Histopathology Flashcards
Lymphocytes are seen in
- Chronic inflammation
- Sheets of lymphocytes - think lymphoma
Eosinophils are seen in
- Allergy
- Parasitic infection
- Hodgkin Lymphoma
Macrophages are seen in
- Late stages of acute inflammation
- Granulomas
Non-caseating granuloma
Sarcoidosis
Caseating granuloma
TB - stains positive on Ziehl-Neelsen staining
Tumours from epithelial cells
CARCINOMAS
- These express cytokeratins
Squamous cell carcinoma
- intercellular bridges and keratin
Adenocarcinoma - from glandular epithelium
- goblet cells and glands
Transitional cell carcinoma
Histological staining types
Histochemical - chemical reaction to specific tissue components
Immunohistochemical - antibodies which bind to specific antigens present in the cell
Congo red stain
Amyloidosis
Congo red positive and shows apple-green birefringence under polarised light
Prussian blue stain
Haematochromatosis (iron overload)
Ziehl-Neelsen staining
- Acid-fast bacilli
- Goes bright red
Imunohistochemical markers
- Cytokeratin - epithelial marker. NO CYTROKERATINS MEANS IT IS NOT A CARCINOMA!
- CD45 - lymphoid marker
Fontana stain
Positive for melanin (turns brown-black)
Differences between parts of stomach
The fundus and body have specialised glands which secrete acid and enzymes
the antrum and pylorus have non-specialised glands (gastric pits)
Duodenum - crypts and villi
- The cells proliferate in the crypts and midrate up to the villi
- Villous:crypt ratio 2:!
Barrett’s oesophagus
- Squamous epithelium of the oesophagus can become relines with metaplastic columnar epithelium (gastric-type epithelium)
Eosophagus - progression to adenocarcinoma
- Barret’s oesophagus is gastric-type epithelium
- This can go one step further to intestinal-type metaplasia (contains goblet cells)
- Intestinal type metaplasia carries high risk of cancer BUT it is reversible with the treatment of GORD
- If there are cytological and histological features of malignancy, but DM not involved, it is dysplasia
- If there is invasion of the BM, it is adenocarcinoma
Commonest types of oesophageal cancers
UK - adenocarcinoma (GORD)
Globally - SCC (smoking, alcohol)
Causes of chronic gastritis
ABC
- Auto-immune (e.g. pernicious anaemia)
- Bacterial - H. pylori
- Chemicals - NSAIDs, bile reflux
What feature on stomach biopsy would indicate H.pylori infection?
Lymphoid follicles - indicates patient has had H. pylori infection at SOME POINT
Effect of H. pylori on stomach cells
Binds to epithelial cell surfaces
injects toxins into cells (such as urease)
These lower the pH in the stomach
Different strains of H. pylori
Cag A +ve – needle-like appendage injects toxins into intercellular junctions, so organism can attach more easily
Cag A -ve – associated with severe chronic inflammation
What is the risk of cancer with chronic H. pylori infection?
8x increased risk of gastric cancer
Types of cancer that chronic H. pylori can cause
- adenocarcinoma
- lymphoma (MALT)
Causes of gastritis is an immunosuppressed patient
- CMV
- Strongyloides
Definitions:
- Gastric ulcer
- Gastric erosion
- Chronic ulcer
Ulcer - loss of epithelial tissue extending deeper than muscularis mucosae
Erosion - loss of epithelial tissue extending up to the lamina propria
Chronic ulcers - have fibrosis
Classification of stomach adenocarcinomas
- Intestinal type - well differentiated, large mucin-containing glands
- Diffuse type - poorly differentiated cells, not producing glands
SIGNET CELL IS HALLMARK (diffuse type)
Causes of duodenitis
- H. pylori - leading cause (spills over from gastritis)
- Giardiasis
- CMV (in immunosuppressed)
- Cryptosporydiosis
- Whipple’s disease - very rare
Histological features of coeliac disease
- villous atrophy (damage from T-cell response to gliadin)
- crypt hyperplasia (to try and replace villi)
- increased numbers of intraepithelial lymphocytes
Lymphocytic duodenitis
- lymphocytic infiltration of duodenum without architectural changes
- may cause mild coeliac disease
Duodenal MALToma
- associated with coeliac disease
- very aggressive lymphoma
- can manage by treating H. pylori infection and abiding to gluten-free diet
Hirschsprung disease - gene
RET proto-oncogene Cr10
Diagnosis of Hirschsprung disease
Full thickness biopsy shows hypertrophies nerve fibres with no ganglia
Volvulus sites by age
Small children - small bowel
Old people - sigmoid colon
Pseudomembranous colitis
- Acute colitis caused by enterotoxins of C. difficile
- Associated with antibiotic use
- There is pseudomembrane formation
- Histology shoes volcano-like epithelial surface, these are the necrotic pseudomembranous regions filled with pus and inflammatory cells
- Detection of C. diff on toxin stool assay
- Tx - metronidazole or vancomycin
Risk of adenocarcinoma with UC?
20-30x increased risk
Neoplastic polyps of the colon
3 types of neoplastic polyps:
- Tubular
- Tubovillous
- Villous adenoma
With villous adenoma you can get hypoproteinaemic hypokalaemia
Risk factors for polyp - cancer
- Size of polyp
- Proportion of villous component
- degree of dysplastic change within a polyp
Familial Adenomatous Polyps
- Autosomal dominant
- large numbers (min 100) of adenomatous polyps
- APC gene mutation
- 100% risk cancer in 10-15 years
Features
- Retinal pigment epithelium hypertrophy at birth
Gardner’s Syndrome
- Same as FAP but with significant extra-intestinal manifestations
- Osteomas of skull and mandible
- Epidermoid cysts
- Desmoid tumours
- Dental caries, unerupted teeth
Hereditary Non-Polyposis Hereditary Cancer
- Autosomal Dominant
- Mutation in DNA repair gene, so there are DNA replication erroris
- High frequency of early onset carcinomas proximal to the splenic flexure
- There can be extra-colonic cancers
Dukes staging for Bowel Cancer
A - confined to bowel wall
B - through the bowel wall
C - lymph node metastases
D - distant metastases
Renal stones
75% calcium oxalate - associated with hypercalcURIA
10% triple stones (magnesium ammonium phosphate) - associated with Proteus infection and staghorn calculi
5% uric acid stones - associated with gout and high cell turnover e.g. chemotherapy
Benign renal tumours
- Papillary adenoma
- Formed of papillary cells ± tubules
- <15mm by definition - Renal oncocytoma
- PINK oncocytic cells
- Naked eye - mahogany brown with central scar - Renal angiomyolipoma
- Made of blood vessels, smooth muscle and fat
- Can be seen in tuberous sclerosis
- Remove if >4cm
Malignant renal tumours
- Clear cell renal carcinoma
- Most common type
- Clear cells = small round blue cells
- LEIBOVICH RISK MODEL (risk progression index) - Renal papillary carcinoma
- Papillary cells
- >15mm by definition - Chromophobe renal cell carcinoma
- Different coloured cells - Nephroblastoma
- Made of 3 layers of tissue: stromal, epithelial and blastoma
- Children
- Good prognosis
Bladder cancers
Transitional cell carcinomas
- Most common bladder cancer
- Associated with smoking and aromatic amines
- Painless haematuria
- 3 subtypes: Clear cell transitional carcinoma, Infiltrations transitional carcinoma and flat epithelial carcinoma in situ
SCC
- Associated with Schistosomiasis
Adenocarcinoma
- Rare
Prostate pathology
Benign Prostate Hyperplasia
- Increase in the numbers of cells in the prostate
- Very common, aetiology unknown
- Presents with LUTS
- Mx - alpha-blockers (tamsulosin), 5a=reductase inhibitors (finasteride), TURP
Prostate cancer
- Develops from prostate intraepithelial neoplasia
- Risk factors = smoking, FHx, red meat consumption
- Prognosis - GLEASON SCORE
Testicular pathology
Testicular tumours
- 95% are germ cell tumours and 5% are non-germ cell tumours
- Most germ cell tumours are seminomas (clear cells)
Other germ cell tumours;
- Teratoma - can occur at any age, but always pathological in post-pubertal males
- Embryonal carcinoma
- Yolk sac tumour
- Choriocarcinoma
Non-germ cell tumours
- Leydig cell tumour - precocious puberty
- Sertoli cell tumours
Epididymitis
- Associated with N gonorrhoea/C. trachomatis in men <35
- Men >35 - E. coli
Gold standard for diagnosing breast cancer?
Histopathology, because you can see cellular detail AND cellular architecture.
What’s the terminal duct lobular unit?
Duct + acinar tissue
All breast cancers arise from here
What are the two layers of epithelium in breast tissue?
- Outer layer = myoepithelium
- Inner layer = luminal cells
Inflammatory breast disease
DUCT ECTASIA
- Inflammation and dilation of breast duct
- Smoking = biggest risk factor
- Lump with thick white nipple secretions
- There can be slit-like nipple retraction
- Cytology of nipple discharge = proteinaceous material, inflammatory cells
ACUTE MASTITIS
- Inflammation of breast tissue
- Associated with lactation(Staphyloccal infection)
- If not lacating - keratinising squamous metaplasia
- Painful tender breast
- Neutrophils
- Incision & drainage + Abx
FAT NECROSIS
- Inflammatory reaction to adipose injury e.g. radiotherapy
- PAINLESS breast lump
- Giant multinucleate cells
Benign Breast Disease
Fibrocystic breast disease
- Fibrous and cystic changes to breast tissue
- Changes with cycle
- Calcification may be seen
Fibroadenoma
- Fibrosis of stroma and glandular tissue
- Mouse
- Generally self-resolving
Phyllodes tumour
- Leaf-like
- Malignant potential
- Pink = benign, purple = malignant
Duct papilloma
- NO LUMP!!!
- Central papillomas - arise from large lactiferous ducts
- Perpheral papillomas - arise from small terminal ductules
- Central papillomas can give bloody discharge
Radial scar
- Central scarring surrounded by proliferating glandular mesenchyme
- Excise, because there can be malignancy at the edges
Proliferative breast disease
Usual epithelial neoplasia
- Proliferation of the epithelial cells
- No direct increase risk in malignancy
- Serrated lumen
Atypical ductal hyperplasia
- Epithelial proliferation - multiple layers of cells
- Rounded lumen
Atypical lobular hyperplasia
- Proliferation into the acinar space
- May not be able to see lumen
Breast cancer - carcinoma in situ
30% of breast cancer
- Can be DUCTAL (DCIS) or LOBULAR (LCIS)
Lobular CIS
- Loss of E-adherin
Ductal CIS
- Areas of calcification
- Proliferation along the length of the duct
- Low-grade - cribriform appearance
- High-grade - only one central lumen, containing necrotic material
Invasive breast cancer
- Invasion through the BM and into the stromal tissue
- Associated with high lifetime oestrogen exposure and BRCA mutation
Types of invasive breast cancer
- Ductal
- Tubular - elongated tubules of cells
- Lobular - linear arrangement of cells in Indian file pattern
- Mucinous - lots of mucin production
Breast basal-like carcinoma
- Sheets of atypical cells with predominantly lymphocytic infiltration
- Associated with BRCA mutations
- Positive staining for CK5/6, CK14
- Usually triple-negative
Breast cancer screening
- All women aged 47-73, every 3 years
- Looks for masses and abnormal calcification
- If mammogram is abnormal, may need to be recalled for further investigation
- Triple assessment = examination + USS + FNA/core biopsy
Prognostic factors in breast cancer
ER or PR positive - good prognosis (tamoxifen responsive)
Her2 positive - poor prognosis
Hyperpituitarism
- Functional adenoma
- Most common is prolactinoma
- Others are GH adenoma (gigantism/acromegaly) or CRH adenoma (Cushing’s syndrome)
Hypopituitarism
Causes:
- Non-secretory adenomas
- Ischaemic necrosis e.g. Sheehan’s)
- DIC/shock etc
Clinical manifestations in adults:
- Gonadotrophin deficiency - low libido, low fertility, amenorrhea
- TSH and ACTH deficiency
- Prolactin deficiency - rarely
Thyroid physiology
Usual thyroid stuff but also
PARAFOLLICULAR CELLS
- These produce CALCITONIN
- Promotes absorption of calcium to increase serum calcium
Hashimoto’s thyroiditis - histology
- Painless enlargement of the thyroid
- There is massive lymphocytic infiltration with HURTHLE CELLS
Thyroid cancer - histology
PAPILLARY CARCINOMA
- Optically clear nuclei
- Intranuclear inclusions
- Psammoma bodies
MEDULLARY CARCINOMA
- Arises from parafollicular C-cells
- Secretion of calcitonin and CEA
- AMYLOID DEPOSITION IN THE TUMOUR
3 layers of skin?
Top layer = Epidermis (keratinocytes)
Middle layer = dermis (connective tissue and macrophages, mast cells and fibroblasts - fibroblasts produce ECM)
Bottom layer - = subcutaneous fat
6 inflammatory reactions (rashes) of skin?
- Pemphigoid
- Spngiotic
- Psoriaform
- Lichenoid
- Vasculitis
Vesicobullous skin disease
Bullous Pemphigoid
- DEEP = tense bullae, don’t rupture
- Complement-driven attack on the BM
- IgG binds to hemidesmosomes of the BM
- IgG and C3 along the dermal-epidermal junction
Pemphigus vulgaris
- SUPERFICIAL = these rupture
- IgG=mediated damage to keratinocytes with intact BM (acantholysis)
- Intercellular IgG deposits
Pemphigus foliaceous
- Thin blister which may not be visible if they have burst
- IgG-mediated damage to stratum corneum
Spongiotic skin disease
Eczema
- T-cell mediated recruitment of eosinophils
- Hyperkeratosis with oedema between keratinocytes
Psoriaform skin disease
Plaque psoriasis
- Munroe’s microabscesses on microscopy
Lichenoid skin disease
LICHEN PLANUS
- purple plaques on wrists and arms + white striae inside mouth
- T-cell mediated destruction of deepest later of keratinocytes
- Band-like lymphocytic infiltrate under the epidermis
- Sawtoothing of Rete ridges
Vasculitis skin disease
Pyoderma gangrenosum
- ULCER WITH CLEAR EDGE
Seborrheic keratosis
- Cauliflower lesion on old people
- Microscopy - horn cysts
Epidermoid cyst
- Non-mobile lump with central punctum
- Keratin forms inside a cyst
Bowen’s disease
- Keratin horns
- Confined to epidermis, not invading BM
- Affects sun-exposed areas
Pigmented skin lesions
BENIGN JUNCTIONAL NAEVUS
- Expansion of melanocytes at the bottom of the epidermis
COMPOUND NAEVUS
- Two-tone
- Melanocytes in dermis and epidermis
MALIGNANT MELANOMA
- Breslow system for grading
- Buckshot appearance
How do steroids cause osteoporosis?
Reduces osteoclastogenesis
Reduced osteoblasotogenesis
Increased osteocyte apoptosis
Hyperparathyroidism - histological association
- Brown cell tumour
- Multinucleate giant cells (pink cells) in fibrous stroma with haemorrhage
