GI Polyps and Carcinoma

Question 1

Sessile polyp vs pedunclulated polyp

Answer 1

Pedunculated: has a stalk
Sessile: no stalk

Question 2

Non-Neoplastic Polyps

Answer 2

Inflammatory Polyps

Hamartomatous Polyps: Juvenile, Peutz-Jeghers, Others: Cowden, Cronkhite-Canada

Hyperplastic Polyps

Question 3

Inflammatory polyps

Answer 3

Often present with bleeding

Often due to mucosal prolapse (very common in the rectum)

Cycles of injury and healing result in “polyp” formation = inflamed colonic mucosa with ulceration/erosion, epithelial hyperplasia

Question 4

Hamartomatous Polyps

Answer 4

Tissue that does belong there but is overgrown and a little disorganized

Most occur in childhood

Think about syndromes

Polyps: Variable locations in lower GI system

Benign features histologically but syndromic juvenile polyps often have foci of dysplasia

May portend

Risk of future GI carcinoma (increase frequency of screening)

Both Peutz-Jeghers and Juvenile polyposis = 40% cumulative risk for CA

Extra-GI manifestations

Need to consider familial screening (genetic counseling) in some cases

Question 5

Peutz-Jeghers syndrome

Answer 5

Mucocutaneous pigmented lesions; increased risk of thyroid, breast, lung, pancreas, gonadal, and bladder cancers

Question 6

Juvenile polyposis

Answer 6

Pulmonary arteriovenous malformations, digital clubbing

Question 7

Hyperplastic Polyps

Answer 7

Delayed maturation with overgrowth of epithelium (SERRATED appearance)

Increasing incidence with age

Small in size

No dysplasia but need to distinguish from “sessile serrated polyp/adenoma” (SSP) which ARE pre-malignant

Question 8

Serrated Polyps

Answer 8

NOT pre-malignant: Hyperplastic Polyps (generally)

Pre-malignant: Sessile serrated polyps/adenoma (alternate pathways to carcinoma than the usual adenomatous polyp).

Question 9

Adenomas (non-serrated)

Answer 9

Size is variable – range from a few mm to several cm (10 cm or more)

Present in nearly 50% of Western adults by age 50

Present throughout the colon

Have epithelial cytologic dysplasia ranging from low grade to high grade (carcinoma in situ)

Villous adenomas contain foci of invasion more frequently than tubular adenomas but SIZE MATTERS (size is the most important characteristic that correlates with risk of malignancy overall in the patient)

Presence of high grade dysplasia increases risk of malignant transformation in that polyp but not in the rest of the colon

Question 10

Adenomatous Changes

Answer 10

1. Cells
   
   • Piling up on each other (no respect!)
2. Nuclei
   
   • Darker
     (hyperchromasia)
   • Progressive loss of basal-orientation
3. Cytoplasm - Reduced compared to nucleus
   (increased N:C ratio)
   
   • Reduced mucin production
4. Mitotic Figures - Increased mitotic activity

Question 11

Adenoma to cancer progression

Answer 11

APC mutations, beta-catenin (also APC), KRAS mut, loss of p53 and/or SMAD 2 and 4

Question 12

Risk factors for colorectal cancer

Answer 12

High-risk:
Age
Country of birth
FAP/HNPCC
Long-standing ulcerative colitis

Moderate-risk:
HIgh-red mean diet
previous denoma or cancer
pelvic irradiation

Mild risk:
High fat diet
smoking and alcohol
Obesity
Cholecystectomy

Question 13

Protective factors for colorectal cancer

Answer 13

Exercise
NSAID use
High-fiber diet

Question 14

Main Molecular Pathways for colorectal cancer

Answer 14

WNT/APC/beta-catenin – classical adenoma-carcinoma sequence

K-Ras/MAP kinase/PI3 kinase signaling pathways—activating mutations

Microsatellite Instability – defects in mismatch repair proteins

Also: epigenetic events such as methylation-induced gene silencing…enhances progression along these pathways

Question 15

The WNT Pathway

Answer 15

APC and beta-catenin are part of WNT pathway

Wnt protein ligands are critical for development

Animals lacking Wnt homologs fail to develop entire organs. The fly homolog of human wnt-1 is wingless

Wnt ligands drive proliferation of their target tissues/organs

The Wnt pathway regulates the levels of cytoplasmic beta-catenin

Without WNT signaling: Phosphorylated beta-catenin is ubiquitylated and degraded in proteasome

With WNT signaling: unphosphorylated beta-catenin accumulates, migrates to nucleus, and displaces groucho causing transcription of WNT-responsive genes

Question 16

Adenoma formation

Answer 16

There is no increase in the rate of cell proliferation in
the early stage of polyp formation.

Polyps represent an increase in the size of the proliferating crypt compartment

Question 17

FAP: Familial Adenometous Polyposis

Answer 17

APC mutations can run in families, producing Familial Adenomatous Polyposis (FAP)

FAP patients have increased risk of colon cancer, but these account for a small fraction of the total cases of colon cancer (~5%)

Most people who acquire colon cancer without FAP acquire spontaneous somatic mutations in APC

Question 18

Colon Carcinoma: Symptoms / Presentation

Answer 18

Early Colon Carcinoma:
No symptoms most often
Nonspecific findings
Fatigue
Weight loss 
Anemia 

Advancing Colon Carcinoma:
Change in bowel habits and indicators
Constipation
Urgency
Narrowing of stool
Cramping / pain
Blood Loss
Blood in stool or bleeding from rectum (BBBPR)
Anemia (iron-deficiency)
Unexplained weight loss

Question 19

cetuximab

Answer 19

Monoclonal antibody against EGFR

Question 20

Hereditary Non-Polyposis Colorectal Cancer aka Lynch Syndrome

Answer 20

Develop colon cancer at an earlier age than sporadic forms

Tend to be right-sided

Inherit mutation of mismatch repair gene allele, acquire the second allele mutation over time leading to microsatellite instability

Question 21

Definition of carcinoma and what adenomas are at risk

Answer 21

Invasion of dysplastic epithelial cells into and beyond the lamina propria

Adenomas at risk:
4 cm: high risk (~40% in one study) of identification of invasive component within lesion

Question 22

Staging of colorectal cancer

Answer 22

TNM

T: tumor size and degree of invasion
N: Lymph node involvement
M: metastasis

Question 23

Most important prognostic factors

Answer 23

Depth of invasion
Presence or absence of lymph node metastasis
Distant metastasis

Question 24

Most common location of metastasis of colorectal cancer

Answer 24

liver

Question 25

Therapy for colorectal cancer

Answer 25

Surgery:
Local excision – e.g. polypectomy
Colonic resection
Radiofrequency ablation
Cryosurgery

Chemotherapy:
Only treatment = palliative
Adjunctive treatment
Pre or Post-Operative

Radiation therapy:
Targeted Therapy

Monoclonal antibodies

Angiogenesis inhibitors

Question 26

Sporadic colon cancer: pathway involved, target molecule, and histology

Answer 26

APC/WNT pathway (80%)
APC target molecule
Histology: Tubular, villous; typical adenocarcinoma

DNA mismatch repair (10-15%)
Target genes: MSH2, MLH1
Histology: Sessile serrated adenoma; mucinous adenocarcinoma

Question 27

Familial Adenomatous Polyposis: pathway involved, target molecule, and histology

Answer 27

APC/WNT pathway (70%)
Target gene: APC
HIstology: Tubular, villous; typical adenocarcinoma

DNA mismatch repair (

Question 28

Hereditary Nonpolyposis Colorectal Cancer

(HNPCC) / Lynch Syndrome: mechanism, target molecule, and histology

Answer 28

DNA mismatch repair
Target genes: MSH2, MLH1
Histology: Sessile serrated adenoma; mucinous adenocarcinoma