Colorectal

Question 1

Name the mismatch repair genes associated with Lynch syndrome?

Answer 1

MLH1
MLH2
MSH6
PMS2

NB: MMR genes

Question 2

Lynch syndrome is associated with which cancers and what proportions of each?

Answer 2

colorectum (80% lifetime risk)
Endometrium 60% lifetime risk
ovary 12%
et al.

Question 3

colonic biopsy. H/O cervical SCC

Dx:
Key features demonstrated in image.
Other features

Answer 3

Dx: radiation related colitis/proctitis

Hyalinisation of vessels + intimal thickening, LP fibrosis.

Acute radiation colitis (< 6 months after radiation treatment):
Epithelium can contain:
Reduced mitotic activity
Apoptosis
Reduced goblet cell mucin
Goblet cell swelling
Degenerative changes
Atypia (nuclear enlargement and malorientation)
Inflammation
Typically eosinophilic (characteristic)
Lamina propria eosinophilic infiltration
Eosinophilic cryptitis
Eosinophilic crypt abscesses
Can be fibroblast proliferation in lamina propria (reactive changes to radiation)
Chronic radiation colitis (> 6 months after radiation treatment):
Epithelium:
Paneth cell metaplasia
Ulceration
Mild epithelial atypia
Crypts:
Architectural changes and atrophy
Lamina propria:
Fibrosis
Mild chronic inflammation
Atypical fibroblasts / stromal cells with enlarged hyperchromatic nuclei
Submucosa and deeper layers:
Vasculature
Hyalinization and fibrosis of vessel wall
Intimal thickening
Vascular ectasia or narrowing
Thrombosis
Endothelial cell atypia

Question 4

descending colon polyp 44F
Dx:
Features in image
IHC:

Answer 4

Dx: Schwann cell hamartoma
Image demonstrates bland spindle cell proliferation with elongated nuclei and dense eosinophilic cytoplasm, which is consistent with Schwann cell proliferation.

IHC: S100 (+) EMA/DOG1/CD43/SMA (-)

Question 5

polyp
Dx:
key features
IHC:

Answer 5

Schwann cell hamartoma
Poorly circumscribed mucosal proliferation of spindle cells, with no whorling, no palisading, no fasciculation
Nuclei are generally small, bland and elongated
IHC: S100 (+) EMA/DOG1/CD43/SMA (-)

Question 6

39M anal biopsy

dx

Answer 6

Dx: Crohn’s disease.
Exclude infectious processes

The section reveals acanthosis and hyperkeratosis affecting the squamous epithelium, but there is also focal ulceration as well as prominent inflammation within the subepithelial tissues. The inflammatory process includes numerous non-caseating epithelioid granulomas together with a predominantly lymphocytic inflammatory infiltrate elsewhere, with the formation of lymphoid aggregates. In some areas there are also sheets of histiocytes intermingled with the lymphocytes, without obvious circumscribed granuloma formation. Areas of collagenous fibrosis are also evident within the subepithelial zone. The appearances conform to those of chronic and active granulomatous inflammation with focal ulceration of the squamous epithelium, highly characteristic of Crohn’s disease with anal/perianal involvement.

Question 7

62F. recent onset of abdo pain and PR bleeding

Dx
Key features
Further invx?

Answer 7

Pseudomembranous colitis

Key features:
* Multifocal areas of ulceration, associated with exploding ‘mushroom-like’ inflammatory exudate.
* Architecture otherwise does not show significant distortion.
* No ischaemic changes noted.
* No thrombosed blood vessels seen.

Inx: Clostridium difficile toxin assay

Question 8

Juvenile polyposis syndrome

diagnostic criteria:

Answer 8

> 3 - 5 juvenile polyps in the colorectum or
Juvenile polyps throughout the gastrointestinal tract or
Any number of juvenile polyps with a positive family history of juvenile polyposis (World J Gastroenterol 2011;17:4839)
Other syndromes involving hamartomatous gastrointestinal polyps should be ruled out clinically or by pathological examination

Question 9

acute vs chronic ischaemic colitis key microscopic features

Answer 9

Question 10

tumour budding

with respect to CRC, defined tumour budding

Answer 10

Between 1-4 tumour cells at the advancing edge of the tumour
more important in malignant polyps.
Not meant to use IHC as the original study was done one H&E.

Question 11

RAS mutation testing

Why do we do RAS (NRAS/KRAS) mutation testing in colorectal carcinoma?

Answer 11

To exclude RAS mutation-positive metastatic colorectal cancer (mCRC) patients from receiving anti-epidermal growth factor receptor (EGFR) therapy.

This is because anti-EGFR agents do not provide meaningful survival benefits versus anti-angiogenic/chemotherapy regimens in mCRC patients whose tumours are not wild type (WT) with respect to RAS genes

Question 12

84F rectal stump

DX?
Key features?

Answer 12

Solitary rectal ulcer syndrome/mucosal prolapse

Key features:
Fibromuscular hyperplasia/obliteration of the LP
Architectural distortion
Hyperplastic/villiform regenerative surface w/ mucin loss
Inflammation, erosion, ulceration.
Capillary proliferation and dilatation
Dense submucosal fibrosis and cysts

Question 13

54F colonic polyp

Dx?
Key features?
syndromic associations?
IHC?

Answer 13

Ganglioneuroma (unrelated to the same lesion in the adrenal gland)

Expansion of the lamina propria by bland spindled mesenchymal cells (Schwann cells), lacking atypia or mitotic figures
Ganglion cells present within the expanded region; may be rare or abundant

If multiple can be a/w Cowden syndrome (PTEN)

IHC: S100 schwann cells and Syn/NSE for ganglion cells