AUTHOR AND EDITOR INFORMATION

Section 1 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

INTRODUCTION

Section 2 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

History of the Procedure

Patients with recurrent cervical cancer after primary treatment with surgery and radiation or radiation alone are faced with few options because chemotherapy is at best palliative, and the 1- and 5-year survival rates are, respectively, 15% and less than 5%.

Pelvic exenteration was first reported by Brunschwig in 1948 as an especially radical surgical treatment for advanced and recurrent cervical cancer. It was described as "the most radical surgical attack so far described for pelvic cancer" and at the time had an operative mortality rate of 23%.

Pelvic exenteration continues to be the only curative option in certain patients with centrally recurrent cervical, vaginal, or vulvar cancers. Since Brunschwig's time, improvements in critical care, antibiotics, hyperalimentation, and thromboembolism prophylaxis, accompanied by similar advances in surgical technique, including the use of stapling devices, separate urinary conduits, and pelvic reconstruction, have improved the morbidity and mortality rates associated with the procedure. Currently, operative mortality rates are 3-5%, the major perioperative complication rate is 30-44%, and the overall 5-year survival rate in patients who successfully undergo the procedure is 20-50%.

The first steps in the approach to treating a patient with a biopsy-proven central recurrence are an exhaustive search for distant metastatic disease and evaluation for comorbid conditions. The initial surgical exploration involves a further search for disseminated disease and necessitates a complete assessment of intraperitoneal and retroperitoneal areas that would preclude proceeding with exenteration. This task can be accomplished by laparoscopy in selected patients.

Problem

Cancers arising in the pelvis are often treated with multimodality therapies, including surgical resection and radiation. When these cancers recur, many may be locally advanced but still limited to the pelvis; however, prior treatment with high doses of radiation makes limited surgical resection a difficult undertaking fraught with complications. Furthermore, the response of tumors to chemotherapy within a previously radiated field is extremely poor. In some instances, the only opportunity for cure may lie in complete resection.

Pelvic exenteration is a salvage procedure performed for centrally recurrent gynecologic cancers. To a greater or lesser degree, the procedure involves en bloc resection of all pelvic structures, including the uterus, cervix, vagina, bladder, and rectum. Most candidates for this procedure have a diagnosis of recurrent cervical cancer that has previously been treated with surgery and radiation or radiation alone. In some cases, patients with recurrent uterine, vulvar, or vaginal cancers may benefit from pelvic exenteration. In general, patients with ovarian cancer are not candidates because of the distant pattern of spread associated with ovarian cancers.

Clinical

Patients with recurrent cervical cancer after radiation therapy usually present with bleeding, hematuria, or pelvic pain. In some cases, the first sign of recurrence is the discovery of hydronephrosis or abnormal cytology on routine follow-up. Before proceeding with the surgical procedure, confirming a recurrence with a pathologic specimen obtained by biopsy is essential. In patients who have previously had high doses of pelvic radiation, physical examination is notoriously unreliable, and bleeding and pain may be related to radiation changes rather than recurrent disease. The clinical triad of leg edema, ureteral obstruction, and leg pain is almost pathognomonic for disease extending to the pelvic sidewall and is generally considered a contraindication to surgery.

INDICATIONS

Section 3 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Pelvic exenteration is primarily indicated for centrally recurrent cervical cancers in patients who have received definitive radiation therapy. The procedure is appropriate in patients who meet criteria for any recurrent pelvic tumor if a chance of cure exists with the procedure. On occasion, pelvic exenteration can be performed as a palliative procedure for control of local disease causing severe fistulas or other unmanageable symptoms.

CONTRAINDICATIONS

Section 4 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Absolute contraindications include peritoneal metastasis and skip metastasis to bowel. Relative contraindications include metastasis to retroperitoneal nodes, direct tumor invasion of adherent bowel loops, and hydroureter or hydronephrosis.

Determination of the extent of resection is based on sidewall involvement, infralevator versus supralevator, and anterior versus posterior versus total exenteration.

WORKUP

Section 5 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Lab Studies

• Preoperative laboratory evaluations should include the following:
• • CBC count
  • Comprehensive metabolic panel
  • Coagulation studies
  • Type and crossmatch for blood products
• Because most patients have received prior treatment, including pelvic radiation therapy, an increased likelihood exists of preoperative anemia and, occasionally, neutropenia. A large number of patients also have poor nutritional status and electrolyte abnormalities.
• Other testing depends on the existence of other comorbid conditions in individual patients.

Imaging Studies

• The use of imaging studies in evaluating a patient for pelvic exenteration depends on the initial assessment of tumor size and location.
• Most patients need a CT scan of the abdomen and pelvis and a chest radiograph. Other imaging studies may be used as needed for evaluation of potential areas suspicious for metastatic involvement.
• • Chest radiograph or CT scan
  • CT scans of abdomen and pelvis
  • MRI to evaluate musculoskeletal involvement
  • Liver ultrasonography to evaluate for metastatic disease
  • Bone scan to evaluate for metastatic disease
  • Positron emission tomography (PET) scanning: PET scanning remains investigational in the evaluation of cervical cancer but may be very useful in excluding small areas of distant metastatic disease.

Other Tests

• Psychosocial assessments of patient's ability to adequately manage postoperative physical and psychological issues
• Assessment of comorbid conditions

Diagnostic Procedures

• Biopsy confirmation of recurrent cancer

Histologic Findings

Most cervical cancers are squamous cell carcinomas, though the incidence of adenocarcinomas of the cervix is rising. Rare histologic types are occasionally encountered and include adenosarcomas, uterine sarcomas, and cervical or vulvar melanomas.

TREATMENT

Section 6 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Medical therapy

Chemotherapy in patients with recurrent cervical cancer is an option for patients with distant metastatic disease and for those who are not candidates for pelvic exenteration. Several regimens have been evaluated, and response rates of 5-40% are described. Most responses are at best partial and of short duration; therefore, chemotherapy is generally a poor alternative to surgery in patients with recurrent disease.

Preoperative details

Preparation

An antibiotic and a mechanical bowel preparation are administered on the day prior to surgery. The stoma sites are marked on the skin before surgery. Prophylactic antibiotics are administered in the operating room, and pneumatic calf compression units are placed on the legs prior to the anesthetic induction. Prepare and drape the potential operative field, including the entire abdomen, perineum, vagina, rectum, and thighs.

Position

The procedure is typically performed with the patient in the lithotomy position. The patient's legs are carefully placed in Allen or other supported stirrups. The correct positioning places the weight on the feet and includes padding to ensure protection from neurologic injury and to prevent compartment syndrome.

Vascular access

Adequate vascular access must be available in order to ensure that rapid fluid and blood product resuscitation can be instituted if needed. Vascular access also allows invasive cardiovascular monitoring as indicated.

Intraoperative details

Exploration

The patient is placed in the low lithotomy position, and, through a midline incision, the abdomen and pelvis are thoroughly explored. The liver, peritoneal and bowel surfaces, aortic and pelvic nodal groups, and pelvic sidewall are carefully evaluated. Biopsies of any suspicious sites are obtained and examined by frozen section. Distant and peritoneal metastases are absolute contraindications to exenteration.

Controversy exists regarding whether to proceed in the presence of nodal metastasis, which reduces the survival rate to 5%, or direct tumor invasion of any adherent loop of sigmoid colon or small bowel. The issue of sidewall involvement is important in determining resectability because the goal is to achieve negative surgical margins. In some centers, the availability of intraoperative radiation therapy (IORT) allows resection with close margins, but grossly positive margins confer an extremely poor prognosis. The process of dissecting open avascular spaces allows for further determination of resectability with adequate margins.

The pararectal, paravesical, and Retzius spaces are developed under direct visualization, and the cardinal ligaments are isolated by this method. The pelvic retroperitoneal spaces are opened, and the ureters and internal and external iliac vessels are identified and tagged as necessary. This allows identification of pelvic nodal metastasis, dissection of the ureter, and visualization of vessels, which may require ligation to control or prevent excessive bleeding.

Exenteration

Total pelvic exenteration

After the hypogastric artery is identified and its anterior division or the uterine artery is divided, the cardinal ligaments are divided at the pelvic sidewall. This can be accomplished using endoscopic stapling devices. The ureters are dissected free of the lateral peritoneum and are clipped and divided, leaving as much length as feasible. The retrorectal space between the sigmoid and the sacrum and coccyx is developed. The sigmoid arcade and the superior rectal vessels are ligated. The sigmoid is then divided using a gastrointestinal assistant (GIA) stapler.

Supralevator exenteration

The rectum is lifted off the sacral hollow posteriorly using blunt and sharp dissection. The lateral attachments are freed using the endoscopic GIA. Anteriorly, the bladder is completely freed from the public symphysis, and the vesicourethral junction is identified. (The resection is thus carried en bloc to the level of the levator ani.) If a supralevator exenteration is adequate, the urethra is divided anteriorly; the rectum, posteriorly at the level of the pelvic floor; and the vagina, below the level of the tumor with adequate margins.

Infralevator exenteration

For the perineal phase, a second team of surgeons is usually involved. A total vaginectomy and urethrectomy is accomplished by making a circumferential incision inside the vulva; if necessary, resection of the anus is also incorporated. The vagina is dissected off the levator muscles unless they have tumor involvement. If this is the case, the muscle is excised to obtain an adequate margin. The rectovaginal space is developed from above and below, and lateral rectal pillars are divided. The rectum is divided using the GIA stapler at the level of the mid vagina (if a complete perineal resection is not being performed), and the specimen is thus freed completely and removed.

Reconstruction

Rectal anastomosis

The decision to perform an end-sigmoid colostomy or a low rectal anastomosis is based on the level of the resection, the length of the rectal stump, and the extent of other concomitant procedures. A low rectal anastomosis can usually be accomplished using the circular end-to-end anastomotic stapling device. Reports have evaluated the complications associated with a rectal anastomosis at the time of pelvic exenteration, and the overall incidence of anastomotic leaks or fistula formation is 30-50%. A protective colostomy or omental wrap has not been found to have a significant impact on the incidence of successful healing. Recent data suggest that a higher leak rate occurs in patients undergoing concomitant procedures such as IORT and continent urinary diversions.

Urinary diversion

Several options exist for urinary diversion, and the choice of continent versus noncontinent urinary diversion is based on assessment of the patient's ability to care for a continent pouch and availability of right colon and ileum with the ileocecal valve. The best option for noncontinent diversion is an ileal urinary conduit in which the ureters are implanted in an isoperistaltic manner into a segment of small bowel, one end of which is brought out as a cutaneous stoma.

The continent pouch uses the right colon as a low-pressure reservoir, with the ileum, ileocecal valve, or appendix specially configured to create the continence mechanism. A variety of continent pouches with small variations have been described. Complications associated with both continent and noncontinent urinary diversions in women who are gynecologic oncology patients have been reported by several authors. A continent urinary diversion allows the patient to have only a single ostomy bag, or none at all, and it can be successfully accomplished in patients with gynecologic cancer. Early complication rates range from 12-53%, and long-term complication rates from 33-37%. The reoperation rate is 6-8%.

Vaginal reconstruction

Several methods for vaginal and pelvic reconstruction have been described. An omental flap can be accomplished, generally with minimal morbidity, and serves to carpet the raw exposed surfaces of the exenterated pelvis. Myocutaneous grafts, including rectus and gracilis muscle flaps, can be brought into the pelvis and perineum to create pelvic support and a neovagina. Split-thickness skin grafts have also been used to create neovaginas.

Follow-up

For excellent patient education resources, visit eMedicine's Cancer and Tumors Center. Also, see eMedicine's patient education article Cervical Cancer.

COMPLICATIONS

Section 7 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

The potential complications after pelvic exenteration are numerous. Almost every patient develops at least 1 complication, and approximately 40-50% experience a major complication requiring further diagnostic and therapeutic procedures. The operative mortality rate is 2-5% in modern series. The major early postoperative complications include blood loss, sepsis, wound dehiscence, and anastomotic breakdown at the level of the bowel, urinary pouch, or ureteral sites. The rate of late complications is lower, but approximately one third of patients experience fistula, bowel obstruction, ureteral strictures, renal failure, pyelonephritis, and chronic bowel obstructions. Other complications include deep venous thrombosis and pulmonary emboli, flap necrosis, and stomal necrosis.

OUTCOME AND PROGNOSIS

Section 8 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Reported 5-year survival rates after pelvic exenteration range from 23-61%. The most common site of recurrence is the pelvis. Poor prognostic factors associated with recurrence after exenteration include tumor size greater than 3 cm, pelvic sidewall or resection margin involvement, nodal metastasis, and time interval of less than 1 year from prior radiation treatment.

FUTURE AND CONTROVERSIES

Section 9 of 10  

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

Controversy continues regarding the appropriate selection of patients for exenteration and the use of IORT, preexenteration chemotherapy, concomitant continent urinary diversion, and low rectal anastomosis.

REFERENCES

Section 10 of 10

• Authors and Editors
• Introduction
• Indications
• Contraindications
• Workup
• Treatment
• Complications
• Outcome and Prognosis
• Future and Controversies
• References

• Brunschwig A. Complete excision of the pelvic viscera for advanced carcinoma. Cancer. 1948;1:177.
• Eifel P, Berek JS, Thigpen JT. Cancer of the cervix, vagina and vulva. In: Cancer Principles and Practice of Oncology. Philadelphia, Pa:. Lippincott Williams & Wilkins;1997:1433-1478.
• Hatch KD, Gelder MS, Soong SJ, et al. Pelvic exenteration with low rectal anastomosis: survival, complications, and prognostic factors. Gynecol Oncol. Sep 1990;38(3):462-7. [Medline].
• Husain A, Curtin J, Brown C, et al. Continent urinary diversion and low-rectal anastomosis in patients undergoing exenterative procedures for recurrent gynecologic malignancies. Gynecol Oncol. Aug 2000;78(2):208-11. [Medline].
• Miller B, Morris M, Rutledge F, et al. Aborted exenterative procedures in recurrent cervical cancer. Gynecol Oncol. Jul 1993;50(1):94-9. [Medline].
• Morley GW, Hopkins MP, Lindenauer SM, Roberts JA. Pelvic exenteration, University of Michigan: 100 patients at 5 years. Obstet Gynecol. Dec 1989;74(6):934-43. [Medline].
• Morrow CP, Curtin JP. Surgery for cervical neoplasia. In: Gynecologic Cancer Surgery. 1st ed. Churchill Livingstone;1996.
• Penalver MA, Barreau G, Sevin BU, Averette HE. Surgery for the treatment of locally recurrent disease. J Natl Cancer Inst Monogr. 1996;(21):117-22. [Medline].
• Penalver MA, Angioli R, Mirhashemi R, Malik R. Management of early and late complications of ileocolonic continent urinary reservoir (Miami pouch). Gynecol Oncol. Jun 1998;69(3):185-91. [Medline].
• Plante M, Roy M. The use of operative laparoscopy in determining eligibility for pelvic exenteration in patients with recurrent cervical cancer. Gynecol Oncol. Dec 1995;59(3):401-4. [Medline].
• Rose PG, Blessing JA, Gershenson DM, et al. Paclitaxel and cisplatin as first-line therapy in recurrent or advanced squamous cell carcinoma of the cervix: a gynecologic oncology group study. J Clin Oncol. Sep 1999;17(9):2676-80. [Medline].
• Rutledge FN, Smith JP, Wharton JT, O''Quinn AG. Pelvic exenteration: analysis of 296 patients. Am J Obstet Gynecol. Dec 15 1977;129(8):881-92. [Medline].
• Stehman FB, Perez CA, Kurman RJ. Uterine cervix. In: Principles and Practice of Gynecologic Oncology. 3rd ed. Lippincott Williams & Wilkins;2000:841-918.
• Sugiyama T, Yakushiji M, Noda K, et al. Phase II study of irinotecan and cisplatin as first-line chemotherapy in advanced or recurrent cervical cancer. Oncology. 2000;58(1):31-7. [Medline].

Article Last Updated: Feb 2, 2006