health Study suggest that while there are fewer cancers in a low-risk population following BSO, it comes with an increase in all-cause mortality, predominately due to negative cardiovascular effects. With these issues in mind, is it time to consider incorporating prophylactic bilateral salpingectomy in benign gynecologic surgery (Obstet. Gynecol. 2013;121:709-16)?

While salpingectomy at the time of hysterectomy for benign conditions or for sterilization is becoming more common, there are concerns about premature loss of ovarian function secondary to compromise of ovarian blood supply. However, amassing data demonstrates preserved ovarian function. A retrospective study comparing total laparoscopic hysterectomy (TLH) to TLH with bilateral salpingectomy found no difference in markers of ovarian function (anti-Müllerian hormone, FSH, antral follicle count, mean ovarian diameters) up to 3 months postoperatively (Gynecol. Oncol. 2013;129:448-51). In a randomized controlled trial, 30 women were 1:1 randomized to TLH vs. TLH with salpingectomy. There was no change in anti-Müllerian hormone levels (at 3 months), operative time, or estimated blood loss (Fertil. Steril. 2013;100:1704-8). While there are concerns about the paucity of long-term follow-up data, these initial studies are encouraging. Additionally, a large retrospective study of 540 BRCA-negative patients found no difference in surgical outcomes with salpingectomy (estimated blood loss, hospital stay), and furthermore, the study found that removal of the tubes significantly reduces the risk of developing subsequent benign adnexal lesions by nearly 50% (J. Cancer Res. Clin. Oncol. 2014;140:859-65).

Though salpingectomy removes tubal re-anastomosis as an option in cases of “tubal ligation regret,” wisely choosing candidates can minimize this risk. Women less than 30 years old are at highest risk for regret, and the decision for salpingectomy in these patients should be made with caution and extensive counseling. Yet recently, emerging thought leaders in family planning have called for removal to be routinely considered (Obstet. Gynecol. 2014;124:596-9).

Surgical technique involves electrosurgery or suture ligation just inferior to the fallopian tube, ligating the fallopian branches of the ovarian and utero-ovarian arteries while avoiding unnecessary involvement of ovarian branches within the mesosalpinx. Since the fimbria are thought to be the site of origin for many serous carcinomas, removing the fimbrial portion of the tube is crucial.

 

 

Ovarian cancer remains the most deadly gynecologic malignancy. Efforts to find effective screening methods have not yet delivered. Pathologic data confirms that over half of “ovarian” cancers are actually of tubal origin, and we should consider risk-reducing salpingectomy in the low-risk population. The Society of Gynecologic Oncology in their November 2013 Clinical Practice Statement stated, “For women at average risk of ovarian cancer, risk-reducing salpingectomy should also be discussed and considered with patients at the time of abdominal or pelvic surgery, hysterectomy or in lieu of tubal ligation [once childbearing is complete].”

Dr. Pierce is a third-year resident in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology, and a professor in the division of gynecologic oncology at the university. Dr. Pierce and Dr. Clarke-Pearson said that they had no relevant financial disclosures.

Ovarian cancer is the most deadly gynecologic malignancy in the United States, with 14,270 deaths expected in 2014 (CA Cancer J. Clin. 2014;64:9-29 ). The 5-year overall survival remains less than 50%. Difficulties in treatment arise due to its aggressive nature, coupled with vague symptomatology and no effective screening test. Advanced-stage disease at the time of diagnosis is an unfortunate hallmark.

Traditional teaching about the pathogenesis of ovarian cancers has been that a metaplastic change in the mesothelial ovarian surface leads to their de novo development. Under this paradigm, 70% of serous tumors were ovarian, 17% peritoneal, and 13% tubal in origin. However, a major change occurred when BRCA carriers began having risk-reducing bilateral salpingo-oophorectomies (BSO). Sequential histologic sections of the adnexa found occult malignancy in 30% of fallopian tubes, but similar lesions were not present within the ovary (Am. J. Surg. Pathol. 1020;34:1407-16). Could these cancers in the fallopian tube be the precursor lesion and then seed or spread to the ovarian surface?

Molecular and genetic analysis of these serous tubal intraepithelial carcinoma (STIC) cells found p53 mutations that were identical to those in concurrent “ovarian” tumors. STICs have been identified in 70% of nonhereditary forms of serous ovarian cancer. Under this paradigm of STIC as tubal in origin, only 28% of serous tumors were ovarian and 64% were of tubal origin (Am. J. Surg. Pathol. 2007;31:161-9).

This paradigm shift elicited new hypotheses about the etiology of endometrioid and clear cell types of ovarian cancer. Rather than metaplasia of the surface epithelium, endometrioid and clear cell tumors may result from retrograde menstruation, with the fallopian tube acting as a conduit for cells to gain access to the peritoneal cavity and the ovarian surface. This hypothesis provides a mechanism for the 34% reduction in ovarian cancer with bilateral tubal ligation (Hum. Reprod. Update 2011;17:55-67). Interestingly, in a large collaborative pooled analysis, the risk reduction of tubal ligation was greatest for endometrioid and clear cell subtypes (Int. J. Epidemiol. 2013;42:579-89).

Given the mounting evidence of fallopian tube involvement in the development of ovarian cancers, there are new primary prevention considerations. After 5 or more years of oral contraceptive use, a 50% reduction in the relative risk of ovarian cancer has been reported (Ann. Epidemiol. 2011;21:188-96). Bilateral salpingo-oophorectomy provides a greater than 50% risk reduction even in the highest-risk BRCA-positive population. However, results from the Nurses’ Health Study suggest that while there are fewer cancers in a low-risk population following BSO, it comes with an increase in all-cause mortality, predominately due to negative cardiovascular effects. With these issues in mind, is it time to consider incorporating prophylactic bilateral salpingectomy in benign gynecologic surgery (Obstet. Gynecol. 2013;121:709-16)?

While salpingectomy at the time of hysterectomy for benign conditions or for sterilization is becoming more common, there are concerns about premature loss of ovarian function secondary to compromise of ovarian blood supply. However, amassing data demonstrates preserved ovarian function. A retrospective study comparing total laparoscopic hysterectomy (TLH) to TLH with bilateral salpingectomy found no difference in markers of ovarian function (anti-Müllerian hormone, FSH, antral follicle count, mean ovarian diameters) up to 3 months postoperatively (Gynecol. Oncol. 2013;129:448-51). In a randomized controlled trial, 30 women were 1:1 randomized to TLH vs. TLH with salpingectomy. There was no change in anti-Müllerian hormone levels (at 3 months), operative time, or estimated blood loss (Fertil. Steril. 2013;100:1704-8). While there are concerns about the paucity of long-term follow-up data, these initial studies are encouraging. Additionally, a large retrospective study of 540 BRCA-negative patients found no difference in surgical outcomes with salpingectomy (estimated blood loss, hospital stay), and furthermore, the study found that removal of the tubes significantly reduces the risk of developing subsequent benign adnexal lesions by nearly 50% (J. Cancer Res. Clin. Oncol. 2014;140:859-65).

Though salpingectomy removes tubal re-anastomosis as an option in cases of “tubal ligation regret,” wisely choosing candidates can minimize this risk. Women less than 30 years old are at highest risk for regret, and the decision for salpingectomy in these patients should be made with caution and extensive counseling. Yet recently, emerging thought leaders in family planning have called for removal to be routinely considered (Obstet. Gynecol. 2014;124:596-9).

Surgical technique involves electrosurgery or suture ligation just inferior to the fallopian tube, ligating the fallopian branches of the ovarian and utero-ovarian arteries while avoiding unnecessary involvement of ovarian branches within the mesosalpinx. Since the fimbria are thought to be the site of origin for many serous carcinomas, removing the fimbrial portion of the tube is crucial.

 

 

Ovarian cancer remains the most deadly gynecologic malignancy. Efforts to find effective screening methods have not yet delivered. Pathologic data confirms that over half of “ovarian” cancers are actually of tubal origin, and we should consider risk-reducing salpingectomy in the low-risk population. The Society of Gynecologic Oncology in their November 2013 Clinical Practice Statement stated, “For women at average risk of ovarian cancer, risk-reducing salpingectomy should also be discussed and considered with patients at the time of abdominal or pelvic surgery, hysterectomy or in lieu of tubal ligation [once childbearing is complete].”

Dr. Pierce is a third-year resident in the department of obstetrics and gynecology at the University of North Carolina at Chapel Hill. Dr. Clarke-Pearson is the chair and the Robert A. Ross Distinguished Professor of Obstetrics and Gynecology, and a professor in the division of gynecologic oncology at the university. Dr. Pierce and Dr. Clarke-Pearson said that they had no relevant financial disclosures.

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Risk-reducing salpingectomy during surgery for benign indications
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risk-reducing salpingectomy surgery benign salpingo-oophorectomy ovarian cancer fallopian tubes
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