Pathology - Inflammation & Tissue Repair

Question 1

What are the main characteristics of acute inflammation

Answer 1

1) changes in vascular flow = transient vasoconstriction followed by vasodilation
2) increased vascular permeability
3) leukocytes recruitment = margination, transmigration, migration (neutrophils 6-24 hours, monocytes 24-48 hours)
4) phagocytosis
5) termination of acute inflammatory response

Question 2

Describe the vascular changes in acute inflammation

Answer 2

• initial transient contraction of arteries lasting for a few seconds (serotonin)
• vasodilation mediated by histamine, nitric oxide and prostaglandin leading to increased blood flow
• increased vascular permeability mostly induced by contraction of venule endothelium to form intracellular gaps
• stasis due to increased viscosity

Question 3

What are the mechanisms responsible for increased vascular permeability in inflammation

Answer 3

• contraction of venule endothelium to form intracellular gaps by histamine, serotonin, bradykinin and substance p
• direct injury to endothelium
• leukocyte mediated leakage
• increased transcytosis induced by VEGF

Question 4

How are leukocytes delivered to the site of injury

Answer 4

-multistep process mediated and controlled by adhesion molecules and chemokines

1) margination = when leukocytes adopt a peripheral position along the epithelium (rolling, activation, adhesion)
2) transmigration = movement across the endothelium
3) migration = movement into interstitial tissues towards chemotactic stimuli

Question 5

What is chemotaxis of leukocytes and describe the mediators involved

Answer 5

-chemotaxis: movement of white cells along a chemical gradient
-mediators:
exogenous = bacterial products
endogenous = cytokines (IL-8), complement (C5a), arachidonic acid metabolites (LTB4)

Question 6

What stimuli cause the production of inflammatory mediators

Answer 6

substances released from necrotic cells, microbial products, cell injury, mechanical irritation

Question 7

What are some chemical mediators of acute inflammation and their actions

Answer 7

-histamine: vasodilation, increased vascular permeability, chemotactic, pain
-serotonin: vasoconstriction, increased vascular permeability, platelet aggregation
-prostaglandin:
PGD2 = vasodilation and increased vascular permeability
PGE2 = pain and fever
PGI2 = vasodilation and inhibits platelet aggregation
-leukotrienes: recruit leukocytes (chemotaxis, adhesion, activation)
-cytokines: induce endothelial adhesion molecules, acute phase response
-nitric oxide:
iNOS = cytotoxic metabolite to kill bacteria
eNOS = vasodilation and smooth muscle relaxation
-PAF: degranulation, vasodilation, increased vascular permeability, chemotaxis, adhesion
-kinins: increase vascular permeability, vasodilation, smooth muscle contraction, pain
-complement: leukocyte chemotaxis and activation

Question 8

What mediators of inflammation are derived from cells

Answer 8

• preformed: histamine, serotonin

- newly synthesised: arachidonic acid metabolites, ROS, PAF, NO, cytokines

Question 9

What cells release histamine

Answer 9

mast cells
basophils
platelets

Question 10

What chemical mediators are responsible for pain, fever and tissue damage

Answer 10

IL1, TNF, prostaglandins (PGE2), bradykinin, oxygen metabolites, lysosomal enzymes

Question 11

What is the complement system and how does activation occur

Answer 11

-plasma protein system involved in immunity against microbes
-20 proteins in plasma in inactive form, activation by proteolysis, activated protein fragments serve as proteases
-3 pathways: all result in cleavage and activation of C3
classical = triggered by antigen-antibody reaction
alternate = triggered by bacterial endotoxin
lectin = triggered by microbe carbohydrates interacting with mannose-binding lectin

Question 12

How do activated complement products mediate acute inflammation

Answer 12

• C3a, C5a mediate histamine release from mast cells, causing increased vascular permeability and vasodilation
• C5a enhances leukocyte adhesion, chemotaxis and activation
• C3b acts as an opsonin on microbe to lead to phagocytosis
• C5b forms the MAC causing cell lysis

Question 13

Why do neutrophils predominate in the first 6-24 hours

Answer 13

more numerous in the blood
respond more rapidly to chemokines
attach more firmly to adhesion molecules

Question 14

What is the role of leukocytes in acute inflammation

Answer 14

recognition/attachment of opsonins
kill microbes by phagocytosis
amplify inflammation by releasing products

Question 15

What are the different types of acute inflammation

Answer 15

serous = transudates with low protein content (burns, effusions)

fibrinous = exudates with large amounts of fibrinogen (inflammation in body cavities)

purulent = exudates with neutrophils, necrotic cells and edema (appendicitis)

ulcer = localised erosions of epithelial surfaces

Question 16

What are the outcomes of acute inflammation

Answer 16

complete resolution
fibrosis (healing by connective tissue replacement)
progression to chronic inflammation

Question 17

What are the characteristics of chronic inflammation

Answer 17

• inflammation for a prolonged period, characterised by macrophages, lymphocytes and plasma cells
• tissue destruction is not a primary component and is initiated by inflammatory cells
• attempts at healing by connective tissue replacement by angiogenesis and fibrosis

Question 18

What type of cells are present in chronic inflammation

Answer 18

macrophages (mainly), lymphocytes, eosinophils, mast cells

Question 19

What processes mediate the persistent accumulation of macrophages in chronic inflammation

Answer 19

• continued recruitment of monocytes due to continued expression of chemotactic factors
• local mobilisation and proliferation of macrophages

Question 20

What products are released by activated macrophages in chronic inflammation

Answer 20

• products associated with injury: proteases, chemotactic factors, aa metabolites, nitric oxide, ROS, complement
• products associated with fibrosis: growth factors, angiogenesis factors, collagenases

Question 21

What clinical conditions cause chronic inflammation

Answer 21

• persistent infection by intracellular microbes = tuberculosis, syphilis, empyema, abscess
• hypersensitivity diseases = autoimmune (RA, MS, IBD, SLE), allergic
• prolonged exposure to toxic substances = exogenous (foreign body, trauma, silica), endogenous (lipids)
• other diseases not considered as inflammatory = metabolic syndrome

Question 22

What is the arthus reaction

Answer 22

localised T3HR
usually antigen injected under the skin (vaccine)
excess of antibody
large immune complexes

Question 23

What is angiogenesis, what are the steps and give examples

Answer 23

-the formation of new bloods vessels, occurs by 2 methods:
branching and extension of existing vessels
recruitment of endothelial progenitor cells

steps:

1) vasodilation, increased permeability
2) degradation of parent vessel basement membrane allows for formation of capillary sprout and cell migration
3) mobilisation of endothelial precursor cells (EPC) from the BM and from pre-existing vessels
4) migration of endothelial precursor cells to area of injury by angiogenic stimuli
5) maturation and differentiation of endothelial precursor cells with remodelling into capillary tubules
6) recruitment of periendothelial cells for support structure formation

factors involved: VEGF, PDGF, TGFB
examples: wound healing, chronic inflammation, tumours

Question 24

Describe the pathogenesis of fibrosis and what cells are activated

Answer 24

-the excessive deposition of collagen and other extracellular matrix components in tissue in chronic disease

steps:

1) chronic inflammation leads to a persistent stimulus that triggers release of growth factors (PDGF, TGF, FGF)
2) growth factors stimulate the proliferation of fibroblasts

cells: macrophages, mast cells, eosinophils
examples: cirrhosis, chronic pancreatitis, pulmonary fibrosis, glomerulonephritis

Question 25

What are the local triggers of fibroblast migration and proliferation and what are the sources of triggers

Answer 25

triggers: growth factors (TGF-beta, PDGF, EGF, FGF) and cytokines (IL-1, TNF)
sources: platelets, macrophages and endothelium

Question 26

What are the stages of scar formation

Answer 26

-occurs by replacement of injured cells with connective tissue and forms a scar

1) angiogenesis = pre-existing vessels send out capillary buds/sprouts
2) formation of granulation tissue = fibroblast migration and proliferation and extracellular matrix deposition
3) tissue remodelling to produce a stable fibrous scar

Question 27

Stages of wound healing (inflammation, proliferation and maturation)

Answer 27

1) wound activates coagulation pathways
2) neutrophils arrive at incision margin and release enzymes to clear debris (24 hours)
3) epithelial cells from margins proliferate across the dermis
4) neutrophils are replaced by macrophages and granulation tissue invades the incisional space (day 3)
5) neurovascularization occurs
6) fibroblasts produce type III collagen (day 5)
7) type III collagen is replaced by type I collagen (week 2)
8) wound contraction occurs by myofibroblasts in healing by secondary intention
9) connective tissue remodelling with recovery of tensile strength and scar well formed (week 4)

Question 28

What is wound contraction

Answer 28

• process that occurs in healing by secondary intention with large and deep wounds, occurs by myofibroblasts
• helps to close the wound by decreasing the gap between edges, can contract wound to 5-10% of original size

Question 29

What influences scar formation (describe systemic and local factors)

Answer 29

• systemic: nutrition (protein/vitamin c deficiency), metabolic (diabetes), poor circulation, hormones (steroids inhibit)
• local: infection, mobility, foreign body, size of wound, location of wound, skin type

Question 30

How do wounds recover tensile strength and what is the time frame

Answer 30

-increased production of type I collagen and structural modification of collagen with cross linking
time frame: sutured wounds 70%, one week post suture removal 10%, by 3 months 70-80%

Question 31

What are the effects of PDGF on wound healing

Answer 31

monocyte chemotaxis
fibroblast migration/proliferation
collagen synthesis
collagenase secretion