1. Colon Cancer Epidemiology, Treatment, and Survival
David Geffen UCLA School of Medicine
2007 Cancer Survivorship Grant
Authors: Wendy Liu, James S. Tomlinson, M.D.

2. Goals of this Module
This is an interactive and self-directed learning module intended to build a foundation of knowledge around the epidemiology, diagnosis, treatment and survival of colon cancer patients. You will be presented with a patient case and a series of related questions. You may continue with the case upon correctly answering each question. However, we encourage you to select each of the answer choices for further explanations. Additional hyperlinks are available throughout the case providing access to related topics and journal articles. Please remember that passage to continue with the case is from the correct answer slide.
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case

3. Colon Cancer Module
Mr. Jackson is a 61 year old male who comes to see you, his primary care doctor, complaining of “feeling tired” and just wants a check-up. He saw a doctor at the urgent care clinic last week who sent some labs and made this follow up appointment for him. He further states that his uncle recently passed away secondary to metastatic colon cancer diagnosed at age 86 and this event has made him somewhat depressed and anxious about having cancer. He reports that he had a colonoscopy at age 51 during which a nonmalignant small (1cm) polyp was removed from his colon.
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4. Colon Cancer Module
Colon Cancer
Colon cancer is the second most common cause of cancer deaths in the United States. It constitutes approximately 10% of all new cancer cases and has an estimated annual incidence of 150,000 new cases in the United States. The estimated deaths from colon cancer exceeds 50,000 per year, which represents approximately 10% of all cancer deaths in the United States.
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Epidemiology article

5. Incidence of Colon Cancer by Risk Category
Colon Cancer Module
Incidence of Colon Cancer by Risk Category
Average risk (sporadic; no identifiable risk factor) 75%
Family history of colon cancer to 20%
Hereditary non-polyposis colorectal cancer (HNPCC) 3 to 8%
Familial adenomatous polyposis (FAP) 1%
Ulcerative Colitis %
As you can see, the majority of colon cancer cases are considered sporadic, i.e. no identifiable risk factor.
Hereditary colon cancer article
Question #1

6. Colon Cancer Module
Question #1. Which of the following factors, independently, has the greatest impact on Mr. Jackson’s risk for developing colon cancer?
A. Age
B. Gender
C. Uncle diagnosed with colon cancer at age 86
D. Endoscopic polypectomy at age 51

7. Colon Cancer Module
Question #1. Correct!
Age
Age is a major, independent risk factor for developing colon cancer. It has been well documented that the incidence of colon cancer increases with age. SEER (Surveillance, Epidemiology, and End Results) data indicates that less than 6% of cases develop before age 50. After age 50, the incidence steadily increases.
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Question #1
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case
Ahnen DJ. “Epidemiology and risk factors for colorectal cancer.” June Jan <

8. Question #1. Incorrect B. Gender Colon Cancer Module
According to SEER data, male gender is associated with a higher incidence of colon cancer, across all racial and ethnic groups. The incidence of colon cancer is 64.2 per 100,000 in men compared to 46.7 per 100,000 in women. Observed death rates for colon cancer are also higher in males. Nevertheless, gender as a risk factor alone, has not been incorporated into screening guidelines.
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Question #1

9. Question #1. Incorrect C. Uncle diagnosed with colon cancer at age 86
Colon Cancer Module
Question #1. Incorrect
C. Uncle diagnosed with colon cancer at age 86
About 15-20% of all colon cancer cases are associated with a positive family history. Most guidelines recommend earlier and more frequent screening for patients with family history of colon cancer in > 1 first-degree relative(s), especially if diagnosed prior to age 60. Mr. Jackson’s uncle (not considered a first degree relative) was diagnosed with colon cancer at an older age (>60). This does not significantly alter his risk of developing colon cancer and he is still considered to be at “average” risk for developing colon cancer.
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Question #1

10. Question #1. Incorrect D. Endoscopic polypectomy at age 51
Colon Cancer Module
Question #1. Incorrect
D. Endoscopic polypectomy at age 51
Patients with adenomatous polyps have an increased risk of developing colon cancer. Endoscopic polypectomy and surveillance has been shown to significantly reduce subsequent colon cancer incidence. In fact, the subsequent risk of developing colon cancer after polypectomy (non-sessile, small size) does not exceed that of the general population.
Loeve F, et. al. Colorectal cancer risk after colonoscopic polypectomy: a population-based study and literature search. Eur J Cancer 2005;41(3):
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Question #1
Polypectomy article

11. Colon Cancer Risk Factors
Colon Cancer Module
Colon Cancer Risk Factors
Age: Approximately 95% of colon cancer cases occur after age 50. The risk increases steadily with advancing age. Colon cancer screening is generally advised for men and women > 50 years old.
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Risk Factor
Ahnen DJ. “Epidemiology and risk factors for colorectal cancer.” June Jan <

12. Colon Cancer Risk Factors
Colon Cancer Module
Colon Cancer Risk Factors
Symptoms and signs: Patients who experience any rectal bleeding, any unexplained persistent change in bowel habits or stool character, or found to have iron deficient anemia should be referred for colonoscopy.
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Risk Factor

13. Colon Cancer Risk Factors
Colon Cancer Module
Colon Cancer Risk Factors
Family History: % of all colon cancer cases are associated with a positive family history. The number of affected first-degree relatives and their age of diagnosis affect a patient’s risk for colon cancer. A family history of early onset colon cancer should prompt suspicion for hereditary colon cancer syndromes. A general rule of thumb is to begin screening approximately 10 years earlier than the youngest age of diagnosis in a first degree relative.
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Risk Factor
Hereditary colon cancer article

14. Colon Cancer Risk Factors
Colon Cancer Module
Colon Cancer Risk Factors
Past medical history:
Patients with a personal history of colon cancer are at increased risk for developing a second primary colon cancer.
Patients with inflammatory bowel disease for > 8-10 years in duration are at an increased risk for developing colon cancer.
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Risk Factor

15. Colon Cancer Risk Factors
Colon Cancer Module
Colon Cancer Risk Factors
Other risk factors: Male gender, obesity, current smoking, and heavy alcohol intake are associated with increased colon cancer risk, but are not part of current screening guidelines.
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Case

16. Colon Cancer Screening Terminology
Colon Cancer Module
Colon Cancer Screening Terminology
Screening is the testing of an asymptomatic population considered to be at average risk for a disease. The goal of a screening test is to detect a disease at a stage when intervention may significantly improve outcome.
People are considered to be at average risk if they are > 50 years old and have no other risk factors
Screening tests should not be offered to individuals with symptoms/signs suggestive of cancer. They should be offered prompt diagnostic evaluation.
Question #2

17. Colon Cancer Module
Question #2: It appears Mr. Jackson had some sort of colon cancer screening when he was 51 years of age. What are the current screening recommendations for the average risk individual in the United States?
Annual Fecal Occult Blood Test (FOBT) starting at age 40
B. Biennial FOBT starting at age 40
C. Annual FOBT starting at age 50
D. Colonoscopy every 3 years starting at age 50
E. CT colonography every 5 years starting at age 50

18. Colon Cancer Module
Question #2. Incorrect
Annual Fecal Occult Blood Test (FOBT) starting at age 40
For average risk patients, screening for colon cancer should start at age 50.
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Question #2

19. Question #2. Incorrect B. Biennial FOBT starting at age 40
Colon Cancer Module
Question #2. Incorrect
B. Biennial FOBT starting at age 40
For average risk patients, screening using FOBT should be once a year, starting at age 50.
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Question #2

20. Question #2. Correct! C. Annual FOBT starting at age 50
Colon Cancer Module
Question #2. Correct!
C. Annual FOBT starting at age 50
For average risk patients, screening using FOBT should be once a year, starting at age 50. Any positive FOBT should be promptly followed by further diagnostic evaluation such as a colonoscopy.
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Question #2
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case

21. Question #2. Incorrect D. Colonoscopy every 3 years starting at age 50
Colon Cancer Module
Question #2. Incorrect
D. Colonoscopy every 3 years starting at age 50
Colonoscopy is considered the gold standard in colon cancer screening because it is the only test that is both diagnostic and therapeutic. It can simultaneously examine the entire colon accurately, remove any polyps, and biopsy any suspicious lesions. As a screening test, colonoscopy is recommended every 10 years starting at age 50.
More frequent colonoscopy exams, such as every 3 years, increases the associated exam risks, such as bowel perforation without a proven screening benefit.
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Question #2

22. Question #2. Incorrect E. CT colonography
Colon Cancer Module
Question #2. Incorrect
E. CT colonography
CT colonography is currently not recommended as a screening test for colon cancer. A recent study compared the efficacy of CT colonography as a colon cancer screening tool in average risk adults against colonoscopy. The study found that the two tests had similar detection rates for advanced adenomas and invasive cancers, but the colonoscopy cohort had significantly more polyps removed than the CT colonography cohort who subsequently were referred for polypectomy. More studies are needed to better define the role of CT colonography in colon cancer screening.
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Question #2
CT colonography article

23. Colon Cancer Screening
Colon Cancer Module
Colon Cancer Screening
Average Risk
Beginning at age 50, men and women at average risk for developing colon cancer should be offered one of the following screening options. These options differ in regard to evidence of effectiveness, cost, risk, and availability. As a result, presenting patients with multiple screening options allows individualized care and may increase the likelihood that screening will occur.
Fecal occult blood testing (FOBT) every year (Follow up any positive with colonoscopy)
Flexible sigmoidoscopy every 5 years
FOBT every year plus flexible sigmoidoscopy every 5 years
Colonoscopy every 10 years
Double contrast barium enema every 5 years
Screening article
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24. Colon Cancer Screening
Colon Cancer Module
Colon Cancer Screening
Positive Family History
Increased Risk
Individuals with a first-degree relative diagnosed with early onset colon cancer (prior to age 60) or with multiple first-degree relatives (> 2) with colon cancer at any age are considered as increased risk individuals. They should be advised to have screening colonoscopy, beginning at age 40, or 10 years earlier than the youngest diagnosis in the family, whichever comes first. Screening colonoscopy should be performed at 5-10 year intervals
Average Risk
Individuals with only one first-degree relative with colon cancer diagnosed at age 60 or later are still considered to be at average risk for developing colon cancer and should be offered the same screening options as the average risk patient.
Next

25. Color Cancer Screening
Colon Cancer Module
Color Cancer Screening
Increased Risk: Hereditary Syndromes
HNPCC
Patients with a diagnosis of Hereditary Nonpolyposis Colorectal Cancer syndrome are at increased risk for colon cancer and should receive colonoscopy, every 1-2 years, beginning at age or 10 years younger than the earliest colon cancer diagnosis in the family, whichever comes first.
FAP
Patients with a diagnosis of Familial Adenomatous Polyposis are at increased risk for developing colon cancer and should receive endoscopic surveillance annually, beginning at age
Hereditary colon cancer article
Question #3

26. D. Level 4 evidence: supported by expert opinions
Colon Cancer Module
Question #3: What is the level of evidence to support the use of FOBT as an initial screening test for colon cancer?
A. Level 1 evidence: supported by Randomized Controlled Trials (RCT)
B. Level 2 evidence: supported by case-control or cohort studies
Level 3 evidence: supported by non-analytic studies, including case reports, case series
D. Level 4 evidence: supported by expert opinions

27. Colon Cancer Module
Question #3. Correct!
Level 1 evidence: supported by Randomized Controlled Trials (RCT)
FOBT has been shown in 3 RCTs to reduce risk of death from colon cancer.
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Question #3
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case

28. Colon Cancer Module
Question #3. Incorrect
B. Level 2 evidence: supported by case-control or cohort studies
FOBT has been shown in 3 RCTs to reduce risk of death from colon cancer.
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Question #3

29. Colon Cancer Module
Question #3. Incorrect
C. Level 3 evidence: supported by non-analytic studies, including case reports, case series
FOBT has been shown in 3 RCTs to reduce risk of death from colon cancer.
Return to
Question #3

30. Colon Cancer Module
Question #3. Incorrect
D. Level 4 evidence: supported by expert opinion
FOBT has been shown in 3 RCTs to reduce risk of death from colon cancer.
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Question #3

31. Colon Cancer Module
Physical Exam
On exam Mr. Jackson is noted to be overweight (221lbs, 5 ft 10inches). Abdominal exam demonstrated a nontender, nondistended abdomen with no obvious masses. On digital rectal exam the sphincter tone is normal and no masses are noted. The prostate margins are distinct and it appears to be normal in size. His labs demonstrate a mild anemia (hematocrit = 32%) On further questioning, he admits that his stools have been slender in size and lately have been very dark in color.
Question #4

32. Colon Cancer Module
Question #4: Given Mr. Jackson’s anemia coupled with a change in his stool character, you are highly suspicious of a diagnosis of colon cancer. What is the next test you would like to order for Mr. Jackson to help “rule in” or “rule out” a diagnosis of colon cancer?
A. CEA level
B. Fecal Occult Blood Test
C. Flexible sigmoidoscopy
D. Colonoscopy

33. Question #4. Incorrect CEA level
Colon Cancer Module
Question #4. Incorrect
CEA level
Although serum CEA is often elevated in patients with colon cancer, it can also be elevated in other types of adenocarcinomas and benign disorders. Additionally, some patients with colon cancer do not have elevated CEA level. As a result, serum CEA level is not used in the screening or diagnosis of colon cancer. Rather, CEA is a tool used in the surveillance for colon cancer recurrence after surgical resection of the primary tumor. Its power lies in the ability to monitor efficacy of therapy and to detect cancer recurrence.
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Question #4

34. Question #4. Incorrect B. Fecal Occult Blood Test
Colon Cancer Module
Question #4. Incorrect
B. Fecal Occult Blood Test
The patient’s history of dark black stools is suggestive of GI bleeding. Although ordering a FOBT would confirm GI bleeding, the test result, whether positive or negative, would not negate the need for colonoscopy. This is an example of a test that does not alter management and therefore is of little value in clinical decision making. In considering any test or intervention, a responsible healthcare provider should assess whether the result would affect the management and well being of the patient. This is particularly important when dealing with tumor markers and genetic testing.
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Question #4

35. Question #4. Incorrect C. Flexible sigmoidoscopy
Colon Cancer Module
Question #4. Incorrect
C. Flexible sigmoidoscopy
Mr. Jackson’s recent change in stool character is suspicious for colon cancer. Flexible sigmoidoscopy refers to an endoscopic examination that is limited to the distal colon up to approximately the splenic flexure. This includes the rectum, sigmoid colon and left colon. Normal findings on Flexible sigmoidoscopy does not rule out malignancy in proximal regions of the colon including the transverse colon and the ascending colon or right side of the colon. Furthermore, even when a lesion is detected by sigmoidoscopy, a colonoscopy is still required to search for synchronous neoplasms in the proximal colon.
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Question #4

36. Question #4. Correct! D. Colonoscopy
Colon Cancer Module
Question #4. Correct!
D. Colonoscopy
Patients over the age of 50 who report visible rectal bleeding of any type, unexplained iron deficiency anemia, unexplained persistent change in bowel habits or stool character should be referred for colonoscopy. Mr. Jackson’s stool has become slender and very dark recently. The diagnosis of colon cancer should be suspected. Colonoscopy allows for both visualization of the entire colon, removal of any polyps, and biopsy of any suspicious lesions
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Question #4
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case

37. night before colonoscopy.
Colon Cancer Module
Mr. Jackson states that he does not want to go through a colonoscopy again and wants to know if there are any other test he could do instead. You explain to Mr. Jackson that a colonoscopy is currently the gold standard for evaluation of the colon. Other tests could be done but cannot replace the need for colonoscopy. You explain that he will have to undergo a “bowel prep” which consists of drinking a solution that acts as a cathartic to empty the colon of any stool. This allows the visualization of the entire mucosal surface of the colon during colonoscopy. In addition he will need to remain on a liquid diet the
night before colonoscopy.
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case

38. Colon Cancer Module
Mr. Jackson undergoes a colonoscopy and returns to your clinic to discuss the results. The report states that a 1 cm tubular adenoma was removed from the transverse colon, i.e. a polypectomy. Furthermore, a 4 cm sessile ulcerated mass was noted in the left colon. The biopsy of this mass revealed moderately differentiated colonic adenocarcinoma.
Question #5

39. Colon Cancer Module
Question #5: You report the unfortunate news to Mr. Jackson that he has colon cancer. He immediately asks what is the next step?
A. Surgical resection
B. Chemotherapy
C. Radiation therapy
D. Clinical staging

40. Question #5. Incorrect A. Surgical resection
Colon Cancer Module
Question #5. Incorrect
A. Surgical resection
Although surgery represents the primary treatment modality for most colon cancers, staging work up must be performed preoperatively to determine if the patient is a surgical candidate. For example, if the tumor has already spread to Mr. Jackson’s liver and lungs, localized therapy such as surgical resection of the primary tumor does not ultimately affect survival. It would make more sense to offer chemotherapy to treat the systemic nature of the disease.
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Question #5

41. Question #5. Incorrect B. Chemotherapy
Colon Cancer Module
Question #5. Incorrect
B. Chemotherapy
Extent of disease / staging work up is the most important initial step in determining optimal therapy for Mr. Jackson. If Mr. Jackson proves to have metastatic disease then chemotherapy as a first line of treatment would be indicated. In the metastatic setting, use of chemotherapy is referred to as “palliative chemotherapy.” Use of chemotherapy after resection of node-positive (Stage III) colon cancer is referred to as “adjuvant chemotherapy” because it is given after surgical resection of the primary tumor.
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Question #5

42. Question #5. Incorrect C. Radiation therapy
Colon Cancer Module
Question #5. Incorrect
C. Radiation therapy
Radiation therapy (RT) alone is not recommended in the treatment of colon cancer. RT may be added to adjuvant chemotherapy on a case-by-case basis for patients at increased risk for recurrence (e.g. T4 tumors) after resection of primary tumor. Of note, RT plays an important role in the preoperative and postoperative management of rectal cancers.
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Question #5

43. Question #5. Correct! D. Clinical staging
Colon Cancer Module
Question #5. Correct!
D. Clinical staging
Staging is the process that evaluates the local and distant extent of cancer at time of diagnosis. Cancer staging is the most important initial step in selecting the optimal treatment modality and predicting outcome. For colon cancer, the preoperative clinical stage is first determined using information from physical exam, CT scan of the abdomen/pelvis, and chest x-ray, in order to look for evidence of distant metastases. Subsequently, the postoperative pathological stage is determined based on histologic evaluation of the resected tumor and regional lymph nodes.
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Question #5
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case

44. Colon Cancer Module
Extent of disease or staging workup for Mr. Jackson is completed. Physical exam is negative for ascites, hepatomegaly, and lymphadenopathy. The CT scan of the abdomen and pelvis is negative for any evidence of metastases or other abnormalities. The Chest X-Ray is also negative for abnormalities. CEA level is noted to be 14ng/ml. You inform Mr. Jackson that he does not have evidence of spread of his cancer and that he will need to have surgery to remove his colon cancer.
Question #6

45. Colon Cancer Module
Question #6: Mr. Jackson first wants to know is a CEA of 14 ng/ml good or bad?
A. Good
B. Bad
C. Neither

46. Question #6. Incorrect A. Good
Colon Cancer Module
Question #6. Incorrect
A. Good
Some studies have shown a correlation between elevated preoperative CEA levels (> 5 ng/mL) and heavier disease burden in colon cancer, while other studies found no such association. In Mr. Jackson’s case, although a preoperative CEA of 14ng/ml may suggest a worse prognosis, it alone does not change the treatment plan. The TNM staging remains the most important tool in establishing prognosis and directing therapy.
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Question #6

47. Question #6. Incorrect B. Bad
Colon Cancer Module
Question #6. Incorrect
B. Bad
Some studies have shown a correlation between elevated preoperative CEA levels (> 5 ng/mL) and heavier disease burden in colon cancer, while other studies found no such association. In Mr. Jackson’s case, although a preoperative CEA of 14 may suggest a worse prognosis, it alone does not change the surgical plans. The TNM staging remains the most important tool in establishing prognosis and directing therapy.
Return to
Question #6

48. Question #6. Correct! C. Neither
Colon Cancer Module
Question #6. Correct!
C. Neither
Elevated preoperative CEA level has been found in several studies to correlate with worse outcome. As a result, the Joint Committee on Cancer and the College of American Pathologists recommend obtaining a this information in addition to TNM staging. However, a CEA of 14 alone would not alter surgical plans. Further, with complete resection, CEA level should return to baseline, and be followed regularly for early detection of recurrence. Thus, postoperatively, the CEA trend is more important than the absolute value.
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Question #6
Question #7

49. Colon Cancer Module
Question # 7: Mr. Jackson is clinically cleared for surgery. Keeping in mind that Mr. Jackson’s colonoscopy revealed a 1 cm tubular adenomatous polyp that was removed from the ascending colon and a 4 cm colon cancer located within the left colon. What operation will Mr. Jackson need?
A. Left Hemicolectomy
B. Right Hemicolectomy
C. Total Colectomy
D. Abdominoperineal Resection (APR)

50. Question #7. Correct! A. Left Hemicolectomy
Colon Cancer Module
Question #7. Correct!
A. Left Hemicolectomy
Two separate lesions were noted during Mr. Jackson’s colonoscopy. The first is a single small tubular adenomatous polyp which is virtually always benign. Endoscopic removal is considered curative, negating the need for surgical resection of the portion of the colon of the proximal or right colon. The second is a left-sided malignant lesion, not involving the rectum (>12 cm from anal verge). A left hemicolectomy is an appropriate surgical option.
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Question #7
See image of
Left hemicolectomy
Continue
case

51. Question #7. Incorrect B. Right Hemicolectomy
Colon Cancer Module
Question #7. Incorrect
B. Right Hemicolectomy
The malignant lesion is left-sided, requiring at minimum a left hemicolectomy. The right-sided small tubular adenomatous polyp is virtually always benign. Endoscopic removal is considered curative, negating the need for a right hemicolectomy.
See image of
Right hemicolectomy
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Question #7

52. Question #7. Incorrect C. Total Colectomy
Colon Cancer Module
Question #7. Incorrect
C. Total Colectomy
Although a total colectomy would remove the malignant lesion, it is overly aggressive in this case with significantly increased morbidity and mortality. The right-sided small tubular adenomatous polyp is virtually always benign. Endoscopic removal is considered curative, negating the need for a right hemicolectomy. The malignant lesion is left-sided, therefore a left hemicolectomy would be sufficient.
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Question #7

53. Question #7. Incorrect D. Abdominoperineal Resection (APR)
Colon Cancer Module
Question #7. Incorrect
D. Abdominoperineal Resection (APR)
APR is a surgical operation used for the treatment of low rectal cancers that are invading the anal sphincter complex. It involves the removal of the anus, the sphincter complex, the rectum, part of the sigmoid colon and their draining lymph nodes. This operation necessitates the need for a colostomy, a surgical opening made between the large intestine and the skin, so that stool can pass through and drain into a colostomy bag.
See image of
APR
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Question #7

54. Colon Cancer Module
Mr. Jackson undergoes a left hemicolectomy and you visit him on postoperative day number 2. He is doing well recovering from his operation and wants to know if he will need any additional treatment. You explain to him that further treatment decisions will depend on the pathologic “staging” information which is based on the pathology report. Normally it takes approximately 7 days for a pathologist to review all of the necessary information and finalize a report.
Continue
case

55. Colon Cancer Module
American Joint Committee on Cancer (AJCC) T-N-M Staging System for Colorectal Cancer
Staging provides a universal language among healthcare providers to allow stratification of patients according to biology and disease burden. This enables the selection of individulaized treatment based on prognostic information associated with a particular “stage group” of the cancer. The Stage group is determined by the combination of pathologic factors “T-N-M”.
“T” is usually a measure of tumor size
“N” represents the status of the regional lymph nodes with
respect to whether or not they contain adenocarcinoma “M” represents presence of metastatic disease
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56. AJCC Staging System for Colorectal Cancer
Colon Cancer Module
AJCC Staging System for Colorectal Cancer
Primary Tumor (T)
TX Primary tumor cannot be assessed T0 No evidence of primary tumor Tis Carcinoma in situ; intraepithelial or invasion of lamina propria T1 Tumor invades submucosa T2 Tumor invades muscularis propria T3 Tumor invades through the muscularis propria into the subserosa, or into non- peritonealized pericolic or perirectal tissues T4 Tumor directly invades other organs or structures, and/or perforates visceral peritoneum
Regional Lymph Nodes (N)
NX Regional lymph nodes cannot be assessed N0 No regional lymph node metastasis N1 Metastasis in 1 to 3 regional lymph nodes N2 Metastasis in 4 or more regional lymph nodes
Distant Metastasis (M)
MX Distant metastasis cannot be assessed M0 No distant metastasis M1 Distant metastasis
Stage Grouping
Stage T N M
0 Tis N0 M I T1 N0 M T2 N0 M IIA T3 N0 M IIB T4 N0 M IIIA T1-T2 N1 M IIIB T3-T4 N1 M IIIC Any T N2 M IV Any T Any N M1
See pathology
report

57. Colon Cancer Module
Mr. Jackson continues to do well and on postoperative day #7 the pathology report is available:
Pathology Report
Moderately differentiated adenocarcinoma of colonic origin
Tumor is 4 cm x 3 cm x 3 cm. Tumor extends through through the muscularis propria into the subserosa
Proximal and distal colonic margins are free of tumor. Closest margin is 10 cm.
2 out of 12 regional lymph nodes were positive for metastatic adenocarcinoma
Question #8

58. Question # 8: What is the stage of Mr. Jackson’s colon cancer?
Colon Cancer Module
Question # 8: What is the stage of Mr. Jackson’s colon cancer?
A. Stage I
B. Stage II
C. Stage III
D. Stage IV
See pathology
report
See AJCC
staging table

59. Question #8. Incorrect A. Stage I
Colon Cancer Module
Question #8. Incorrect
A. Stage I
According to the TNM system, Mr. Jackson’s cancer is T3 (tumor extends to serosa), N1 (2 positive regional lymph nodes), and M0 (no evidence of distant metastases), corresponding to stage IIIb.
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Question #8

60. Question #8. Incorrect B. Stage II
Colon Cancer Module
Question #8. Incorrect
B. Stage II
According to the TNM system, Mr. Jackson’s cancer is T3 (tumor extends to serosa), N1 (2 positive regional lymph nodes), and M0 (no evidence of distant metastases), corresponding to stage IIIb.
Return to
Question #8

61. Question #8. Correct! C. Stage III
Colon Cancer Module
Question #8. Correct!
C. Stage III
According to the TNM system, Mr. Jackson’s cancer is T3 (tumor extends to serosa), N1 (2 positive regional lymph nodes), and M0 (no evidence of distant metastases), corresponding to stage IIIb.
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Question #8
Question #9

62. Question #8. Incorrect D. Stage IV
Colon Cancer Module
Question #8. Incorrect
D. Stage IV
According to the TNM system, Mr. Jackson’s cancer is T3 (tumor extends to serosa), N1 (2 positive regional lymph nodes), and M0 (no evidence of distant metastases), corresponding to stage IIIb.
Return to
Question #8

63. Colon Cancer Module
Question #9: What is Mr. Jackson’s predicted 5 year survival rate based on his stage?
A. 20% 5 year survival rate
B. 40% 5 yr survival rate
60% 5 yr survival rate
D. 90% 5 yr survival

64. Question #9. Incorrect A. 20% 5 year survival rate
Colon Cancer Module
Question #9. Incorrect
A. 20% 5 year survival rate
Mr. Jackson has stage IIIb colon cancer. The 5 year survival rate is about 60%.
Stage I — 93 percent
Stage IIA — 85 percent
Stage IIB — 72 percent
Stage IIIA — 83 percent
Stage IIIB — 64 percent
Stage IIIC — 44 percent
Stage IV — 8 percent
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Question #9

65. Question #9. Incorrect B. 40% 5 year survival rate
Colon Cancer Module
Question #9. Incorrect
B. 40% 5 year survival rate
Mr. Jackson has stage IIIb colon cancer. The 5 year survival is about 60%.
Stage I — 93 percent
Stage IIA — 85 percent
Stage IIB — 72 percent
Stage IIIA — 83 percent
Stage IIIB — 64 percent
Stage IIIC — 44 percent
Stage IV — 8 percent
Return to
Question #9

66. Question #9. Correct! C. 60% 5 year survival rate
Colon Cancer Module
Question #9. Correct!
C. 60% 5 year survival rate
Mr. Jackson has stage IIIb colon cancer. The 5 year survival is about 60% (see graph).
Stage I — 93 percent
Stage IIA — 85 percent
Stage IIB — 72 percent
Stage IIIA — 83 percent
Stage IIIB — 64 percent
Stage IIIC — 44 percent
Stage IV — 8 percent
Return to
Question #9
Question
#10
Survival article

67. Question #9. Incorrect D. 90% 5 year survival rate
Colon Cancer Module
Question #9. Incorrect
D. 90% 5 year survival rate
Mr. Jackson has stage IIIb colon cancer. The 5 year survival is about 60%.
Stage I — 93 percent
Stage IIA — 85 percent
Stage IIB — 72 percent
Stage IIIA — 83 percent
Stage IIIB — 64 percent
Stage IIIC — 44 percent
Stage IV — 8 percent
Return to
Question #9

68. Colon Cancer Module
Colon Cancer Module
Question #10: After recovering from his operation he presents for a consultation with a medical oncologist. What treatment is recommended for Stage III colon cancer?
A. Adjuvant Chemotherapy
B. Adjuvant Radiation
C. Observation and Surveillance

69. Question #10. Correct! A. Adjuvant Chemotherapy
Colon Cancer Module
Question #10. Correct!
A. Adjuvant Chemotherapy
The 2005 colon cancer treatment guidelines from the National Comprehensive Cancer Network (NCCN) and American Cancer Society recommend adjuvant chemotherapy for all Stage III colon cancers.
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Question #10
Question
#11
Systemic therapy article

70. Question #10. Incorrect B. Adjuvant Radiation
Colon Cancer Module
Question #10. Incorrect
B. Adjuvant Radiation
The 2005 colon cancer treatment guidelines from the National Comprehensive Cancer Network (NCCN) and American Cancer Society recommend adjuvant chemotherapy for all Stage III colon cancers. Unlike rectal cancers, radiation therapy is not a routine part of adjuvant treatment for colon cancer.
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Question #10

71. Question #10. Incorrect C. Observation and Surveillance
Colon Cancer Module
Question #10. Incorrect
C. Observation and Surveillance
The 2005 colon cancer treatment guidelines from the National Comprehensive Cancer Network (NCCN) and American Cancer Society recommend adjuvant chemotherapy for all Stage III colon cancers. Observation and surveillance alone is NOT sufficient and results in poorer survival compared with patients who had received adjuvant chemotherapy.
Return to
Question #10

72. Colon Cancer Module
Question # 11: What is the risk of Mr. Jackson developing a recurrence of his original cancer (local/regional or distant metastasis) over the next five years?
A. <10%
B %
C %
D. >80%

73. Question #11. Incorrect A. <10%
Colon Cancer Module
Question #11. Incorrect
A. <10%
Approximate recurrence rate by stage
Stage I 10%
Stage II 30%
Stage III 50%
Return to
Question #11

74. Question #11. Incorrect B. 15-20% Approximate recurrence rate by stage
Colon Cancer Module
Question #11. Incorrect
B %
Approximate recurrence rate by stage
Stage I 10%
Stage II 30%
Stage III 50%
Return to
Question #11

75. Question #11. Correct! C. 40-60% Approximate recurrence rate by stage
Colon Cancer Module
Question #11. Correct!
C %
Approximate recurrence rate by stage
Stage I 10%
Stage II 30%
Stage III 50%
Return to
Question #11
Question
#12
Recurrence article

76. Question #11. Incorrect D. >80%
Colon Cancer Module
Question #11. Incorrect
D. >80%
Approximate recurrence rate by stage
Stage I 10%
Stage II 30%
Stage III 50%
Return to
Question #11

77. Colon Cancer Module
Question # 12: What is the risk of Mr. Jackson developing a second primary colon cancer over the next five years?
A. <1%
B %
C %
D. >20%

78. Question #12. Incorrect A. <1%
Colon Cancer Module
Question #12. Incorrect
A. <1%
The risk of developing a second primary colon cancer is noted to be higher than the risk of the general population. This risk is estimated to be approximately % per patient per year. Thus, at five years the cumulative risk of developing a second colon cancer is approximately %.
Return to
Question #12

79. Colon Cancer Module
Question #12. Correct!
B %
The risk of developing a second primary colon cancer is noted to be higher than the risk of the general population. This risk is estimated to be approximately % per patient per year. Thus, at five years the cumulative risk of developing a second colon cancer is approximately %. Moreover, if a patient lives 20yrs after his colon cancer diagnosis, the risk of developing a second colon cancer primary could be as high as 10%.
Question
#13
Return to
Question #12
Second primary article

80. Question #12. Incorrect C. 10-15%
Colon Cancer Module
Question #12. Incorrect
C %
The risk of developing a second primary colon cancer is noted to be higher than the risk of the general population. This risk is estimated to be approximately % per patient per year. Thus, at five years the cumulative risk of developing a second colon cancer is approximately %.
Return to
Question #12

81. Question #12. Incorrect D. >20%
Colon Cancer Module
Question #12. Incorrect
D. >20%
The risk of developing a second primary colon cancer is noted to be higher than the risk of the general population. This risk is estimated to be approximately % per patient per year. Thus, at five years the cumulative risk of developing a second colon cancer is approximately %.
Return to
Question #12

82. Colon Cancer Module
Question # 13: Given these risks of recurrence and development of a second primary, what is the recommended follow up and cancer surveillance for Mr. Jackson over the next two years?
Office visit / CEA level every 6 months
Office visit / CEA level every 6 months, colonoscopy once per year
C. Office visit / CEA level every 3 months, colonoscopy once per year

83. Question #13. Incorrect Colon Cancer Module
Office visit / CEA every 6 months
According to the National Comprehensive Cancer Network (NCCN), follow up during the first 2 years after curative resection of stage III colon cancer should consist of:
A history and physical every 3 months for 2 years
CEA level every 3 months for 2 years
Colonoscopy once per year for 2 years
Consider abdominal CT scan every 6 months for 2 years if there is a high risk of recurrence
Return to
Question #13

84. Question #13. Incorrect Colon Cancer Module
Office visit / CEA level every 6 months, colonoscopy once per year
According to the National Comprehensive Cancer Network (NCCN), follow up during the first 2 years after curative resection of stage III colon cancer should consist of:
A history and physical every 3 months for 2 years
CEA level every 3 months for 2 years
Colonoscopy once per year for 2 years
Consider abdominal CT scan every 6 months for 2 years if there is a high risk of recurrence
Return to
Question #13

85. Question #13. Correct! NCCN guidelines Colon Cancer Module
C. Office visit / CEA level every 3 months, colonoscopy once per
year
According to the National Comprehensive Cancer Network (NCCN), follow up during the first 2 years after curative resection of stage III colon cancer should consist of:
A history and physical every 3 months for 2 years
CEA level every 3 months for 2 years
Colonoscopy once per year for 2 years
Consider abdominal CT scan every 6 months for 2 years if there is a high risk of recurrence
Return to
Question #13
Continue
case
NCCN guidelines

86. Personal Teaching File; James S. Tomlinson
Colon Cancer Module
During a routine follow up visit 12 months after his operation, Mr. Jackson’s CEA level was noted to have risen from his previous value of 3 to 8 ng/ml. Recall that any value >5 ng/ml is considered abnormally elevated. You order a CT scan of the abdomen and this demonstrates a single 3 cm
Personal Teaching File; James S. Tomlinson
metastatic lesion (red arrow) in the left lobe of his liver. You also ordered a whole body PET scan which demonstrated a single area of positivity corresponding to the lesion in the left lobe. Mr. Jackson thus has evidence of a single site of colon cancer
recurrence in his left liver.
Question
#14

87. Colon Cancer Module
Question # 14: You refer Mr. Jackson to a surgical oncologist who recommends hepatic resection of his metastatic colon cancer and states that this is the only potential curative therapy. Before Mr. Jackson undergoes such a radical procedure, he wants to know what are his chances of being cured if he undergoes the operation?
A. 0-5%
B %
C %
D. 50%

88. Question #14. Incorrect 0-5% Colon Cancer Module
Surgical resection of colorectal liver metastasis (CLM) in selected patients with limited disease has become the standard of care in the past 20 years. A recently published study looked at over 600 patients who underwent resection of CLM with 10-year follow-up. The study found that in well-selected patients, the overall 10 year disease free survival is 15-25% after hepatic resection.
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Question #14

89. Question #14. Incorrect 5-10% Colon Cancer Module
Surgical resection of colorectal liver metastasis (CLM) in selected patients with limited disease has become the standard of care in the past 20 years. A recently published study looked at over 600 patients who underwent resection of CLM with 10-year follow-up. The study found that in well-selected patients, the overall 10 year disease free survival is 15-25% after hepatic resection.
Back to
Question #14

90. Colon Cancer Module
Question #14. Correct!
15-25%
Surgical resection of colorectal liver metastasis (CLM) in selected patients with limited disease has become the standard of care in the past 20 years. A recently published study looked at over 600 patients who underwent resection of CLM with 10-year follow-up. The study found that in well-selected patients, the overall 10 year disease free survival is 15-25% after hepatic resection.
Back to
Question #14
Continue
Case
Hepatic resection article

91. Colon Cancer Module
Question #14. Incorrect
50%
Surgical resection of colorectal liver metastasis (CLM) in selected patients with limited disease has become the standard of care in the past 20 years. A recently published study looked at over 600 patients who underwent resection of CLM with 10-year follow-up. The study found that in well-selected patients, the overall 10 year disease free survival is 15-25% after hepatic resection.
Back to
Question #14

92. Colon Cancer Module
Mr. Jackson decides to go ahead with surgery and underwent a left lateral hepatic segmentectomy. He recovered well post operatively.
Continue
Case

93. Left Lateral Hepatic Segmentectomy
Colon Cancer Module
Left Lateral Hepatic Segmentectomy
Question
#15
Personal Teaching File; James S. Tomlinson

94. Colon Cancer Module
Question # 15: If Mr. Jackson initially had multiple sites of recurrence making surgical resection of his disease impossible, what would be his predicted median survival if he received current standard palliative chemotherapy (FOLFOX with Avastin)?
A months
B months
C months
D months

95. Question #15. Incorrect 0-5 months
Colon Cancer Module
Question #15. Incorrect
0-5 months
In patients with advanced metastatic colon cancer, treatment with FOLFOX and Avastin has been shown to prolong median survival to approximately months. By contrast, patients who do not receive any form of chemotherapy have a median survival of approxmately 6 months.
Back to
Question #15

96. Question #15. Incorrect B. 5-10 months
Colon Cancer Module
Question #15. Incorrect
B months
In patients with advanced metastatic colon cancer, treatment with FOLFOX and Avastin has been shown to prolong median survival to approximately months. By contrast, patients who do not receive any form of chemotherapy have a median survival of approxmately 6 months.
Back to
Question #15

97. Question #15. Correct! C. 15-20 months
Colon Cancer Module
Question #15. Correct!
C months
In patients with advanced metastatic colon cancer, treatment with FOLFOX and Avastin has been shown to prolong median survival to approximately months. By contrast, patients who do not receive any form of chemotherapy have a median survival of approxmately 6 months.
Back to
Question #15
Question
#16
Systemic therapy article

98. Question #15. Incorrect D. 36-72 months Colon Cancer Module
In patients with advanced metastatic colon cancer, treatment with FOLFOX and Avastin has been shown to prolong median survival to approximately months. By contrast, patients who do not receive any form of chemotherapy have a median survival of approxmately 6 months.
Back to
Question #15

99. Colon Cancer Module
Question #16: We have learned that most recurrences after being diagnosed with colon cancer occur within 2 years of diagnosis/resection. In accordance, follow up over the subsequent two years is considered intensive. If Mr. Jackson did not develop a recurrence within those two years, what would his cancer follow-up and surveillance plan be for the rest of his life?
Office visit / CEA level every 6 months until year 5 then yearly thereafter
Office visit / CEA level every year, colonoscopy every 10 years
Same level of intensive follow-up must be continued indefinitely

100. Colon Cancer Module
Question #16. Correct!
Office visit / CEA level every 6 months until year 5 then yearly thereafter
According to the National Comprehensive Cancer Network (NCCN) and American Cancer Society, follow up after the first 2 disease-free years after curative resection of stage III colon cancer should consist of:
A history and physical every 6 months until year 5
CEA level every 6 months through year 5
Colonoscopy 2-3 years after year 2, and if no polyps, then every 5 years thereafter
Back to
Question #16
End Case
Colonoscopy surveillance article

101. Colon Cancer Module
Question #16. Incorrect
Office visit / CEA level every year, colonoscopy every 10 years
According to the National Comprehensive Cancer Network (NCCN) and American Cancer Society, follow up after the first 2 disease-free years after curative resection of stage III colon cancer should consist of:
A history and physical every 6 months until year 5
CEA level every 6 months through year 5
Colonoscopy 2-3 years after year 2, and if no polyps, then every 5 years thereafter
Back to
Question #16

102. Colon Cancer Module
Question #16. Incorrect
Same level of intensive follow-up must be continued indefinitely
According to the National Comprehensive Cancer Network (NCCN) and American Cancer Society, follow up after the first 2 disease-free years after curative resection of stage III colon cancer should consist of:
A history and physical every 6 months until year 5
CEA level every 6 months through year 5
Colonoscopy 2-3 years after year 2, and if no polyps, then every 5 years thereafter
Back to
Question #16

103. Inflammatory Bowel Disease Ulcerative Colitis & Crohn’s Colitis
Colon Cancer Module
Inflammatory Bowel Disease Ulcerative Colitis & Crohn’s Colitis
Patients with chronic colitis are at increased risk for developing colorectal cancer. The risk is 5% after 10 years, 20% after 20 years, and 40% after 25 years of duration of IBD. Risk of cancer may be reduced in patients who respond well to medical therapy. Surveillance with colonoscopy should begin 8-10 years after diagnosis of IBD, and repeated every 1-3 years with surveillance biopsies of the colon taken every 10 cm. Findings indicative of high grade dysplasia of the colonic mucosa should prompt consideration of surgical therapy (colectomy).
Harford
Harford article
IBD Photos
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104. Inflammatory Bowel Disease Ulcerative Colitis & Crohn’s Colitis
Colon Cancer Module
Inflammatory Bowel Disease Ulcerative Colitis & Crohn’s Colitis
Ulcerative Colitis gross specimen
Crohn’s Colitis endoscopic view
Barium enema: colon with "lead-pipe" appearance in ulcerative colitis
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105. Lynch Syndrome (HNPCC)
Colon Cancer Module
Lynch Syndrome (HNPCC)
(Hereditary Non-Polyposis Colorectal Cancer)
HNPCC is an autosomal dominant syndrome caused by a germline mutation in one of the DNA mismatch repair
(MMR) genes. It is associated with 2% - 3% of all colon cancer cases. The lifetime risk of a developing colon cancer can be as high as 70%. In recent report, median age of colon cancer diagnosis in patients with Lynch Syndrome (HNPCC) was 54 years in men and 70 years in women. This syndrome is also associated with tumors of other organs such as the uterus, ovaries, stomach, pancreas, ureters, kidneys, small bowel, biliary tract, and brain.
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106. Familial Adenomatous Polyposis
Colon Cancer Module
Familial Adenomatous Polyposis
FAP is an autosomal dominant syndrome caused by germline mutation in the APC gene. It accounts for < 1% of all colon cancer cases. Approximately 50% of affected patients develop adenomatous polyps by age 15 and 95% by age 35. The average age at diagnosis of colon cancer is about years. The lifetime risk of developing colon cancer in a patient with FAP approaches 100%.
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107. Hamartomatous Polyposis Syndromes
Colon Cancer Module
Hamartomatous Polyposis Syndromes
These are a group of rare hereditary syndromes associated with increased risk of developing colon cancer.
Peutz Jeghers is an autosomal dominant syndrome notable for perioral pigmentation and histologically distinct gastrointestinal polyps (see picture). The lifetime risk for colon cancer is 40% and for breast cancer >50%.
Juvenile polyposis is an autosomal dominant syndrome. The lifetime risk for colon cancer is 60% with a mean age of presentation at age 34 (see picture).
Harford
Back

108. Peutz Jeghers Colon Cancer Module Back
Bottom picture downloaded from:
Back
©1999 Division of Gastroenterology, Johns Hopkins Hospital

109. Juvenile Polyposis Colon Cancer Module Back www.GI-Pathology.net
Back

110. Colon Cancer Module
Colonic Polyps
A polyp is a macroscopic protrusion of the colonic mucosa into the bowel lumen. Colonic polyps can be classified according to their malignant potential. Neoplastic polyps can become malignant while non-neoplastic polyps cannot. Within the group of neoplastic polyps, there are malignant polyps and benign but precancerous polyps that may evolve into carcinoma. The table below show examples of each category.
Neoplastic Non-neoplastic
Benign Malignant Benign
Tubular adenoma Carcinoma in situ Hyperplastic polyps
Tubulovillous adenoma Invasive carcinoma Juvenile polyps
Villous adenoma Polypoid carcinoma Peutz-Jeghers polyps
Inflammatory polyps
Greenfield chapter 69 p. 1081
Next

111. Colon Cancer Module
Colonic Polyps
Colonic adenomas are common in people over the age of 50. Most colon cancers arise in preexisting adenomatous polyps, but relatively few adenomas progress to cancer. Certain characteristics are associated with higher cancer risk. These include:
Multiple adenomas
Size > 1.0 cm
Advanced histology (villous, tubulovillous, high grade dysplasia)
Proximal location of adenoma
Older age at diagnosis of adenoma(s)
Family history of colon cancer in a parent
Greenfield chapter 69 p. 1081
Next

112. Images from: www.endoatlas.com/atlas_co.html
Colon Cancer Module
Colonic Polyps
The malignant potential of a polyp based on histology is: tubular < tubulovillous < villous. Cancer risk also rises with increasing size of the polyp. The table below shows the incidence of invasive carcinoma related to polyp histology and size based on analysis of 7000 polypectomy specimens.
Size (cm)
Tubular
Tubulovillous
Villous
% % %
% % %
% % %
> % % %
Images downloaded from:
Back
Colonic polyps article
Images from:

113. Hyperplastic Polyps Colon Cancer Module
Endoscopic image of hyperplastic polyps
The epithelial cells at the base of the crypt (regenerative zone) have mildly enlarged, but uniform nuclei and brisk mitotic rate, feature which is normally present in reactive colonic mucosa
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114. Tubular Adenoma Colon Cancer Module
The adenomatous polyp has a smooth outline and is composed of numerous architecturally simple crypts with mild irregularity in size and shape
Endoscopic image of a tubular adenoma
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115. Villous Adenoma Colon Cancer Module
Villous adenoma with glands that extend straight down from the surface to the base as fingerlike projections
Endoscopic image of a villous adenoma
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116. Tubulovillous Adenoma
Colon Cancer Module
Tubulovillous Adenoma
Tubulovillous adenoma with 80% tubular histology and 20% villous histology
Endoscopic image of a tubulovillous adenoma
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117. Fecal Occult Blood Test (FOBT) Randomized Controlled Trials
Colon Cancer Module
Fecal Occult Blood Test (FOBT) Randomized Controlled Trials
1. Minnesota Colon Cancer Control Study
46,551 participants; 50-80yrs of age
18yr follow up demonstrated a 36% reduction in colon cancer mortality in patients who underwent annual FOBT screening
2. United Kingdom-Nottingham FOBT Study
156,000 participants, yrs of age
8 yr follow up demonstrated a 15% reduction in colon cancer mortality in patients who underwent FOBT screening
3. Danish FOBT Study
62,000 participants, 45-74yrs of age,
10yr follow up demonstrated an 18% reduction in colon cancer mortality in patients who underwent FOBT screening
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118. Carcinoembryonic antigen (CEA)
Colon Cancer Module
Carcinoembryonic antigen (CEA)
CEA is a membrane-bound, surface protein expressed by fetal
enterocytes and a variety of cancers, including colon
adenocarcinoma. CEA level varies with tumor burden, grade,
site, liver involvement, tobacco smoking, and many other
factors. It is important to note that CEA levels should not be compared among different individuals. CEA is not
used in colon cancer screening and diagnosis due to low sensitivity and specificity. In addition, CEA levels may also be elevated in other advanced adenocarcinomas and benign disorders. The utility of monitoring CEA levels is in the early detection of recurrent disease after curative resection of colon cancer, with an average lead time of 5 months. In addition, CEA levels can be used to follow response to treatment such as surgery, chemotherapy, or radiation therapy. A serum level above 5ng/ml is considered abnormal.
Return to
Question #4

119. Five-year survival by the American Joint Committee on Cancer sixth edition system stages I-IV
O'Connell, J. B. et al. J. Natl. Cancer Inst : ; doi: /jnci/djh275
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120. Left Hemicolectomy Colon Cancer Module Back
hopkins-gi.nts.jhu.edu/pages/latin/templates/index.cfm?pg=disease4&organ=6&disease=36&lang_id=1
Back

121. Right Hemicolectomy Colon Cancer Module Back
hopkins-gi.nts.jhu.edu/pages/latin/templates/index.cfm?pg=disease4&organ=6&disease=36&lang_id=1
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122. Abdominoperineal Resection
Colon Cancer Module
Abdominoperineal Resection
Back
hopkins-gi.nts.jhu.edu/pages/latin/templates/index.cfm?pg=disease4&organ=6&disease=36&lang_id=1

123. Positron Emission Tomography in Colon Cancer
Colon Cancer Module
Positron Emission Tomography in Colon Cancer
PET is a nuclear medicine imaging technique, often used in clinical oncology, for the whole body visualization of tumors and metastases. A glucose analog tracer such as [18F]-2-fluro-2 deoxy-D-glucose is injected into the circulation and is taken up by glucose-using cells. Fast growing malignant cells would take up more tracer and show up as areas of intensity (positivity). Studies have found PET to have 80-90% accuracy in the detection of recurrent and metastatic disease. PET can be helpful in preoperative staging and postoperative detection of recurrence/metastases.
See Mr. Jackson’s
PET images
Back

124. Mr. Jackson’s Tumor on CT and PET
PET Scan
Abdominal CT Scan
Coronal view
Liver
Tumor
Personal Teaching File; James S. Tomlinson
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Personal Teaching File; James S. Tomlinson

125. AJCC Staging System for Colorectal Cancer
Colon Cancer Module
AJCC Staging System for Colorectal Cancer
Primary Tumor (T)
TX Primary tumor cannot be assessed T0 No evidence of primary tumor Tis Carcinoma in situ; intraepithelial or invasion of lamina propria T1 Tumor invades submucosa T2 Tumor invades muscularis propria T3 Tumor invades through the muscularis propria into the subserosa, or into non- peritonealized pericolic or perirectal tissues T4 Tumor directly invades other organs or structures, and/or perforates visceral peritoneum
Regional Lymph Nodes (N)
NX Regional lymph nodes cannot be assessed N0 No regional lymph node metastasis N1 Metastasis in 1 to 3 regional lymph nodes N2 Metastasis in 4 or more regional lymph nodes
Distant Metastasis (M)
MX Distant metastasis cannot be assessed M0 No distant metastasis M1 Distant metastasis
Stage Grouping
Stage T N M
0 Tis N0 M I T1 N0 M T2 N0 M IIA T3 N0 M IIB T4 N0 M IIIA T1-T2 N1 M IIIB T3-T4 N1 M IIIC Any T N2 M IV Any T Any N M1
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126. Moderately differentiated adenocarcinoma of colonic origin
Colon Cancer Module
Pathology Report
Moderately differentiated adenocarcinoma of colonic origin
Tumor is 4 cm x 3 cm x 3 cm. Tumor extends through through the muscularis propria into the subserosa
Proximal and distal colonic margins are free of tumor. Closest margin is 10 cm.
2 out of 12 regional lymph nodes were positive for metastatic adenocarcinoma
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127. References Colon Cancer Module Image references not listed
Hill LB, O’Connell JB, Ko CY. Colorectal cance: epidemiology and health services research. Surg Oncol Clin N Am 2006;15:21-37.
Harford WV. Colorectal cancer screening and surveillance. Surg Oncol Clin N Am 2006;15:1-20.
Winawer S, et. al. Colorectal cancer screening and surveillance: clinical guidelines and rationale—update based on new evidence. Gastroenterology 2003;124:
NCCN colorectal treatment guidelines version IV 2005
Duffy MJ. Carcinoembryonic antigen as a marker for colorectal cancer: Is it clinically useful? Clinical Chemistry 2001;47(4):
Wanebo HJ et.al. The use of preoperative carcinoembryonic antigen level as a prognostic indicator to complement pathological staging. NEJM 1978;299:
Kehoe J and Khatri VP. Staging and prognosis of colon cancer. Surg Oncol Clin N Am 2006;15:
Rossi H and Rothenberger DA. Surgical treatment of colon cancer. Surg Oncol Clin N Am 2006;15:
O’Connell JB et.al. Colon cancer survival rates with the new American Joint Committee on Cancer sixth edition staging. JNCI 2004;96(19):
Galandiuk S. et.al. Patterns of recurrence after curative resection of carcinoma of the colon and rectum. Surg Gynecol Obstet 1992;174(1):27-32.
Russell AH, et al. Adenocarcinoma of the proximal colon: sites of initial dissemination and patterns of recurrence following surgery alone. Cancer 1984;53:360-7.
Cali RL, et al. Cumulative incidence of metachronous colorectal cancer. Dis Colon Rectum 1993;36:
Jacobson BC, et al. Surveillance after colorectal cancer resection. UpToDate 2007.
Anthony T. Colorectal cancer follow-up in Surg Oncol Clin N Am 2006;15:
Blumgart LH and Fong Y. Surgical options in the treatment of hepatic metastasis from colorectal cancer. Curr Probl Surg 1995;32(5):
Simmonds, PC. Palliative chemotherapy for advanced colorectal cancer: Systematic review and meta-analysis. Colorectal Cancer Collaborative Group. BMJ 2000;321:
Lawrence SP and Ahnen DJ. Epidemiology and risk factors for colorectal cancer. UpToDate 2007.
Mandel JS, et. al. Reducing mortality from colorectal cancer by screening for fecal occult blood. Minnesota Colon Cancer Control Study. N Engl J Med 1993;328:
Hardcastle JD, et. al. Randomised controlled trial of faecal-occult-blood screening for colorectal cancer. Lancet 1996;348(9040):
Kronborg O, et al. Randomised study of screening for colorectal cancer with faecal-occult-blood test. Lancet 1996;348(9040):
Strate LL and Syngal S. Hereditary colorectal cancer syndromes. Cancer Causes and Control 2005;16:
Kim DH, et. al. CT colonography versus colonoscopy for the detection of advanced neoplasia. New England Journal of Medicine 2007;357:
Meyerhardt JA and Mayer RJ. Systemic therapy for colorectal cancer. New England Journal of Medicine 2005;352:
Tomlinson JT, et. al. Actual 10-year survival after resection of colorectal liver metastases defines cure. J Clin Oncol 2007;25:
Shinya H and Wolff WI. Morphology, anatomic distribution, and cancer potential of colonic polyps. Ann Surg 1979;1990:675.
Loeve F, et. al. Colorectal cancer risk after colonoscopic polypectomy: a population-based study and literature search. Eur J Cancer 2005;41(3):
Green RJ, et. al. Surveillance for second primary colorectal cancer after adjuvant chemotherapy: an analysis of intergroup Annals of Internal Medicine 2002;136:
Manfredi S. Incidence and patterns of recurrence after resection for cure of colonic cancer in a well define population. British J Surgery 2006;93:
Rex DK. Guidelines for colonoscopy surveillance after cancer resection: a consensus update by the American Cancer Society and US multi-society task force on colorectal cancer. CA Cancer J Clin 2006;56:
Image references not listed