Tag Archives: Colon

Colon Medullary Adenocarcinoma

Posted on May 9, 2011 by admin

Colon Medullary Adenocarcinoma

Also known as undifferentiated carcinoma of the colon

Pathophysiology: strongly associated with microsatellite instability  MSI-H and no or few nodal metastases
- sporadic or associated with hereditary non-polyposis colorectal carcinoma syndrome HNPCC

Gross: large size with invasion into adjacent organs

Histology: expansive sheets of cells
- no/minimal mucin production,
- no tubules formation
- lymphocytic infiltration
- cells:uniform, polygonal to round, nucleoli, mitoses

Immunohistochemistry (IHC)

Positive IHC: CK, CEA, EMA

Negative IHC: neuroendocrine markers, MLH1, MSH2

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Colon Adenocarcinoma

Posted on May 9, 2011 by admin

Colon Adenocarcinoma

Risk Factors: Hereditary syndromes, ­ age, Ulcerative Colitis, Crohn’s disease, family history of colon cancer

Symptoms:
Right side colon cancer: polypoid exophytic masses, iron-deficiency anemia with weakness and fatigue
Left side colon cancer: annular lesions with obstructive symptoms (diarrhea)
Rectosigmoid tumors: more advanced stage

Gross: polypoid or ulcerative; serosal puckering if muscularis propria involved

Histology: well to poorly differentiated tumor cells with marked desmoplasia, mucin production, inflammation

Grade: low, moderate, high (consider gland architecture and orientation of nuclei)

Immunohistochemistry:

Positive stains: CK7-/20+, MUC1+/MUC3+, CDX2, hCG, CEA

Poor prognostic factors: stage, grade, highly infiltrative growth pattern at margin, positive margins,
-  subtypes =  small cell, mucinous, anaplastic or signet ring
- angiolymphatic and perineural invasion

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Adenoma Carcinoma Sequence

Posted on May 9, 2011 by admin

Adenoma Carcinoma Sequence

Steps and pathway to cancer development:

1. “First hit”: germline or somatic mutations to:

- APC, mismatch repair genes (MSH2)

2. “Second hit”: methylation, inactivation of normal alleles:

- APC, B-catenin, MSH2

Adenomas

3. Protooncogene mutation: k-ras

4. Homozygous loss of other tumour suppressor protein: p53

5. Carcinoma: many genes involved and altered

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Lymphocytic Colitis

Posted on August 15, 2010 by admin

Lymphocytic Colitis

Microscopic Colitis

Clinical

-all ages, M=F

-cause unknown

-prolonged watery diarrhea

-associated with autoimmune disease in some patients (celiac sprue, arthritis and thyroiditis)

-normal colonoscopic exam

Microscopic Appearance

-generally involves the entire colon

-marked increase in lymphocytes in the surface and crypt epithelium

-absence of thickened subepithelial collagen layer

-chronic inflammation in the lamina propria

-no crypt distortion

-may have occasional foci of cryptitis or neutrophils in the surface epithelium

Differential Diagnosis

-collagenous colitis

-resolving infectious colitis

-chronic epithelial lymphocytosis associated with food or water-borne epidemics

-Crohn’s disease

-normal mucosa overlying a lymphoid aggregate

-lymphocytic enterocolits

** Always check the clinical history before making the diagnosis.

Prognosis

-most patients respond to symptomatic or antiinflammtory therapy. Those who don’t respond  tend to also have sprue-like symptom may be classified as having  lymphocytic enterocolitis

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Diverticular Disease

Posted on August 15, 2010 by admin

Diverticular Disease

Acquired  – lack or have attenuated muscularis propria due to focal weakness in the wall

Multifactorial pathogenesis including:

-increased intraluminal pressure

-colonic wall aging

-motor dysfunction

-lack of dietary fiber

Other diverticula to be aware of:

Esophageal

Meckel’s

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Angiodysplasia

Posted on August 15, 2010 by admin

Angiodysplasia

Clinical

-right colon most commonly, occasionally small intestine

-presents as chronic intestinal bleed, anemia and weight loss

- reported to be association with aortic stenosis

-fairly frequent cause of bleeding in the elderly

-3 types

-I  – most common, >55yrs, right colon

-II – 20s and 30s  – stomach and proximal bowel

-III – positive family hx -  GI tract lesions, oral mucosa and skin lesion

Pathogenesis

-acquired.vascular ectasia due to partial intermittent occlusion of submucosal veins

Gross Appearance

-one or multiple lesion  -sharply delineated red, flat or slightly raised,  mucosal lesion with scalloped edges and a prominent draining vein

Histology

-dilated, tortuous submucosal veins with distended branches piercing through the muscularis mucosa, connecting with dilated capillaries between the crypts in the lamina propria

-ectatic small vessels may fill the entire mucosa

-surface mucosa erosion and acute chronic inflammation

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Familial Adenomatous Polyposis Syndrome

Posted on April 29, 2010 by admin

Familial Adenomatous Polyposis (FAP) Syndrome

Familial Adenomatous Polyposis Syndrome Inheritance pattern

- autosomal dominant inheritance

- APC gene is on chromosome 5q21
- APC gene plays a role in the WNT pathway in the degradation of the beta-catenin

- beta-catenin role is to turn on transcription factors in the nucleus that lead to cell cycle progression
-mutations in the APC leads to absence of b-catenin degradation and signal independent tranlocation into the nucleus where it turns on the cell cycl

Familial Adenomatous Polyposis Syndrome Clinical Presentation

- two types of clinical presentations:

Classic Familial Adenomatous Polyposis

- minimum of 100 colonic polyps

- polyps in ampulla of Vater – this leads to a prophylactic colectomy in siblings and first-degree relatives which are at risk

Attenuated Familial Adenomatous Polyposis

- patients tend to develop fewer polyps (average 30), and most of the polyps are located in the proximal colon

- lifetime risk of cancer development is usually around 50%

Gardner syndrome

- polyps identical to those in classic FAP
- multiple osteomas (particularly of the mandible, skull, and long bones)
- epidermal cysts
- fibromatosis – desmoid tumors
- less frequent are abnormalities of dentition, such as unerupted and supernumerary teeth
- higher frequency of duodenal and thyroid cancer

Turcot syndrome

- combination of adenomatous colonic polyposis and tumors of the CNS
2/3 have  have APC gene mutations and develop brain medulloblastomas

- 1/3 have mutations in one of the genes associated with HNPCC and develop brain glioblastomas

Gross Features of Familial Adenomatous Polyposis

-hundreds to thousands of adenomas evenly distributed through colorectum  and appendix
- adenomas range from microscopic to 1cm in diameter with larger adenomas found in the rectosigmoid
- rectum occasionally spared, especially in the attenuated FAP
- colorectal carcinomas may be multifocal

Microscopic Features of Familial Adenomatous Polyposis

- histologically identical to sporadic adenomas
- normal intervening mucosa

- adenomas evolve from single adenomatous crypts

Symptoms and Management

- patients may be asymptomatic before puberty
- initial symptoms are  rectal bleeding and diarrhea
- carcinomas start about 6 years after first symptoms
- 100%  colon cancer without intervention
- treatment is prophylactic total colectomy
- following colectomy, the most common cause of death is periampullary cancer in 20%

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Carcinoid syndrome

Posted on April 27, 2010 by admin

Carcinoid syndrome

Symptoms of Carcinoid Syndrome

- skin flushing
- diarrhea

- right sided heart disease due to fibrosis of the tricuspid valve and stenosis of the pulmonary valve

- bronchoconstriction

Detection of Carcinoid Syndrome

Serotonin secretion is confirmed  by measuring the 24 hour urine levels of 5-HIAA (5-hydroxyindoleacetic acid), which is a breakdown product of the hormone, serotonin.

Management of Carcinoid Tumors

Low risk Carcinoid

Local excision for small lesions < 2 cm, with no mesoappendix invasion and no lymphovascular invasion.

Uncertain behavior if > 2 cm or lymphovascular invasion, no mesoappendix invasion.

High risk lesions have at least a cecal resection. These high risk tumors are found at the base of the appendix with caecal margin involvement.

Higher risk lesions require hemicolectomy. These include carcinoid lesions above 2 cm or with invasion of mesoappendix.

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Pseudoinvasion

Posted on April 27, 2010 by admin

Pseudoinvasion

Pseudoinvasion is basically herniated glands. It is important for a pathologist to recognize pseudoinvasion in order to not call it cancer and to avoid overtreatment.

-glands are cystically dilated and surrounded by normal lamina propria, with NO desmoplastic response

-there are dilated vessels, hemorrhage  and hemosiderin-laden macrophages

- there may be a visible connection to the surface mucosa from the pseudoinvaded glands

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Colon Cancer arising in an Adenoma

Posted on April 27, 2010 by admin

Colorectal Cancer in an Adenoma

Features of a Cancer arising in an adenoma, what to look for?

Colon cancer in lamina propria is staged as Tis and is treated by somple polypectomy during scoping.

Colon cancer arising in an colonic adenomatous polyp, which breaches the muscularis mucosa is staged T1) and can be treated with polypectomy, unless there is:
-high grade dysplasia

-lymphovascular invasion

-positive stalk margin (e.g. remaining tumor which the surgeon was unable to completely remove)

- the adenoma is large, >2cm

If any of the above, then the patient needs a hemicolectomy.

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