Jason's ACP Revision Notes PDF

Summary

These notes are a revision guide for ACP. It covers topics such as general pathology, cardiovascular pathology, and respiratory pathology. They are well-organized and outline different systems with corresponding topics. The text is comprehensive.

Full Transcript

1
TERMINOLOGY................................................................................................................................................................... 3
GENERAL PATHOLOGY......................................................................................................................................... 4
BAP-L2 CELL INJURY & CELL DEATH...................................................................................................................................... 4
BAP-L3 SUBCELLULAR INJURY AND CELLULAR ADAPTATION....................................................................................................... 6
BAP-L5 ACUTE INFLAMMATION........................................................................................................................................... 8
BAP-L6 CHRONIC INFLAMMATION..................................................................................................................................... 10
BAP-L7 HEALING, REPAIR AND REGENERATION..................................................................................................................... 12
BAP-L13 & 14 MOLECULAR MECHANISMS OF NEOPLASIA..................................................................................................... 14
BAP-L15 CLASSICAL TUMOURS.......................................................................................................................................... 18
BAP-L18 & 19 HAEMODYNAMIC DISTURBANCES................................................................................................................. 20
BAP-L33 AMYLOIDOSIS.................................................................................................................................................... 23
GI AND HBP PATHOLOGY................................................................................................................................... 25
BAP-L34 HEAD AND NECK PATHOLOGY............................................................................................................................... 25
BAP-L35 OESOPHAGEAL PATHOLOGY................................................................................................................................. 27
BAP-L39 GASTRIC PATHOLOGY.......................................................................................................................................... 29
BAP-L38 NON-NEOPLASTIC DISEASES OF SMALL AND LARGE BOWELS....................................................................................... 32
BAP-L39 POLYPS AND NEOPLASMS OF SMALL AND LARGE BOWELS.......................................................................................... 35
ACP-L21 & 22 HBP PATHOLOGY...................................................................................................................................... 38
CARDIOVASCULAR SYSTEM................................................................................................................................ 49
ACP-L8 PATHOLOGY OF VESSELS........................................................................................................................................ 49
ACP-L9 & 10 PATHOLOGY OF THE HEART............................................................................................................................ 52
RESPIRATORY SYSTEM....................................................................................................................................... 58
ACP-L18 PATHOLOGY OF LUNG INFECTIONS........................................................................................................................ 58
ACP-L19 OBSTRUCTIVE AND RESTRICTIVE LUNG DISEASES...................................................................................................... 61
ACP-L20 PATHOLOGY OF LUNG AND PLEURAL TUMOURS....................................................................................................... 64
UROGENITAL SYSTEM........................................................................................................................................ 67
ACP-L23 & L24 MEDICAL RENAL DISEASES......................................................................................................................... 67
ACP-L25 TUMOURS OF KIDNEY AND URINARY TRACTS........................................................................................................... 72
ACP-L26 PATHOLOGY OF PROSTATE AND TESTIS................................................................................................................... 74
BREAST & ENDOCRINE PATHOLOGY.................................................................................................................... 77
ACP-L33 BREAST PATHOLOGY........................................................................................................................................... 77
ACP-L36 & L37 ENDOCRINE PATHOLOGY........................................................................................................................... 81
NEUROPATHOLOGY........................................................................................................................................... 85
ACP-L35 DISEASES OF SKELETAL MUSCLES........................................................................................................................... 85
ACP-L44 HEAD INJURY..................................................................................................................................................... 87
ACP-L46 CNS TUMOURS................................................................................................................................................. 90
ACP-L47 CEREBROVASCULAR DISEASES............................................................................................................................... 92
ACP-L48 DEMENTIA........................................................................................................................................................ 95
GYNAECOLOGICAL PATHOLOGY......................................................................................................................... 98
ACP-L49 GYNAECOLOGICAL PATHOLOGY I........................................................................................................................... 98
ACP-L50E GYNAECOLOGICAL PATHOLOGY II...................................................................................................................... 102
ORTHOPAEDIC PATHOLOGY............................................................................................................................. 104
ACP-L51 NON-NEOPLASTIC BONE DISORDERS.................................................................................................................... 104
ACP-L52 JOINT DISEASES................................................................................................................................................ 107
ACP-L53 BONE TUMOURS.............................................................................................................................................. 111
ACP-L45E SOFT TISSUE TUMOURS................................................................................................................................... 112
HAEMATOLOGY............................................................................................................................................... 112
ACP-L1 NORMAL HAEMATOPOIESIS................................................................................................................................. 113
ACP-L2 COMPLETE BLOOD COUNT AND ABNORMAL BLOOD CELL MORPHOLOGY...................................................................... 114
ACP-L3 CYTOPENIA AND APPROACH TO ANAEMIA............................................................................................................... 117
ACP-L4 IRON DEFICIENCY ANAEMIA.................................................................................................................................. 119
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ACP-L5 MEGALOBLASTIC ANAEMIA.................................................................................................................................. 122
ACP-L6E HAEMOLYTIC ANAEMIA..................................................................................................................................... 124
ACP-L7E GENETIC DISORDERS OF HAEMOGLOBIN............................................................................................................... 128
ACP-L38 & L16 APPROACH TO HAEMATOLOGICAL MALIGNANCIES & INVESTIGATIONS............................................................. 130
ACP-L11 ACUTE LEUKAEMIA........................................................................................................................................... 133
ACP-L14 & L15 MYELOPROLIFERATIVE NEOPLASMS........................................................................................................... 135
ACP-L13 APLASTIC ANAEMIA, MYELODYSPLASTIC SYNDROME AND PAROXYSMAL NOCTURNAL HAEMOGLOBUINURIA..................... 139
ACP-L12 MULTIPLE MYELOMA & LYMPHOPROLIFERATIVE DISORDERS.................................................................................... 142
ACP-L17 LYMPHOMA.................................................................................................................................................... 145
ACP-L32 PATHOLOGY OF LYMPH NODES, SPLEEN AND THYMUS............................................................................................ 148
ACP-L27 BLOOD COAGULATION AND HAEMOSTASIS............................................................................................................ 150
ACP-L28 BLEEDING DISORDERS....................................................................................................................................... 152
ACP-L29 THROMBOTIC DISORDERS.................................................................................................................................. 156
ACP-L30 ADVERSE TRANSFUSION REACTION...................................................................................................................... 160
ACP-L31 COMMON BLOOD PRODUCT AND PRE-TRANSFUSION TESTING.................................................................................. 162
ACP-L39 HAEMATOPOIETIC STEM CELL TRANSPLANTATION.................................................................................................. 164
ACP-L42 & L43 BLOOD CANCER CYTOGENETICS................................................................................................................. 166
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Terminology
Pathological terms Definitions
General pathology
Hyperplasia Increase in cell number
Hypertrophy Increase in cell size
Metaplasia Replacement of one type of epithelium with another, potentially reversible
Dysplasia Disordered growth and maturation of an epithelium, potentially reversible
Hamartoma Disorganised overgrowth of tissue indigenous to that site
Pus Purulent exudate consisting of necrotic cells, neutrophils and oedema fluid
Abscess Focal collection of pus in a walled cavity
Cardiovascular pathology
Atherosclerosis Focal accumulation of lipid & proliferation of smooth muscle cells within tunica intima of
arteries
Infarct Ischaemic necrosis
Aneurysm Localised, permanent dilatation of artery or vein
HBP pathology
Cirrhosis Diffuse regenerative nodules with bridging fibrous septa
Haematology
Thrombus A solid mass of platelets, fibrin (and other components of blood) that forms locally in a vessel
Embolus A detached intravascular solid, liquid or gaseous mass that is carried by blood from its point
of origin to a distant site, where it often causes tissue dysfunction or infarction
Thromboembolism Dislodged thrombi that act as emboli
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GENERAL PATHOLOGY
BAP-L2 Cell injury & cell death cause of cell death: trauma, toxin, infection, autoimmune system

Cellular responses to injury Wall pale = fibrosis; dark = gangrene

Within certain limits, injury is reversible, and cells return
to their stable baseline;
however, if the stress is severe, persistent, or rapid in
onset, it results in irreversible injury and death of the
affected cells.

cell death

Reversible injury the deranged function and morphology of the injured cells can return to normal if the damaging stimulus is removed
Cellular swelling: first manifestation; ion pump
failure → accumulation of Na+ and water → ultrastructural changes
o Blebbing of cell membrane
o Swelling of cell, mt, ER
o Nuclear alterations, with clumping of chromatin
Fatty changes: occurs in hypoxic injury; reduced enzyme activity → failure to metabolise fat → cytoplasmic
3 phenomenon of irreversible death:
lipid vacuole in non-fatty tissue the inability to restore mitochondrial function

Irreversible injury (cell death) the loss of structure and functions of the plasma mem- brane and intracellular membranes
the loss of DNA and chromatin structural integrity.
Necrosis necrosis = cell death (5 types: liquuefactive, caseous, fat, coagulative, gangrenous)
Unprogrammed cell death, always pathological 如缺⾎、接觸毒素、各種感染和創傷引起的損傷
Lysozymes of dying cells + lysozymes of leukocytes recruited in inflammation → loss of membrane integrity +
leakage of cellular contents (K+, enzymes → detection) → inflammation → healing and repair [BAP-7]
Microscopic changes
Nuclear changes: pyknosis (shrink and condense, increased basophilia), karyorrhexis (fragmentation),
karyolysis (dissolved, faded basophilia)
Cytoplasmic changes: increased eosinophilia
Fates of necrotic cells: disappear, replaced by myelin figures and then fatty acids, which can also bind Ca2+ to
become calcified
Macroscopic changes
Describing general patterns instead of explaining underlying mechanisms
Type of necrosis Description
Coagulative (MC) Found in infarcts (localised area of coagulative necrosis) of all solid organs, except brain
arterial block — ischemia Tissue architecture preserved for days: intra-cellular acidosis denatures digestive enzymes of
dry gangrene: diabetic foot dying cells, and digestion only occurs until recruitment of leukocytes
wet gangrene: ischemic bowel disease
Gangrenous necrosis: a form of coagulative necrosis due to ischaemia, e.g. foot gangrene
Wet gangrene: superimposed bacterial infection
Liquefactive Necrotic enzymes are digested into liquid viscous, e.g. hypoxic injury to brain (?mechanism)
brain, lung, liver Formation of pus in acute inflammation, e.g. bacterial infection occur in brain when vessle is occluded
Caseous Creamy-cheesy appearance giant cell = macrophage
granuloma, yellow white Often in form a granuloma: necrotic centre enclosed with a distinctive inflammatory border
Fat Fat destruction by lipase, e.g. pancreatic lipase in acute pancreatitis release of pancreatic lipase in acute pancreatitis
breast, pancreatitis Fat digestion → fatty acid combines with Ca2+ → fat saponificationfat + alkaline = soap — visible chalky area
Fibrinoid Immune complex deposited in arterial wall, binding with fibrin leaked out of vessel
eg. antigen and antibodies
Mechanism of Ischemic Necrosis
Arterial occlusion with local hypoxia
Mitochondrial ATP depletion
Cell membrane Na/K ATPase pump failure
Fluid influx into cytosol Cell swelling
Enzyme outflux
 1. Mitochondrial pathway/Intrinsic
apoptosis 細胞淍亡 = programmed cell death Growth factor withdrawal
= pathway of cell death in which cells activate enzymes that degrade the BAX/BAK dimer on mitochondrial membrane
cells’ own nuclear DNA and nuclear and cytoplasmic proteins Cytochrome C enters cytosol
2. Death Receptor pathway/Extrinsic 5
Apoptosis Fas/CD95/Type 1 Tumor Necrosis Factor Receptor on cell membrane

Programmed cell death via activating dedicated sets of genes Activated cytotoxic T-cells express FasL
Fas-FasL triggers cytoplasmic death domains
Energy dependent 1. 但與壞死始終是病理過程的徵兆不 同，apoptosis 也發⽣在healthy tissue。它的作⽤是在正常發育
Not induce inflammation 過程中消除不需要 的細胞並維持恆定的細胞數量，因此它不⼀定與病理性細胞損傷有關
2. The dead cell and its fragments are cleared with little leakage of cellular contents —>
Physiological stimuli so apoptotic cell death does not elicit an inflammatory reaction 没有發炎
3. 最終結果是 apoptotic cell death is the clearance of apoptotic bodies by phagocytes.
o Embryological development
o Withdrawal of GFs/ hormones for turnover of proliferative tissue
o Cell deletion in proliferative cell population prevent autoimmune disease
o Death in immune cells, e.g. neutrophils in acute inflammation, lymphocytes in lymphoid follicles
o Aging
Pathological stimuli
o DNA damage, e.g. irradiation, cytotoxic drugs
o Accumulation of misfolded proteins, e.g. A peptide in Alzheimer’s disease (AD), CFTR in CF
o Immune reactions, e.g. autoimmune, CTL-mediated apoptosis, tumour (to avoid overpopulation of
cancer cells that compete for nutrients)
o Atrophy of parenchymal organs after duct obstruction
Necrosis Apoptosis
Stimuli Pathologic Physiologic or pathologic
Gene activation No Yes
Morphology Enlarged cell Shrinking cell
Cytoplasmic eosinophilia Apoptotic bodies
Nuclear changes: pyknosis → Fragmentation
karyorrhexis → karyolysis
Induced inflammation Yes 固縮→核碎裂→核溶解 No - in keeping with its role in certain
physiologic processes
Autophagy ⾃噬
o Survival mechanism during cell stress, e.g. nutrient deprivation
o Autophagic vacuoles (ribosome-free ER) → autophagolysosome → lysosomal enzyme digestion
o Defective autophagy implicated in AD

Necrosis
1. Pyknosis 固縮: characterized by nuclear shrinkage and increased basophilia;
the DNA condenses into a dark shrunken mass
2. Necrotic cells show increased eosinophilia — Eosin 紅⾊
(i.e., they are stained red by the dye eosin)
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BAP-L3 Subcellular injury and cellular adaptation
Cellular adaptation
Reversible changes in number, size, phenotype, metabolic activity, or functions in response to changes in
environments
Pathologic adaptations allow cells to escape injury [BAP-L13]
Hyperplasia 增⽣: increase in cell size and cell number
o Increase in cell number epithelium commonly
o Usually occur together with hypertrophy
o Physiological (hormonal hyperplasia during pregnancy) or pathological (BPH, endometrial
hyperplasia that may develop into CA endometrium) benign prostate hyperplasia
Hypertrophy 肥⼤: increase in cell size but not cell number
o Increase in cell size
o Physiological (hormonal hypertrophy during pregnancy, muscle growth from training) or
pathological (LVH due to increasing demand → HF)
Atrophy left ventricle hypertrophy
o Decrease in cell number and size
o Accompanied by autophagy
o Physiological (senile atrophy due to intracellular accumulation of lipofuscin) or pathological (skeletal
muscle atrophy due to disuse or cachexia)
Metaplasia 化⽣Replacement of one type of normal epithelium by another type of mature epithelium
o Change in cell type, potentially reversible
o Increased risk of dysplasia [BAP-L15] 發育不良
o Physiological (cervix) or pathological
Barrett's oesophagus: replacement of squamous epithelium with glandular epithelium due to
chronic irritation of gastric acid
Smoking: replacement of columnar cells with more protective squamous cells)

Other cellular and sub-cellular changes
Intra-cellular accumulation
Pathways of accumulation
Normal endogenous substance - increased production or decreased metabolism, e.g. fatty liver
Abnormal endogenous substance - genetic defect in metabolism, e.g. storage disease
Abnormal exogenous substance, e.g. carbon pigment
Lipid
Triglycerides: fatty liver due to alcohol, DM or starvation; most appears harmless except acute alcoholic
foamy liver, acute fatty liver of pregnancy, Reye syndrome and metabolic syndrome
Cholesterol esters: atherosclerosis, xanthoma (nodules commonly formed in tendons), cholesterolosis
Proteins
Reabsorption droplets in PCT during severe proteinuria: vesicles containing proteins accumulate as they
saturate reabsorption mechanism
Russell bodies (excessive Ig production) found in plasma cells
α1-antitrypsin deficiency
Glycogen, complexes of carbohydrates/proteins/lipids
Glycogen storage disease, e.g. type II (Pompe)
Mucopolysaccharidoses
Gaucher disease: glucocerebrosidase deficiency
Pigments
Exogenous: carbon (phagocytosed by alveolar macrophages)
Endogenous
o Lipofuscin: brown atrophy; indicative of repeated free radical injury and lipid peroxidation
o Melanin: adjacent basal keratinocytes and macrophages can accumulate the pigment
o Hemosiderin: derived from Hb; accumulates in frequent blood transfusion, genetic disease
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Pathological calcification
Dystrophic
Found in necrotic or injured tissue, e.g. atheroma, caseous granuloma in TB
[Ca2+] normal
Metastatic
Can be found in normal tissues
[Ca2+] high, due to hyperparathyroidism, vitamin D-related disorders, sarcoidosis, CKD, bone destruction
Hyaline changes
Homogeneous, glassy pink material in H&E staining, usually because of protein
Intracellular: Mallory bodies in liver, Russell bodies in plasma cell
Extracellular: hyalinised arteriosclerosis, amyloid in AD, collagen fibrous tissue in old scars
Fatty infiltration
Associated with myopathy
Tissue infiltrated/ replaced by fat cells
1. Inflammation is a response of vascularized tissues to infections and tissue damage that brings cells and mol-
ecules of host defense from the circulation to the sites where they are needed, to eliminate the offending agents.
2. 發炎是⾎管組織對感染和組織損傷的反應
3. 急性發炎characterized by exudation of fluid and plasma proteins (edema) and
emigration of leukocytes, predominantly neutrophils
8
BAP-L5 Acute inflammation
Overview
To get rid of offending agents, e.g. infection, necrotic tissues, foreign body, hypersensitivity
Outcome:
o Controlled inflammation: transient loss of function, imperfect tissue repair, systemic reaction (e.g.
fever, malaise, sepsis)
o Uncontrolled inflammation: autoimmune
Mechanism neutrophil!

1. Increase in blood flow
One of the earliest manifestations
Induced by mediators e.g. histamine → vasodilation (increased overall blood flow) → erythema (red + heat)
Increased capillary diameter + loss of fluid (point 2) → stasis (decreased local blood flow) → leukocytes
(neutrophils) accumulate along the endothelium
2. Increased vascular permeability (swelling)
Contraction of endothelial cells: histamine and other cytokines (bradykinins, LTs, etc); rapid and short-lived
(min)
Endothelial injury: direct damage in severe injury; rapid, may be long-lived (hours)
→ exudate (c.f. transudate)
3. Leukocyte recruitment margination —> rolling —> adhesion to endothelium —> migration through endothelium —> chemotaxis
Margination: leukocytes accumulated in periphery due to stasis
Rolling: adhesion molecules of low affinity (selectin family) expressed on endothelium activated by cytokines
Adhesion: integrin family (higher affinity)
Transmigration: stimulated by cytokines
Chemotaxis (in tissue)
o Leukocytes migrating towards site of injury along a chemical gradient of
Bacterial products
Cytokines, esp. chemokine family
Complements, esp. C5
LTB4
o Move by remodeling cytoskeleton
o Secrete mediators that recruit and activate more leukocytes
o Neutrophils in first 6-24 hours, monocytes (macrophages) in 24 to 48 hours
4. Neutrophil action (phagocytosis)
Intracellular killing by ROS & NO within phagolysosome (phagosome + lysosome)
Degraded by lysosomal enzymes
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Chemical mediators and regulators of inflammation
Complement system [BAP-L24/CPY]
Activation pathway
o Classical pathway: fixation of C1 to Ag-Ab complex
o Alternative pathway: triggered by bacterial polysaccharides and other cell wall components; involve
a set of plasma proteins including properdin and factors B & D
o Lectin pathway: lectin binds to mannose residues on microbes --> classical pathway in the absence of
Ab
Effects
o Inflammation: C3a and C5a (anaphylatoxins) induces histamine release from mast cells; C5a assists
chemotaxis
o Opsonisation: C3b coats (opsonises) microbe's cell wall --> assist phagocytosis by neutrophils /
macrophages
o Cell lysis: formation of membrane attack complex (MAC) --> create hole --> disrupt osmotic balance
Vasoactive amines
Histamine & serotonin
Preformed, released mainly by mast cells → fast, immediate action
Released (degranulation) when:
o Physical injury
o Immune reactions involving binding of IgE to Fc receptors on mast cells - type I hypersensitivity
o C3a, C5a (anaphylatoxins)
Arachidonic acid metabolites
PGs, LTs
Vasodilation, increase permeability, chemotaxis, bronchospasm, inhibition of inflammation
Cytokines, chemokines (TNF, IL-1, IL-6)
Produced mostly by inflammatory cells, e.g. lymphocytes, macrophages
Local effects: activation of endothelial cells (for migration) and leukocytes
Systemic effects: fever, leukocyte production, insulin resistance, etc

Manifestation of acute inflammations
Suppurative inflammation [BAP-6]
Pus: purulent exudate consisting of neutrophils, necrotic cells and oedema fluid
Abscess: focal collections of pus in a walled cavity
Morphology: neutrophils + necrotic tissues + surrounding dilated vessels & fibroblasts (attempted repair)
Soon completely replaced by connective tissue → scarring
Serous inflammation
Potential spaces filled with fluid due to irritated lining cells
Pleural effusion, pericardial effusion, ascites (peritoneum)
Fibrinous inflammation
As a consequence of more severe injuries → increased permeability
Resolution: exudates removed by macrophages
Organisation: exudates incompletely removed, replaced by an ingrowth of fibroblasts and BV → scarring
 1. 慢性發炎 occur when acute inflammation/initial response fail to clear the stiumulus, which progress to chronic inflammation
10
BAP-L6 Chronic inflammation
Causes of chronic inflammation
Persistent infections: TB, syphilis, certain viral and fungal infection
Immune-mediated inflammatory diseases: hypersensitivity, autoimmune diseases
Prolonged exposure to offending agents: silica (silicosis), cholesterol crystals (atherosclerosis)
Other mild forms of chronic inflammation: AD, atherosclerosis, metabolic syndrome
Morphologic features
Infiltration of mononuclear cells: macrophages, lymphocytes, plasma cells
Tissue destruction: by persistent offending agents / inflammatory cells
Attempts in healing: angiogenesis + fibrosis
Acute vs chronic inflammations
Acute Chronic
Onset Minutes to hours Days to weeks
Inflammatory cells Neutrophils also called polymorphonuclear leukocyte Lymphocytes, plasma cells, macrophages,
多形核⽩⾎球
fibroblasts 淋巴球
Vascular changes Vasodilation, increased permeability Angiogenesis → granulation tissue
Signs Local: classic signs of red, heat, swelling, Local: tissue necrosis, fibrosis, scar
pain Systemic: low-grade fever, weight loss,
Systemic: high fever anaemia
Cells & mediators
Macrophages
Professional phagocytes, dominant in most chronic inflammations
Tissue macrophages (histiocytes, e.g. Kupffer cells; larger, long life span) vs monocytes (t1/2 in blood = 1 day)
Extravasation of monocytes similar to neutrophil emigration, within 24 hours
Pathways of macrophage activation
Sequence of activations not well known
Classically activated macrophage (M1)
o Induced by endotoxins from microbes (TLRs), T-cell
derived signals, e.g. IFN-γ, foreign substance
o Microbicidal (phagocytosis) and inflammation
Alternatively activated macrophage (M2)
o Cytokines other than IFN-γ, e.g. IL-4, IL-13 - may inhibit
M1 activation
o Tissue repair, fibrosis, anti-inflammatory effects
Functions
Phagocytosis: by releasing ROS, proteases (collagenases, elastases)
Initiate tissue repair - scar formation, fibrosis
Secrete inflammatory mediators: cytokines, eicosanoids
Antigen presentation to T cells, respond signals from T cells - feedback loop in cell-mediated immune
response
Fate: die or wander off into lymphatics (after inflammation stops), persist +/- fuse to form giant cells induced
by IFN-γ (chronic inflammation)
Lymphocytes
Dominant in autoimmune and hypersensitivity diseases
If activated, tend to be persistent and severe
T lymphocytes
CD4+ T cells (Th) promotes inflammation by secreting cytokines
Th cells Cytokines - immune cells recruited Diseases
Th1 IFN-gamma - macrophages by classical pathway Bacterial & viral infections,
Th17 IL-17 - neutrophils autoimmune disease
Th2 IL-4, IL-5, IL-13: eosinophils, macrophages by Allergic reaction, helminthic
alternative pathway parasitic infection
 11
Plasma cells
Plasma cells → B cells after contact with Ag at lymphoid organs or site of chronic inflammation → secrete Ab
against specific Ag
Morphology: clock face, off-centre nucleus, basophilic
Other cell types
Neutrophils: dominant cell type in acute inflammation, but can also continue to persist in chronic
inflammation – acute on chronic
Eosinophils
o Parasitic infection, type 1 HSR (IgE mediated)
o Recruited by chemotaxis
o Release major basic protein (MBP) that destroys parasites but also some epithelial cells
o Morphology: bright red granules in cytoplasm (eosinophilic)

Histological appearance
Constant features: lymphocytes + collagen
Necrosis caused by causative agent + inflammation
Formation of granulation tissue and scar [BAP-L7]
Granulomatous inflammation
o A form of chronic inflammation, a cellular attempt to contain an offending agent that is difficult to
eradicate; may in turn cause organ dysfunction (e.g. TB)
o Focal accumulation of epithelioid cells (activated macrophages) + giant cells (cytoplasmic fusion of
macrophages) + rim of lymphocytes +/- central caseous necrosis
o Macroscopic differentiation
Caseating granuloma (TB): central necrosis, e.g. TB, syphilis
Non-caseating granuloma: without central necrosis, e.g. leprosy, Crohn’s disease
o Microscopic differentiation
Foreign body granulomas: contain foreign bodies that preclude phagocytosis due to its size,
does not incite any inflammatory response - foreign body-type giant cell
Immune granulomas: contain insoluble particles that are poorly degradable (e.g. microbial
cell wall), induce a cell-mediated immune response - Langhans type giant cell (nuclei
arranged in periphery in a horseshoe pattern)

Types of chronic inflammation
Recurrent acute: repeated episodes of acute inflammation followed by incomplete healing and repair, e.g.
cholecystitis, pyelonephritis, chronic gastritis associated with H. pylori
Primary chronic: e.g. transplant rejection
Outcomes of chronic inflammation
Abscess: pus in a walled cavity (collagen fibres produced by fibroblasts) which permits bacteria to multiply
but not antibiotics to get access; drainage will not collapse abscess
Chronic regeneration: possible derangement of tissue architecture after repeated episodes of inflammation,
e.g. cirrhosis (may impair blood flow and bile drainage)
Metaplasia: redifferentiation upon chronic epithelial damage, e.g. chronic smokers, chronic gastritis
Fibrosis of serosal surfaces: fibrinous adhesions → granulation tissue → fibrous adhesion (symphysis) in
serosal surfaces (e.g. pleura, pericardium, peritoneum) → inflammation localised, but loss of mobility
Scarring [BAP-L7]
o Collagen produced by increasing fibroblasts
o Complications:
Loss of function
Contractures and obstructions: inelastic and shortens → decreased movement, stenosis
Adhesions: union of 2 surfaces that are normally separate → prevent normal movement
 12
BAP-L7 Healing, repair and regeneration
Regeneration vs repair
Regeneration
Proliferation of cells to replace damaged cells, by undamaged cells and stem cells
Tissue with high proliferative capacity, e.g. GI tract, skin, haemopoietic system
Some parenchymal organs, e.g. liver
o Parenchyma: functional part of an organ; in the context of tumour: neoplastic component
o Stroma/ mesenchyme: structural part of an organ
Repair
Regeneration + scar formation by collagen deposition
For tissues incapable of regeneration, or ECM not intact (heavily damaged)
Functional loss, but provide structural stability for the injured tissues to perform function
Factors affecting healing
Tissue proliferating activity
Definition Example Implication
Labile tissue Cells proliferate throughout Surface epithelium (skin)
life Columnar epithelium (GIT)
Transitional epithelium (urinary tract)
Cuboidal epithelium (exocrine ducts)
Stable tissue Minimal activity normally Parenchymal cells of liver, kidney, Kidney removal causes
Rapid growth upon injury pancreas - limited capacity except liver hypertrophy & hyperplasia
Mesenchymal cells, e.g. fibroblast, SM of contralateral kidney
Endothelial cells Liver: cell cycles initiated
Leukocytes by cytokines, then HGF
Permanent Non-dividing Neurons
tissue Replaced by scar formation Cardiac, skeletal muscles
Stem cells
Characteristics: self-renewal capacity, asymmetric replication
Types: embryonic SC (pluripotent, from inner cell mass), adult SC (found within an organ/ tissue, limited self-
renewal & differentiating potential, e.g. subventricular zone of brain → ?tumourigenesis, base of crypt of GIT)
Stem cell niches: specialised microenvironment where stem cells are found
Growth factors
Polypeptides that drive cell proliferation
Act in autocrine, paracrine or endocrine manner
Main source: macrophages, lymphocytes (as part of inflammatory process), stromal cells
Extracellular matrix
Basement membrane + interstitial matrix
If damaged → repair can only be accomplished by scar formation
Functions:
o Mechanical support for cell anchorage and migration
o Control cell proliferation
o Scaffold for tissue renewal
o Establish tissue microenvironment
Scar formation
In severe & chronic tissue injury, or damage in non-dividing cells → replacement with connective tissues
Steps in scar formation:
o Removal of destroyed tissue by phagocytosis
o Granulation tissue: angiogenesis + migration of fibroblasts
Angiogenesis: VEGF, FGF, MMPs that degrade ECM to permit vessels; from existing vessels
or migrate from bone marrow
o Scar formation: deposition of ECM proteins by fibroblasts: TGF-ß, PDGF, FGF
o Connective tissue remodelling: MMPs
 13
Factors that influence tissue repair
Systemic
o Nutrition, e.g. vit C
o Metabolic status, e.g. diabetes
o Blood supply, e.g. atherosclerosis
o Glucocorticoids: inhibit TGF- production & fibrosis
Local
o Infection
o Mechanical factors, e.g. constant local pressure
o Foreign body, e.g. suture
o Size, location, type of wound, e.g. joint area which requires constant moving
Healing of skin wounds
Epithelial regeneration (epidermis healing) + connective tissue scar formation (dermis healing)
Inflammation (24h) → proliferation (3-7 days) → maturation (weeks)
Primary intention Secondary intention Tertiary intention
Wound Clean, uninfected incision with Larger wound, abscess, ulcer Contaminated wound
good apposition of edges
Action Re-epithelialisation closes the Wound left open Wound left open
wound with thin scar formation ↑ inflammation, granulation tissue, → Treated with repeated
collagen deposition → ↑ scar debridement + abx
formation → surgically closed
Wound contraction by
myofibroblast
Pathological aspect of wound healing
Inadequate scar formation
Wound dehiscence: wound rupture, e.g. abdominal wound in post-abdominal surgery due to increased intra-
abdominal pressure
Ulceration: inadequate vascularisation due to atherosclerosis, DM
Excessive formation of repair components
Hypertrophic scar: accumulation of excessive collagen, but within the boundary of original wound
Keloid: hypertrophic scar beyond boundary of original wound, more common in African Americans
Wound contracture
Exaggerated wound contraction
Common sites: palms, soles, anterior thorax
Deformities of wound and surround tissues, compromise joint movement
Fibrosis in parenchymal organs
Excessive deposition of collagen and other ECM components
Induced by chronic injurious stimuli, e.g. inflammation of liver → cirrhosis
May lead to organ dysfunction and failure: structural + functional derangement
 14
BAP-L13 & 14 Molecular mechanisms of neoplasia
Hallmarks for cancer

Activation of oncogenes
Proto-oncogenes: normal genes involved in functions related to growth and proliferation
Oncogenes: mutated form of proto-oncogenes
Functions Implications
GF (ligands) Overexpression of PDGF-b in astrocytoma
GF receptors EGFR mutation in CA lung
Amplification of HER2 in CA breast
Signal transduction KRAS mutation in CA colon/lung
Transcription factor C-MYC translocation in Burkitt's lymphoma
Cell cycle regulator Amplification of cyclin D1 in HNSCC, CA oesophagus and breast
Activation mechanisms
o Dominantly transforming: mutation of 1 allele can lead to transformation
o GOF mutation, e.g. KRAS
o Translocation, e.g. MYC in Burkitt's lymphoma
o Amplification
Inactivation of tumour suppressor gene (TSG)
TSG: encode proteins that are growth inhibitory and block transformation pathways
Knudson's two-hit hypothesis: both alleles of TSG must be inactivated for tumour development, i.e. "recessive
cancer gene"
o As shown in retinoblastoma: high risk in heterozygous RB mutation in germline vs low risk in
heterozygous RB mutation in a single retinoblast
Gene Function Tumours associated
Rb Regulate cell cycle: inactivate E2F which promotes Retinoblastoma, osteosarcoma, etc
cells to enter S phase, i.e. G1-S checkpoint
p53 Cell cycle arrest at G1 phase Most human CA
Apoptosis in response to DNA damage
TGF- receptor Growth inhibition: TGF-β → SMAD4 CA colon: mutation in TGFBRII and
SMAD4
APC Inhibition of signal transduction Inherited: FAP, CA colon
Somatic: CA colon, stomach, etc
E-cadherin Cell adhesion Inherited: familiar gastric cancer
Somatic: CA stomach
 15

Aberrant apoptosis
BCL2 family inhibits apoptosis, BAX family promotes apoptosis
Relative concentration of BCL2/ BAX determines apoptotic fate, e.g.
o P53 mutations in various CA
o Overexpression of BCL2 in leukaemia
o Overexpression of BCL2 caused by translocation in follicular lymphoma
o BAX mutations in CA colon
Major mechanism of chemo resistance
Defects in DNA repair
DNA repair Function Mechanism Implication
Mismatch repair Replication errors MSH2 recognises Lynch syndrome: germline
(MMR) MLH1-PMS1 excise, mutation causes MSI
resynthesize, ligate
Excision repair Damage from exogenous NER: chain of nt replaced Mutation of XP gene (NER) in
mutant BER: a single nt replaced xeroderma pigmentosum
Nucleotide excision repair
(NER): bulk lesions
Base excision repair (BER):
simple lesions
Double strand X-ray damage BRCA1 & BRCA2 mutations in
breakage (DSB) 80% of familial CA breast
repair
Immortalisation by telomerase activation
Telomeres
o At chromosome ends
o Functions: prevent DNA loss during replication & control replication potential
o Specific sequences TTAGGG, with specific proteins (hTERT)
o Shorten during cell division → arrest/ apoptosis
Telomerase
o Elongate telomeres
o Not expressed in most somatic
cells
o High activity in tumours
Angiogenesis, invasion and metastasis
 16
Carcinogenesis
Involve multiple, stepwise genetic changes: 6-7 independent driver mutations over several decades
Clonal evolution: originated from a single ancestral cell + continuous evolution of subclones → tumour
heterogeneity, e.g. non-antigenic, metastatic, invasive
Two-phase carcinogenesis
Initiation Promotion
Irreversible Reversible
Constant DNA damage Selective growth advantage for initiated
cells → outgrowth
No dose threshold Dose-response relationship
Normal phenotype Altered phenotype
E.g. chemical carcinogens, radiation, virus E.g. phorbol esters, hormones, phenols

Carcinogen
Oncogenic virus
Acute transforming viruses containing viral oncogenes: not found in human CA
Chronic oncogenic viruses
o Insertional mutagenesis: activation of proto-oncogenes/ inactivation of TSG, e.g. HPV-16/18
o Enhance polyclonal expansion of infected cells, e.g. HTLV-1
o Immunosuppression, e.g. HIV (Non-Hodgkin's lymphoma)
Human papilloma virus (HPV)
CA cervix, HNSCC
High-risk HPV (e.g. HPV-16, 18)
o Expression of E6: bind and degrade p53 & BAX; activate telomerase
o Expression of E7: bind to Rb and displace E2F, activate cyclin E & A
o A necessary but insufficient factor for CA cervix → other genetic changes are necessary for
transformation
Low-risk HPV (e.g. HPV-6, 11)
o Its E6/E7 bind much less efficiently and low affinity → genital condyloma (warts)
Epstein-Barr virus (EBV)
Primary EBV infection:
o Early in Asian → asymptomatic
o Late in Western (teenage) → developed immune system → infective mononucleosis (fever)
Persist in majority as a lifelong, asymptomatic infection of a B-lymphocyte pool
Failed immunoregulation → mutation of one clone → Burkitt's lymphoma
 17
Human T-cell leukaemia virus type 1 (HTLV-1)
The only retrovirus that causes human cancer
Endemic in Japan
Genome contains pX region → TAX protein →
o ↑Expression of cytokines, cytokine receptors and co-stimulatory molecules --> ↑CD4+ T cells
o ↓Function of TSG, e.g. p16, p53
Chemical carcinogens
Direct-acting agents: require no metabolic conversion, e.g. chemotherapy
Indirect-acting agents:
o Require metabolic conversion to become carcinogenic, e.g. CYP450 - polymorphic → susceptibility
varies
o Polycyclic hydrocarbons (smoking): CA lung
o Aromatic amines (rubber): CA bladder
o Nitrosamines: GI cancer, NPC
o Aflatoxins (moldy nuts & grains): HCC
Radiation
Non-ionising radiation (UV)
Form thymine dimer (T^T) → point mutations in oncogenes & TSG → overwhelm NER
Cumulative exposure --> SCC, basal cell carcinoma
Intense intermittent exposure --> melanoma
Ionising radiation (X-ray, gamma ray, radioactive substance)
Damage directly and indirectly (form ROS)

Examples of tumour suppressor genes & associated cancers
All mutations are inherited in an autosomal dominant (AD) fashion
Gene Associated cancers
APC Inherited mutation: familial adenomatous polyposis
Somatic mutation: CA colon, stomach
TGF- Inherited mutation: familial stomach cancer
Somatic mutation: CA pancreas, CRC
RB1 Inherited mutation: retinoblastoma, osteosarcoma
Somatic mutation: retinoblastoma, osteosarcoma, CA breast, lung, colon
VHL Inherited mutation: von Hippel-Lindau syndrome (cerebellar haemangioblastoma, retinal
angioma, bilateral RCC, bilateral phaeochromocytoma)
WT1 Inherited mutation: Wilms tumour
Somatic mutation: Wilms tumour
TSC1 & TSC2 Inherited mutation: tuberous sclerosis (hypopigmented skin lesion – ash leaf spots, MR, seizure,
harmatoma, e.g. angiomyolipoma, cardiac rhabdomyoma)
NF1 Inherited mutation: neurofibromatosis type 1 (phaeochromocytoma, Wilms tumour,
neurofibrosarcoma)
Somatic mutation: neuroblastoma
NF2 Inherited mutation: neurofibromatosis type 2 (bilateral acoustic neuroma, meningioma)
Somatic mutation: acoustic neuroma, meningioma
BRCA1/2 Inherited mutation: CA ovary, female breast (BRCA1), male breast (BRCA2)
p53 Inherited mutation: Li-Fraumeni syndrome (CA breast, brain tumour, leukaemia, sarcoma)
Somatic mutation: MC gene producing cancer
PTEN Inherited mutation: Cowden syndrome (multiple harmatoma syndrome, with increased risk of
CA breast, follicular thyroid cancer, etc), type 1 endometrial carcinoma
 18
BAP-L15 Classical tumours
Terminology
Neoplasm/ tumour
Benign Malignant
Epithelial -oma -carcinoma*
Mesenchymal -oma -sarcoma
Hemato-lymphoid -oma
Germ cell Mature (cystic) teratoma of ovary Teratoma: derived from > 1 germ cell
layer; at or close to midline
Precursor cells -blastoma: mostly in children, except
glioblastoma
*Carcinoma in situ is a pre-malignant condition (except urothelial bladder TCC [ACP-L25])
Malignant tumours with -oma:
o Haemato-lymphoid: lymphoma, multiple myeloma
o Germ cell: teratoma, seminoma
o Melanoma
o Mesothelioma
o Glioma
Muscles: rhabdomyo- (skeletal muscle), leiomyo- (smooth muscle)
Reporting a tumour
Diagnosis
Characteristics Benign Malignant
Differentiation Well differentiated Varied: from well-differentiated to anaplasia
Growth rate Usually slow - circumscribed Increased, atypical mitosis - mitotic count, proliferation index
Mitotic figures rare Nuclear atypia: high N/C ratio, hyperchromasia,
pleomorphism, prominent nucleoli
Necrosis (overrun blood supply) - eosinophilic, homogenous
Neo-vascularisation - haemorrhage
Invasion (local) Well demarcated Stromal invasion - desmoplastic reaction (growth of spindle-
May be encapsulated like fibrous tissues)^
Lymphovascular invasion
Perineural invasion
Metastasis Absent Hallmark of malignancy*
(distant) Lymphatic spread: regional LN → distant LN
Haematogenous spread
Transcoelomic spread: through peritoneum, pleura,
pericardium
^Urothelial transitional cell caricoma (TCC) as an exception: malignant even without stromal invasion yet (i.e. carcinoma in situ)
*Basal cell carcinoma (BCC) as an exception: invade but do not metastasize
Staging and grading
o Staging: how far → prognosis; TNM (pathological, clinical)
o Grading: how fast → aggressiveness; higher grade usually means lesser degree of differentiation
Margin status
Potential for target therapy
Standard description of tumour
Squamous cell carcinoma Adenocarcinoma
Architecturally, it is composed of Squamous differentiation Glandular differentiation
proliferation of tumour cells with In a desmoplastic stroma In a desmoplastic stroma
Tumour cells are arranged in Infiltrative nests and sheets with Infiltrative irregular and complex
keratin pearl glands
Cytologically, tumour cells show Malignant cytology with nuclear pleomorphism, hyperchromasia,
enlargement, increased n/c ratio and frequent mitosis
Tumour cells also show Intercellular bridges Mucin secretion
 19
Clinical effects of a tumour
Local effect
Local effect Example
Mass effect (SOL): compression, impingement Brain: midline shift, herniation
Blocking lumen Bowel: IO
Ulceration, bleed Stomach: GIB
Invasion Lung: involve ribs
Rupture/ infarct Liver: rupture HCC
Secondary infection Biliary: sepsis (due to biliary stasis)
Systemic effect
Cachexia
o Progressive weight loss (fat + muscle), anorexia, anaemia, immunocompromised, poor fitness/
recovery for surgery
o Pathogenesis: metabolism, inflammation with cytokines (TNF-α, IL-1)
Paraneoplastic syndromes: non-metastatic systemic effects
o Endocrine paraneoplastic syndrome
Ectopic hormone Typical tumour type
Hypercalcemia of PTHrP HNSCC, Lung
malignancy PGs RCC
SIADH ADH-like hormone Lung
Cushing's syndrome ACTH Lung
o Hypertrophic osteoarthropathy (HOA)
Clubbing, periosteal long bone formation, arthritis
Common in CA lung: platelet failed to degrade in lung → its circulating factors lodged in
fingertip
o Neurological paraneoplastic syndromes
Myasthenic syndrome, peripheral neuropathy, polymyopathy
Cortical cerebellar degeneration
o Vascular phenomenon
o Fever: MC presentation
o Nephrotic syndrome
Dysplasia
Disordered growth and maturation of an
epithelium, potentially reversible
Pre-invasive neoplastic process, without stromal
invasion (not yet invade through basement
membrane), i.e. tumour in-situ (Tis)
Grading: low-(intermediate)-high
CA cervix as a classic example [ACP-L49]
o Basal layer affected first: highly dividing

Tumour-like conditions
Hamartoma 錯構瘤
o Overgrowth of disorganised tissue indigenous to that particular site
o E.g. lung hamartoma, Peutz-Jeghers polyp
Heterotopia: mature tissue in a foreign location
o Choristoma: heterotopia that is clinically significant
 20
BAP-L18 & 19 Haemodynamic disturbances
Thrombosis
Definition: intravascular mass attached to the vessel wall that is composed of varying proportions of
coagulation factors, RBCs, and platelets
Pathogenesis: Virchow's triad [ACP-L29]
Examples Remarks
Endothelial injury Atherosclerosis Common cause of
Vasculitis arterial thrombus
Endocarditis formation
Circulatory stasis LA dilatation due to MS Common cause of
Varicose veins venous thrombus
formation
Hypercoagulability 1o: protein C deficiency
2o: DIC, antiphospholipid
syndrome, malignancy
Pathology
Lines of Zahn: pale platelet & fibrin layers alternating with darker red
cell-rich layers; only present in those that form in flowing blood (i.e.
arterial/venous but not postmortem)
Microscopy
o Arterial thrombus white: platelet-rich, fibrin-poor
o Venous thrombus red: RBC-rich, platelet-poor, fibrin-rich
Fate of the thrombus
Dissolution: newly formed thrombus prone to shrinkage by
activation of fibrinolytic factors; old thrombus more resistant
Organisation: thrombi invaded by fibroblasts and endothelial cells
→ new, smaller conduits →
o Recanalisation: incorporated into the vessel wall
o Digestion: centre of thrombus digested by enzymes from
entrapped macrophage; serve as culture medium if
bacteria present → weaken the wall (mycotic aneurysm)
[ACP-L9]
Propagation: enlarged by obtaining additional platelets and fibrin → ↑risk of occlusion
Embolism: thrombus s is dislodged and transported elsewhere in the vasculature → obstruction
Embolism
Definition: detached mass (solid, liquid, gas) that is carried through blood to a distant site
Origin Clinical presentations/ definitions
Thromboembolism DVT (mostly from LL) Pulmonary embolism: MC from DVT (venous)
MI, endocarditis Systemic embolism: MC from heart; tissue infarct
Fat embolism Fractured long bone (MC) Marrow fat enters ruptured marrow sinusoids → pulmonary
Fatty liver capillaries → embolised to brain, kidneys, etc
SOB, tachycardia, renal failure; delirium and coma common
Pathology: revealed by oil red O stain
Amniotic fluid Amnion Tears in placental membrane +/- uterine vessels →
embolism cardiopulmonary collapse + DIC
SOB, bleeding (∵DIC)
High mortality; survivors present with neurological impairment
Air embolism Decompression sickness Rapid ascent in scuba diving converts soluble N2 to gas bubbles
in vessels & tissues
Bends (severe pain in joints & bones), pulmonary oedema,
bleeding, atelectasis
Paradoxical emboli ASD/VSD Venous emboli passing through ASD/VSD into systemic
circulation
 21

Disseminated intravascular coagulation (DIC) [ACP-L29]
A thrombohaemorrhagic disorder, causing ischemic damage (fibrin thrombi occludes the microcirculation) +
bleeding from GIT, nose and every puncture site
Pathogenesis
Consumption coagulopathy: pathologic generation of thrombin leads to
o Widespread intravascular deposition of fibrin: ↓platelet, schistocytes
o Consumption of platelets and clotting factors: ↑aPTT, PT, TT, ↓fibrinogen
Activation of fibrinolysis: ↑FDP, D-dimer
DIC-associated clinical disorders
Obstetric: amniotic fluid embolism, eclampsia
Infections: G- septicaemia (MC)
Neoplasm: acute promyelocytic leukemia, adenoCA
Massive tissue injury: trauma, burns
Others: snake venom, shock

Oedema
Increased fluid in the interstitial space of ECF compartment
Pathophysiology
Pathophysiology Examples
↑hydrostatic pressure CHF: CVP & water and Na retention ∵CO
Constrictive pericarditis
Venous obstruction
Liver cirrhosis: portal HT
↓oncotic pressure Nephrotic syndrome
Malnutrition
Protein-losing enteropathy
Liver cirrhosis: albumin production
Lymphatic obstruction Inflammatory CA breast: lymphatic blockage by malignant cells
Lymphoedema after radical mastectomy
Capillary permeability Toxins: direct damage of endothelium → leakage
Chemical mediators: retraction of endothelial cells
Types of oedema
Transudate Exudate
Mechanism Δ Starling force (hydrostatic/ oncotic) Δ Permeability
Protein Low High
Fibrinogen Absent Present
Cells Few, mesothelial Inflammatory
Oedema Dependent, pitting oedema: obey law Non-pitting oedema: viscosity ∵
of gravity protein and cells
Congestion & hyperaemia
Hyperaemia Congestion
Increase in blood volume within a tissue
Active process: arteriolar dilation, increased inflow Passive process: impaired outflow, passive vasodilation
Red (erythema) Blue-red (cyanosis)
Morphology
Liver congestion: nutmeg appearance – centrilobular zone
necrosis (red/brown) surrounded by uncongested periportal
zone (tan-coloured)
Pulmonary congestion: engorged alveolar capillaries
 22

Shock
Systemic hypoperfusion due to reduced effective circulating blood volume (ECV)
Type of shock Examples Pathogenic mechanisms
Cardiogenic AMI Pump failure
PE Extrinsic pressure
Cardiac tamponade Obstruction to outflow
Arrhythmia
Hypovolemic Haemorrhage Inadequate blood
Fluid loss volume
Septic Bacteraemia G+: LTA
G-: LPS (endotoxin)
Neurogenic Anaesthesia Loss of vascular tone
Spinal injury
Anaphylactic Allergy IgE-mediated HSR
C', histamine
Presentations
Vasodilatation: hypotension, weak pulse, cold clammy skin
Low CO: tachycardia, oliguria, mental changes
ARDS: hyperventilation, pallor/ cyanosis
DIC: haemorrhage
Stages
Non-progressive: perfusion maintained by neurohumoral compensatory mechanisms
Progressive: widespread tissue hypoxia, vital organs affected
Irreversible: widespread cell injury that death is inevitable
Consequences
Brain, heart: irreversible damage
Kidneys: acute tubular necrosis
Lungs: diffuse alveolar damage (shock lung)
Adrenals: lipid depletion due to increased utilisation for steroid
GIT: mucosal ulcerations, haemorrhages
Liver: fatty changes, perivenular necrosis
Prognosis
Best for hypovolemic and neurogenic types
Worst for cardiogenic (no compensatory mechanisms) and septic (hard to gauge cytokines released and DIC)

RAAS and ADH system do not cause oedema, but they maintain pre-existing oedema.
 23
BAP-L33 Amyloidosis
Definition
Fibrillar protein that is deposited in extracellular interstitial tissue, resulting in organ dysfunction by pressure
atrophy of adjacent cells (but not evoking inflammation)
More than 25 distinct proteins
Morphology:
o EM: linear, non-branching, 8-10nm diameter, varying length
o X-ray crystallography: -pleated sheet arrangement
Tissue diagnosis
Tissues commonly biopsied: rectum, gingiva, omental fat pad
H&E: amorphous eosinophilic hyaline in between cells
Congo red: orange red pink or red colour to tissue deposit
Polarising microscopy: apple green birefringence
Immunohistochemistry: antibodies to further differentiate between AA, AL, Aβ
EM: differentiate between amyloidosis (non-branching, constant diameter) and other fibrillary diseases (e.g.
fibrillary glomerulonephritis)

Biochemical forms and pathogenesis
Origin Pathogenesis Remarks
AL (amyloid Light chains of Ig (γ > κ) Plasma cell dyscrasia Amyloidosis or non-
light protein) → ↑Ig or Bence Jones protein amyloidosis condition (renal
→ defective proteolysis or protein cast nephropathy, light chain
misfolding deposition disease (LCDD) →
renal failure)

AA (amyloid- SAA (serum amyloid-associated Chronic inflammation → ↑IL-1/6 MC worldwide
associated fibril) protein), an acute phase reactant → sustained ↑SAA from liver →
synthesized and released by liver in defective proteolysis or protein
inflammation misfolding

A APP (amyloid precursor protein) Found in AD
Other possible proteins:
ATTR (transthyretin): carrier protein for T4 and vit. A; seen in familial amyloid polyneuropathy and senile
amyloidosis
Aβ2-m (β2-microglobulin): light chain component of MHC; seen in long-term haemodialysis
Procalcitonin: seen in MTC
 24
Common types of amyloidosis
Type of amyloidosis Disease associations Fibril protein
Systemic amyloidosis
Plasma cell dyscrasia (1o) Monoclonal gammopathy AL
Multiple myeloma (10%)
Chronic inflammation (2o) RA, AS, IBD AA
TB, osteomyelitis
Neoplasm: RCC
Haemodialysis-associated CKD → not filtered by dialysis membrane → found in carpal Aβ2-m
amyloidosis ligament of wrist → carpal tunnel syndrome
Hereditary amyloidosis
Familial amyloid ATTR
polyneuropathy
Familial Mediterranean fever AA
Localised amyloidosis
Senile amyloidosis Heart (restrictive cardiomyopathy, conduction defects) ATTR
Alzheimer's disease Aβ
Islets of Langerhans T2DM Amylin
Medullary carcinoma of Excessive calcitonin production from thyroid C cells Procalcitonin
thyroid (MTC) Sporadic (80%) or familial (20%)
Manifestations
General Fatigue, SOB, oedema, paraesthesia, weight loss
Kidney MC involved and serious
Proteinuria with nephrotic syndrome
GI Macroglossia → speech and swallowing
Diarrhoea → malabsorption
CVS Restrictive cardiomyopathy: infiltration of amyloid between myocytes [ACP-L9]
Conduction defects
Liver Hepatomegaly
Amyloid first appears in space of Disse
Pressure atrophy of hepatocytes, but functional impairment uncommon
Spleen Splenomegaly
If white pulp involved: sago spleen appearance
If red pulp involved: waxy appearance (lardaceous spleen)
Musculoskeletal Commonly found in haemodialysis-associated amyloidosis
Bilateral carpal tunnel syndrome, bone cysts, etc
Haemostasis Vascular fragility: bleeding, spontaneous or following trivial trauma
Factor X deficiency: factor X binds to amyloid fibrils
Pinch purpura: amyloid infiltration of small vessels
CNS Dementia (AD)
Peripheral neuropathy (paraesthesia, muscle weakness)
Autonomic neuropathy
Prognosis
Poorer in systemic amyloidosis than localised disease
OS 1-3 years due to late Dx; earlier detection now made possible by immunoelectrophoresis
Causes of death: arrhythmia or renal failure
Treatment
Tx of dyscrasia: for amyloidosis due to plasma cell dyscrasias
Anti-TNF: for amyloidosis involving kidneys
Haemodialysis, renal transplant: for those with renal failure
Autologous bone marrow transplant: for those with preserved organ function
 25

GI AND HBP PATHOLOGY
BAP-L34 Head and neck pathology
Developmental abnormalities
Branchial cleft cyst/ sinus/ fistula
Failure of obliteration of 2nd branchial cleft
Mostly in anterolateral neck
Distinguished from cystic LN metastasis
Thyroglossal duct cyst
Failure of atrophy of thyroglossal duct
Midline lesion
Diseases of oral cavity
Oral inflammatory lesions
Aphthous ulcers: could be a/w coeliac disease, IBD, Behcet disease
Viral: HSV-1 (latent, reactivating); cold sores [MIC-L36]
Fungal: Candida albicans - commensal, but infectious (candidiasis) in infants/ immunocompromised
Bacterial: TB
Oral pre-cancerous lesion
Erythroplakia and leukoplakia
Red/ white patches, due to chronic irritation (e.g. dentures), candida, smoking
Leukoplakia: considered precancerous unless proven otherwise by histology → dysplasia of squamous
epithelium, may proceed to SCC
Erythroplakia: much greater risk of malignancy
Head and neck squamous cell carcinoma (HNSCC)
Aetiology: smoking, alcohol, betel nuts, HPV (high risk types: 16, 18)
Sites: lower lip (MC) > floor of mouth > lateral border of tongue
Sx: ulcer, dysphagia, odynophagia, throat discomfort, neck mass (metastatic LN)
Extent of disease:
o Field cancerisation: 100x more likely to develop another primary tumour in the region (synchronous
or metachronous) ∵ chronic mucosal exposure to carcinogens (alcohol, tobacco) & continuous
mucosa
o Metastasis: cervical LN → distant organs
HPV-associated HNSCC
Increasing trend, but better prognosis
Pathogenesis: HPV16/18 → E6/7 oncoproteins → Rb & p53 → compensatory p16
Implications:
o P16 immunostain can be used as a surrogate marker
o HPV vaccine
Pathology: poorly differentiated
 26
Diseases of nasal cavity, pharynx, larynx
Non-neoplastic conditions
Allergic rhinitis
Type 1 hypersensitivity
Repeated attacks lead to nasal polyp formation
Vocal cord nodule/ polyp
Found in singers or those who abuse voices
Nasopharyngeal carcinoma (NPC)
WHO classification:
o Keratinising squamous (25%)
o Non-keratinising squamous (75%): strongly associated with EBV
▪ Differentiated (15%)
▪ Undifferentiated (60%)
o Basaloid squamous
Pathology (HK):
o Syncytial sheets of undifferentiated, non-keratinising cells
o In-situ hybridisation for EBV-encoded RNA (EBER-ISH) +ve
Investigations:
o Bloods: CBC, EBV DNA
o Imaging: CT, MRI
o Endoscopy: nasendoscopy +/- biopsy
Other risk factors: genetics (Southern Chinese), environmental (nitrosamines, smoking, chemical fumes)
Diseases of salivary glands
Non-neoplastic conditions
Sjogren syndrome
Autoimmune destruction of salivary, lacrimal & conjunctival glands by infiltration of lymphocytes & plasma
cells
Dry mouth: dental caries, candidiasis, dysphagia, dysphasia
Dry eyes
Sialadenitis
Acute inflammation of salivary glands
Mostly due to mumps virus
Calculi
Submandibular > parotid: more serous
Blockage, swelling, gland atrophy
Neoplasms
Involve both major and minor salivary glands (in oral cavity, nasal cavity, trachea, etc)
MC in parotid
Size inversely proportional to likelihood of being malignant, i.e. sublingual tumours are most often malignant

Diseases of jaw bone and teeth
Odontogenic keratocyst: locally aggressive, high recurrence rate
Ameloblastoma: from odontogenic epithelium, locally invasive but slow-growing
 27
BAP-L35 Oesophageal pathology
GI histology

Obstructive diseases
Mechanical obstruction
Failure of FG division in 4th week of gestation
Oesophageal atresia: congenital absence of lumen; MC occur near tracheal bifurcation
Tracheoesophageal (TE) fistula: MC type III (connected to lower oesophagus)
Presentation: aspiration pneumonia, regurgitation, severe fluid/ electrolyte imbalance
Functional obstruction (Achalasia)
Oesophageal motor disorder characterised by triads of
o Aperistalsis
o Increased resting tone of LES
o Incomplete LES relaxation during swallowing
Aetiology:
o Primary: idiopathic (degeneration of inhibitory neurons)
o Secondary: Chagas disease (Trypanosoma cruzi causes destruction of myenteric plexus)
Presentations: progressive dysphagia (99%), nocturnal regurgitation, aspiration
Complications: candida oesophagitis, lower oesophageal diverticulum, aspiration pneumonia, oesophageal
SCC (∵? Chronic stasis of food and bacterial overgrowth)

Oesophageal varices
Dilated tortuous submucosal veins in lower oesophagus due to portal hypertension
Pathogenesis: portal hypertension induces backflow of portal blood to caval system → enlargement of
submucosal venous plexus in distal oesophagus → massive hematemesis
Fatal: 40% mortality in 1st episode, 50% 1-year rebleeding rate with 40% mortality

Oesophagitis
Mallory-Weiss syndrome
Longitudinal mucosal (superficial) tears of distal oesophagus +/- proximal stomach
5-10% of upper GIB, self-limiting
Aetiology: severe retching associated with excessive alcohol intake
Pathogenesis: failed reflex relaxation of musculature in prolonged vomiting → reflux of gastric contents
Boerhaave syndrome: severe form of MWS; rupture of distal oesophagus → mediastinitis
 28
Reflux oesophagitis
MC type of oesophagitis: reflux of gastric content +/- duodenal bile into
lower oesophagus
Presentation: heartburn (mimic angina), dysphagia, regurgitation
Complication: minor UGIB, stricture, Barrett oesophagus
Histology:
o No correlation with symptoms severity, but to assess for Barrett
oesophagus
o Basal zone hyperplasia (> 15% of full-thickness)
o Papillary elongation of lamina propria (>2/3 full thickness)
o Leukocytic exocytosis (neutrophil + eosinophil +/- lymphocyte)

Barrett oesophagus
Replacement of distal squamous epithelium with metaplastic columnar epithelium, identified in
o Endoscopic exam: salmon-coloured mucosa at 1cm above OGJ
o Histological exam: presence of goblet cells (intestinal metaplasia) + columnar cells
Risk factor for oesophageal glandular dysplasia and adenocarcinoma (30 - 100x), but majority do not develop

Oesophageal carcinoma
Male predominance: 4:1
Age 60-70
Squamous cell carcinoma Adenocarcinoma
% of CA oesophagus 90% (c.f. Western countries) 10%
Risk factors Lifestyle: smoking, alcohol, hot drinks, nutrition Barrett oesophagus
(e.g. vit A, Zn), nitrosamines
Oesophageal disease: achalasia, Plummer-Vinson
syndrome
Tylosis
Morphology Mostly in mid third Mostly in distal third
Presentations Dysphagia (solid → liquid), odynophagia
Rapid weight loss
Dry cough, haemoptysis: tracheal invasion
Hoarseness: RLN invasion
Hypercalcaemia: PTHrP ~ lung SCLC
PVS: triad of oesophageal web, intermittent dysphagia, IDA; unknown pathophysiology
Tylosis: AD genetic disorder characterised by hyperkeratosis of palms & soles + oral leucoplakia
 29
BAP-L39 Gastric pathology
Anatomy and physiology of stomach

Inflammations
Acute gastritis
Definitions: transient mucosal inflammation, which may lead to
o Erosion: breach in the epithelium of the mucosa
o Ulcer: breach in the mucosa, with extension into submucosa or deeper
Aetiology:
o Drugs: NSAID (MC), aspirin, chemo
o Metabolic: alcohol, chemical, uraemia
o Traumatic: NG tube
o Severe stress, e.g. severe burns (Curling ulcer)
o CNS injury (Cushing ulcer)
Clinical presentations:
o Asymptomatic
o Epigastric pain, n/v
o Bleeding: hematemesis, melena, massive blood loss
o Acute gastric ulcer:
▪ Curling ulcer: in proximal duodenum, a/w severe burns, trauma
▪ Cushing ulcer: in stomach, duodenum, oesophagus, a/w intracranial disease (direct
stimulation of vagal nu.); risk of perforation
Chronic gastritis
H-pylori-associated Autoimmune
% of chronic gastritis >80% 10%
Associated diseases Gastric ulcer Pernicious anaemia
Duodenal ulcer (~ 100%)
Predominant location Antrum ( antral biopsy) Body
Pathogenesis Features of HP virulence: Antibodies to parietal cells → loss of H/K
Flagella: motility ATPase (achlorhydria ∴ gastrin)
Urease: generate ammonia to Antibodies to intrinsic factor → B12
neutralise gastric acid ∴pernicious anaemia
Adhesins: enhance adherence to
foveolar cells (mucous cells)
Toxins (CagA): carcinogenesis
Overwhelm mucosal defences → pangastritis
Complications Gastric adenoCA, lymphoma Gastric adenoCA
Histology HP concentrated in mucous layer Endocrine G cell hyperplasia
Chronic +/- active inflammation: Chronic inflammation: lymphocytes
lymphocytes +/- neutrophils Diffuse glandular atrophy
Glandular atrophy Intestinal metaplasia
Intestinal metaplasia
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Peptic ulcer disease
Risk factors: most commonly HP infection or NSAID use
Pathogenesis: imbalances of mucosal defences and damaging forces → chronic gastritis → PUD
Locations: any portion of GIT
o HP infection: D1 of duodenum (MC), antrum
o GERD: lower oesophagus
o Gastric heterotopia, e.g. Meckel diverticulum
o Zollinger-Ellison syndrome (gastrin tumour): multiple ulcers
Gross morphology
o Mostly solitary, sharply punched-out, slightly elevated around the edges (fibrosis)
o Base clear and smooth: peptic digestion; bleeding possible
Histology (of 4 layers) NIGS
o Necrotic debris
o Acute inflammation
o Granulation tissue
o Fibrosis
Gastric ulcer Duodenal ulcer
% of ulcer cases 25% 75%
Location Lesser curvature D1 of duodenum
Anterior portion, then posterior portion
Risk of malignancy Small risk – need for biopsy Never – no need for biopsy
Clinical presentations Epigastric pain exacerbated by food Epigastric pain relieved by food
Complications Bleeding (left gastric artery) Bleeding (GDA)
Perforation Perforation
Gastric outlet obstruction (GOO), pancreatitis:
posterior ulcer

Gastric neoplasms
Gastric polyps
Non-neoplastic (> 90%)
Hyperplastic/ inflammatory polyps: in chronic inflammation [BAP-39]
Fundic gland polyps: acid → gastrin → glandular hyperplasia
Neoplastic
Gastric adenoma: risk of adenoCA related to size

Malignant neoplasms
Carcinoma: 85-90%
Lymphoma: 5-10%
Mesenchymal tumour (GI stromal tumour): 2%
Carcinoid tumour: 0.3% [BAP-39]
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Gastric adenocarcinoma
Epidemiology: incidence, but higher in Asia; routine endoscopic screening in Japan
Locations: lesser curvature and antrum (MC) > cardia
Risk factors
Environment: smoking, smoked food (Japan), diet (nitrosamines), pernicious anaemia, gastric adenoma
Host: Helicobacter pylori (HP), EBV
Genetics: APC, Lynch syndrome, HDGC, blood group A
Gross classification (Borrmann)
Type 1: polypoid
Type 2: fungating with sharp raised margins
Type 3: ulcerated with poorly defined margins
Type 4 (linitis plastica): diffuse infiltration due to desmoplastic reaction that stiffens the gastric wall
Microscopic classification (Lauren)
Association Histological features HER2 amplification Prognosis
Intestinal type Most environmental risk factors, Cohesive, gland formation, 10-15% Better
(MC) but no family history mucin
Diffuse type Hereditary diffuse gastric Discohesive mucinous cells < 1% Worse
cancer syndrome (HDGC): E- → Signet ring cell
cadherin mutation Linitis plastica
Not associated with most risk
factors (e.g. HP)
Mixed type With both intestinal and diffuse type
Clinical findings
Cachexia, weight loss (60%)
Epigastric pain (50%)
Vomiting +/- melena
Metastasis: left supraclavicular node (Virchow), umbilicus (Sister Mary Joseph nodule), organs (e.g. ovaries –
Krukenburg tumour)
Prognosis
Depend on TNM staging
Early (good survival): limited to mucosa/submucosa
Advanced (poor survival): infiltrated into muscularis propria

Gastric lymphoma
MC extra-nodal lymphoma [ACP-L17]
Mostly non-Hodgkin B-cell lymphoma, associated with HP/ EBV
o HP eradication therapy treats 70% of case
Homing: tend to home back to stomach
Classification
o Low grade B-cell lymphoma: MALToma, related to HP
o High grade B-cell lymphoma: transformed to diffuse large B-cell lymphoma (DLBCL)

GI stromal tumour (GIST)
Site: stomach > SB > LB
Pathogenesis
o Originate from interstitial cells of Cajal (ICC) in muscularis propria
o GOF mutation of c-KIT or related PDGFRA (95%)
Immunohistochemistry
c-KIT TKI (Imatinib) for the unresectable/ metastatic tumour
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BAP-L38 Non-neoplastic diseases of small and large bowels
Vascular diseases
Ischemic bowel disease
Pathogenesis
Hypoxic injury phase: little damage
Reperfusion injury phase:
o ↑O2 supply → ↑ROS
o ↑influx of leukocytes and complements → ↑inflammation
Watershed zones prone to damage: end of arterial supplies
o Splenic flexure (Griffith’s point): SMA & IMA
o Sigmoid colon (Sudeck's point): IMA and hypogastric artery
Types of infarction
Layer involved Pathophysiology Manifestations
Mucosal Mucosal layer Systemic hypoperfusion (shock) Abdominal pain, melena
Mural Mucosal + submucosal Localised anatomic defects Progress to transmural if not restored
Transmural All layers Acute occlusion of a major As above
mesenteric artery Perforation, sepsis, shock
High mortality > 50%
Aetiology
Examples
Luminal Embolism (MC): AF as MC risk factor; SMA most vulnerable ∵ greatest velocity of blood flow +
most acute angle off the aorta
Thrombosis: arterial, venous
Mural Atherosclerosis
Vasoconstriction: 2o to shock or vasoconstrictors
Extramural Anatomical defects: volvulus, hernia

Haemorrhoid
Variceal dilations of anal/ perianal venous plexuses
Risk factors: constipation (elevated venous pressure), pregnancy, portal HT (rare)
Sx: rectal bleed, pruritus, prolapse mass, pain (thrombosed haemorrhoids)
Classification:
External Internal
Below dentate line Above dentate line, further divided into
Grade 1: no prolapse
Grade 2: prolapse that can be reduced spontaneously
Grade 3: prolapse that can be reduced manually
Grade 4: prolapse that cannot be reduced
Squamous epithelium Columnar epithelium
Pain (if thrombosed) No pain

Angiodysplasia (vascular ectasia)
Definition: AVM characterised by tortuous dilatations of submucosal and mucosal veins
Pathogenesis
o Degenerative: incidence increases with age
o Mechanical: peristaltic contraction → intermittent obstruction and dilatation of submucosal veins,
venules, capillaries → loss of precapillary sphincter function → AVM
MC site: caecum & ascending colon (80%) > jejunum & ileum (15%)
Associated with ESRF
Common cause of recurrent LGIB (20%)
o Mostly self-limiting
o Massive bleed (15%)
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Inflammatory diseases
Infective enterocolitis
Presentations: diarrhoea, sometimes ulceration and inflammation in intestine
Caused by bacteria (Vibrio, C. difficile), virus (rotavirus), parasites
Intestinal tuberculosis
Necrotising granuloma: necrotic centre + epithelioid histiocytes + Langhans giant cell [BAP-L6]
ZN stain +ve
Pseudomembranous colitis (PMC)
Formation of pseudomembrane (layer of inflammatory cells + debris overlying sites of mucosal injury)
Pathogenesis: toxins of Clostridium difficile → Dx test [MIC-L32]
Treatment: antibiotics, faecal microbiota transplantation (FMT)
Inflammatory bowel disease (IBD)
Increasing incidence in HK
Pathogenesis
o Genetics: NOD2 (not in HK!)
o Mucosal immune response: Th1/2/17 cells
o Epithelial defects: defective tight junctions
o Gut microbiota: metronidazole helpful in maintaining remission of CD
Crohn's disease Ulcerative colitis
Incidence 1/100000 (c.f. 5/100000 in Western) 2/100000 (c.f. 10/100000 in Western)
Presentation Abdominal pain Abdominal pain
Diarrhoea +/- blood & mucus (only with colon/ Diarrhoea with blood & mucus
anal involvement)
Risk factors Smoking Smoking/nicotine as a protective factor
Sites Whole GIT, but MC in terminal ileum & caecum Rectum +/- colon
Skip lesions Continuous lesion
Gross Transmural inflammation - thick wall Mucosal/submucosal inflammation - thin wall