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Guidelines for Colonoscopy Surveillance after Cancer Resection: A Consensus Update by the American Cancer Society and US Multi-Society Task Force on Colorectal Cancer^*,

Dr. Rex is Chair, US Multi-Society Task Force on Colorectal Cancer; and Professor of Medicine, Indiana University School of Medicine, Indianapolis, IN.
Dr. Kahi is Assistant Professor of Medicine, Department of Medicine, Division of Gastroenterology and Hepatology, Roudebush VA Medical Center, Indiana University School of Medicine, Indianapolis, IN.
Dr. B. Levin is Vice President, Cancer Prevention and Population Sciences, University of Texas MD Anderson Cancer Center, Houston, TX.
Dr. Smith is Director, Cancer Screening, Cancer Control Science Department, American Cancer Society, Atlanta, GA.
Dr. Bond is Professor of Medicine, University of Minnesota; and Chief, Gastroenterology, Minneapolis VA Medical Center, Minneapolis, MN.
Dr. Brooks is Director, Prostate and Colorectal Cancer, Cancer Control Science Department, American Cancer Society, Atlanta, GA.
Dr. Burt is Interim Executive Director, Huntsman Cancer Institute and Professor of Medicine, University of Utah, Salt Lake City, UT.
Dr. Byers is Program Leader, Clinical Cancer Prevention and Control; and Professor, Department of Epidemiology, University of Colorado, Denver, CO.
Dr. Fletcher is Professor, Ambulatory Care and Prevention, Harvard Medical School, Boston, MA.
Dr. Hyman is Chief, General Surgery, University of Vermont, Burlington, VT.
Dr. Johnson is Professor of Medicine and Chief, Gastroenterology, Eastern Virginia School of Medicine, Norfolk, VA.
Dr. Kirk is Tim and Toni Hartman Professor, Department of Medicine, University of Texas Southwestern Medical Center, Dallas, TX.
Dr. Lieberman is Chief, Division of Gastroenterology, Oregon Health and Science University, Portland, OR.
Dr. T. R. Levin is Associate Chief, Gastroenterology, Kaiser Permanente Medical Center, Walnut Creek, CA.
Dr. O’Brien is Professor, Medical Pathology, Boston University School of Medicine, Boston, MA.
Dr. Simmang is Associate Professor of Surgery, Department of Colon and Rectal Surgery, University of Texas Southwestern Medical Center, Dallas, TX.
Dr. Thorson is Clinical Associate Professor of Surgery, Creighton School of Medicine and the University of Nebraska College of Medicine; Program Director, Section of Colon and Rectal Surgery, Creighton University, Omaha, NE.
Dr. Winawer is Paul Sherlock Chair in Medicine, Gastroenterology and Nutrition Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, NY.

	ABSTRACT

TOP ABSTRACT INTRODUCTION METHODOLOGY AND LITERATURE... DISCUSSION OF EVIDENCE AND... KEY RESEARCH QUESTIONS References

 
Patients with resected colorectal cancer are at risk for recurrent cancer and metachronous neoplasms in the colon. This joint update of guidelines by the American Cancer Society (ACS) and US Multi-Society Task Force on Colorectal Cancer addresses only the use of endoscopy in the surveillance of these patients. Patients with endoscopically resected Stage I colorectal cancer, surgically resected Stage II and III cancers, and Stage IV cancer resected for cure (isolated hepatic or pulmonary metastasis) are candidates for endoscopic surveillance. The colorectum should be carefully cleared of synchronous neoplasia in the perioperative period. In nonobstructed colons, colonoscopy should be performed preoperatively. In obstructed colons, double contrast barium enema or computed tomography colonography should be done preoperatively, and colonoscopy should be performed 3 to 6 months after surgery. These steps complete the process of clearing synchronous disease. After clearing for synchronous disease, another colonoscopy should be performed in 1 year to look for metachronous lesions. This recommendation is based on reports of a high incidence of apparently metachronous second cancers in the first 2 years after resection. If the examination at 1 year is normal, then the interval before the next subsequent examination should be 3 years. If that colonoscopy is normal, then the interval before the next subsequent examination should be 5 years. Shorter intervals may be indicated by associated adenoma findings (see Postpolypectomy Surveillance Guideline). Shorter intervals are also indicated if the patient’s age, family history, or tumor testing indicate definite or probable hereditary nonpolyposis colorectal cancer. Patients undergoing low anterior resection of rectal cancer generally have higher rates of local cancer recurrence, compared with those with colon cancer. Although effectiveness is not proven, performance of endoscopic ultrasound or flexible sigmoidoscopy at 3- to 6-month intervals for the first 2 years after resection can be considered for the purpose of detecting a surgically curable recurrence of the original rectal cancer.

	INTRODUCTION

TOP ABSTRACT INTRODUCTION METHODOLOGY AND LITERATURE... DISCUSSION OF EVIDENCE AND... KEY RESEARCH QUESTIONS References

 
Recommendations (Table 1) on the use of surveillance colonoscopy after resection of colorectal cancer were produced jointly by the US Multi-Society Task Force on Colorectal Cancer and the American Cancer Society (ACS). They constitute the updated recommendations of both organizations. The rationale for combined guidelines by organizations is discussed in the accompanying joint recommendations on postpolypectomy surveillance. These guidelines were endorsed by the Colorectal Cancer Advisory Committee of the ACS and by the governing boards of the American College of Gastroenterology, the American Gastroenterological Association, and the American Society for Gastrointestinal Endoscopy.

Table 2 summarizes the differences in these guidelines from previous guidelines on postcancer resection surveillance colonoscopy.

	METHODOLOGY AND LITERATURE SEARCH

TOP ABSTRACT INTRODUCTION METHODOLOGY AND LITERATURE... DISCUSSION OF EVIDENCE AND... KEY RESEARCH QUESTIONS References

 
The literature search sought to identify randomized controlled trials and cohort studies in which patients with resected colorectal cancer and perioperative clearing of synchronous neoplasia by colonoscopy were followed to detect recurrent and/or metachronous neoplasms.

We searched the medical literature using MEDLINE (1966-January 17, 2005), the Cochrane Database of Systematic Reviews (fourth quarter 2004 update), and the Database of Abstracts of Reviews of Effects (fourth quarter 2004 update). In MEDLINE, subject headings for colorectal neoplasms were combined with subheadings and keywords for "surgery," "resection," "colonoscopy," "surveillance," and "follow-up" to identify relevant citations. Only studies published in the English language were included. Surveillance studies in patients with inflammatory bowel disease or hereditary nonpolyposis colorectal cancer (HNPCC) were specifically excluded. Keyword searches were also performed in the Cochrane Database of Systematic Reviews and the Database of Abstracts of Reviews of Effects to identify any additional systematic reviews. In addition, a manual search was performed using references from retrieved reports, review articles, guidelines, meta-analyses, editorials, and textbooks of gastroenterology.

We excluded articles if there was no evidence of perioperative colonoscopic clearing or if a modality other than colonoscopy (flexible sigmoidoscopy, barium enema) was used for perioperative clearing.

A total of 66 studies were retrieved for detailed evaluation, and 43 were excluded: 26 because of incomplete perioperative colonoscopic clearing or because this was accomplished with modalities other than colonoscopy, 13 did not pertain to the focus of our paper, three were reports of work in progress that were published in final form in other studies included in our analysis, and one reported the preliminary results of an ongoing trial. The remaining 23 studies were included in our analysis.^2–24

Evidence tables were created to summarize the studies and were circulated to members of the US Multi-Society Task Force and the ACS Colorectal Cancer Advisory Committee. The evidence was reviewed and recommendations developed at a joint meeting.

	DISCUSSION OF EVIDENCE AND RATIONALE FOR THE RECOMMENDATIONS

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    Limitations in the Selected Studies
Some limitations were identified in interpreting the selected studies on postcancer surveillance colonoscopy literature.^2–24 For example, the term "metachronous cancer" had variable definitions. In some instances, it was based on the site of tumor appearance within the colon, and in others it was based on time after resection of the initial primary. Many studies made no mention of whether patients may have had hereditary nonpolyposis colorectal cancer. In some cohorts, there was incomplete follow up of patients. Surveillance intervals were different across studies. Some studies did not clearly separate metachronous tumors from anastomotic recurrences or anastomotic from local or regional recurrences. In some cases, there was also failure to report the stage of metachronous cancers and whether or not they were resectable for cure at the time they were diagnosed. In some studies, it was not clear whether colonoscopies were routine procedures in asymptomatic surveillance patients versus diagnostic procedures based on symptoms or laboratory findings. Colonoscopy completion rates and complication rates were commonly not reported, and there was also frequently lack of information on mortality rates. Despite these limitations, a number of clinically relevant trends are evident regarding colorectal cancer recurrence, metachronous cancer, and the utility of surveillance procedures in patients with resected colorectal cancer.

    Candidates for Postcancer Resection Surveillance Colonoscopy
In general, patients who undergo surgical resection of Stage I, II, or III colon and rectal cancers, or curative-intent resection of Stage IV cancers are candidates for surveillance colonoscopy. Patients who undergo curative endoscopic resection of Stage I colon cancers are also candidates for surveillance colonoscopy. Patients with Stage IV colon or rectal cancer that is unresectable for cure are generally not candidates for surveillance colonoscopy because their chance of survival from their primary cancer is low, and the risks of surveillance outweigh any potential benefit.

    Goals of Surveillance: Detection of Recurrent Cancer versus Metachronous Cancers and Adenomas
There are two fundamental goals of surveillance of patients with resected colon or rectal cancer. One goal is the detection of early recurrences of the initial primary cancer at a stage that would allow curative treatment. The second goal is detection of metachronous colorectal neoplasms. In regard to detection of recurrences of the initial primary cancer, serial measurements of carcinoembryonic antigen are widely used.²⁵ In addition, recent meta-analyses of randomized controlled trials suggest that annual chest x-rays and computed tomography (CT) scans of the liver can improve survival from the original primary cancer by early detection of surgically curable recurrences.²⁶ The roles of serial performance of serum carcinoembryonic antigen measurements, serial chest x-rays, and CT scans of the liver are not reviewed here. Neither individual randomized controlled trials of intensive surveillance with colonoscopy²⁰ nor meta-analyses of these trials²⁶ have demonstrated a survival benefit from the original primary tumor by performing colonoscopy at annual or shorter intervals. The failure of surveillance endoscopic exams to improve survival from recurrent colorectal cancer appears to result from relatively low rates of anastomotic or intraluminal recurrence and the observation that anastomotic or intraluminal recurrences are generally associated with intraabdominal or pelvic disease that is unresectable for cure.^2–24,26,27 In summary, performance of annual colonoscopy for the purpose of detecting recurrent disease does not have an established survival benefit for patients with colorectal cancer. (However, as noted below, there is a rationale for surveillance of the rectum after resection of rectal cancer for the detection of local recurrence.) The primary goal of surveillance colonoscopy after resection of colorectal cancer is detection of metachronous neoplasms.

    Distinguishing Rectal Cancer versus Colon Cancer Follow Up
Although there is no established benefit from endoscopic surveillance for the purpose of detecting early recurrences of the original cancer, in clinical practice many clinicians distinguish between rectal and colon cancer in this regard. The distinction is based on differences in the rates of local recurrence of rectal versus colon cancer. Specifically, in the case of colon cancer, recurrence at the anastomosis occurs in only 2% to 4% of patients.^2–24 Because the overwhelming majority of patients with endoscopically detected anastomotic recurrences in the colon are unresectable for cure, surveillance colonoscopy for this purpose generally should not be undertaken. On the other hand, local recurrence rates of rectal cancer can be 10 or more times higher.^28–33

High recurrence rates of rectal cancer are partly a function of surgical technique and volume.^28–33 Specifically, recurrence rates below 10% have been consistently reported when patients are operated on by a technique called total mesorectal excision.^34–36 This technique involves sharp dissection of the rectum and its surrounding adventitia along the first plane outside the adventitia (the mesorectal fascia).^35,36 The technique can be performed using either an open or laparoscopic-assisted approach^37–40 and has been reported to allow higher rates of successful low anterior resection⁴⁰ and lower rates of postoperative sexual dysfunction in men.⁴¹

Local recurrence rates of rectal cancer can also be reduced by administration of chemotherapy and radiation therapy,³⁴ which have been most effectively administered in the neoadjuvant (preoperative) setting to patients with locally advanced disease. Patients with rectal cancer typically undergo preoperative staging, either by endoscopic ultrasound^42–44 or magnetic resonance imaging,^45–48 followed by neoadjuvant chemoradiation in selected patients.⁴⁹ The combination of neoadjuvant chemoradiation and resection by surgeons trained in total mesorectal excision has resulted in very low recurrence rates for rectal cancer.³⁴ Because local recurrence rates for rectal cancer across the United States are generally higher than those achieved in series utilizing total mesorectal excision, there is a rationale for performing periodic examinations of the rectum by rigid or flexible proctoscopy or endoscopic ultrasound. These techniques have not been shown to improve survival, and the only rationale for their use is high rates of local recurrence.

When colon or rectal cancer is resected endoscopically and surgical resection is not planned because of favorable histology⁵⁰ and/or increased surgical risk, a follow-up endoscopic examination to inspect and biopsy the resection site is reasonable.⁵¹ The follow-up examination is considered standard in the case of a sessile malignant polyp removed by piecemeal resection.¹ These examinations are typically performed 3 to 6 months after the initial endoscopic resection.

    Detection of Metachronous Neoplasms
A second potential benefit of surveillance colonoscopy is the detection of metachronous cancers at a surgically curable stage, as well as the prevention of metachronous cancers via identification and removal of adenomatous polyps. The incidence of metachronous cancers, the timing at which metachronous cancers occur, and the stage of these cancers at presentation or identification by surveillance colonoscopy should determine the optimal intervals for performance of surveillance colonoscopy directed toward metachronous disease. The evidence from published studies of postcancer resection surveillance in colonoscopy was reviewed to determine what these rates and timing of metachronous cancers are (Table 3). Limitations in interpretation of this literature were described above.

From 2% to 7% of patients with colorectal cancer have one or more synchronous cancers in the colon and rectum at the time of initial diagnosis.^{3,4,13,24,52,53} From a practical perspective, it is impossible to differentiate whether apparent metachronous cancers appearing in the interval shortly after resection of colorectal cancer are true metachronous lesions or missed synchronous lesions. Provided that appropriate clearing of the colon is achieved in the perioperative period, all subsequently identified cancers are, for practical purposes, metachronous lesions.

Among 23 studies in which patients underwent perioperative clearing by colonoscopy, there were 9,029 patients in whom 137 apparent metachronous cancers developed.^2–24 Among studies in which the number of colonoscopies performed could be determined, 9,407 colonoscopies were performed to detect 60 metachronous cancers in 2,706 patients.^{4,8,10,11,13,15,20,21,23,24} This is a rate of 157 colonoscopies per metachronous cancer detected, which compares favorably to the rate of prevalent cancers detected during screening colonoscopy. Thus, among four screening colonoscopy studies in patients age 50 and older,^54–57 the number of colonoscopies needed to detect one invasive cancer was 135. Excluding reference 55, which was performed in male veterans, (a group expected to have higher prevalence of neoplasia), 156 colonoscopies were performed per invasive cancer detected in the remaining three studies.^54,56,57

Among studies of post cancer resection surveillance colonoscopy, there were 57 metachronous cancers in the first 2 years after resection of the initial primary, with an incidence rate of 0.7% over this interval. This estimate is consistent with a review of tumor registries in Nebraska, which calculated an annual incidence for metachronous cancers of 0.35% per year.⁵⁸ When reported, 69 of 106 (65%) of metachronous cancers were Dukes’ Stage A or B,^{2,8–10,13,20,23,24} 29 of 52 (56%) were asymptomatic,^{2,6,8,10,12,18,20} and 62 of 71 (87%) were operated for cure.^{2,6,8,10,12–14,23,24} Taken together, these findings were considered sufficient to warrant a colonoscopy 1 year after resection or after the perioperative clearing colonoscopy for the purpose of identification of apparently metachronous colorectal neoplasms. The recommendation to perform a colonoscopy at 1 year does not diminish the need for high quality in the performance of the perioperative clearing examination(s) for synchronous neoplasms.

    Alternatives to Colonoscopy for Surveillance
Colonoscopy is considered the test of choice for detection of metachronous neoplasms in the postcancer resection surveillance colonoscopy setting (Table 4). Double contrast barium enema was less sensitive than colonoscopy for large and small polyp detection after resection of adenomas.⁵⁹

CT colonography has not been evaluated adequately in the surveillance setting, and results for polyp detection are quite mixed.^60–63 Guaiac-based fecal occult blood testing has been generally considered to have very low positive predictive value after clearing colonoscopy. This was con-firmed for the first 5 years after colonoscopy in a recent large study.⁶⁴ Immunochemical fecal occult blood testing warrants additional evaluation as an adjunct to colonoscopy⁶⁵ in this setting. Fecal DNA testing⁶⁶ has not been evaluated for postcancer resection surveillance and is not recommended for this indication.

	KEY RESEARCH QUESTIONS

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There are a number of questions that cannot be fully addressed by currently available evidence. Some of these key research questions are listed in Table 5.

	Footnotes

 
This article is available online at http://CAonline.AmCancerSoc.org

*This article is being published jointly in CA: A Cancer Journal for Clinicians (online: May 30, 2006; print: May/June 2006) and Gastroenterology (print: May 2006) by the American Cancer Society and the American Gastroenterology Association.

© 2006 American Cancer Society, Inc. and American Gastroenterology Association, Inc. Copying with attribution allowed for any noncommercial use of the work.

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TOP ABSTRACT INTRODUCTION METHODOLOGY AND LITERATURE... DISCUSSION OF EVIDENCE AND... KEY RESEARCH QUESTIONS References

 

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