Theme 2 - Genetic and environmental cause of disease: Part 3

Question 1

What is a myocyte?

Answer 1

muscle cell of heart

Question 2

If there are pale areas on the heart, what does this mean?

Answer 2

pale areas are where there is irreversible cell injury and cell death

Question 3

What are 5 cellular adaptions to cell injury?

Answer 3

• hypertrophy- getting larger
• atrophy - shrinking
• necrosis - severe cell swelling and rupture
• apoptosis - internally controlled cell death
• oncosis - pre lethal changes preceding cell death

Question 4

What are the causes of cell injury?

Answer 4

hypoxia
temperature, trauma, radiation
chemical agents e.g drugs
immunologic reactions
infectious agents
genetic derangements
nutritional imbalances

Question 5

What are the 3 types of cell injury?

Answer 5

1. reversible cell injury
2. irreversible cell injury
3. ischaemic / reperfusion injury

Question 6

What is reversible cell injury?

Answer 6

• decrease generation of ATP
• loss of cell membrane integrity
• defects in protein synthesis, and DNA damage
• increased water in cell –> swelling

Question 7

What is irreversible cell injury?

Answer 7

• severe mitochondrial changes
• extensive damage to plasma membranes
• swelling of lysosomes
• triggers apoptosis and enzymatic degradation of cell

Question 8

What is ischaemic / reperfusion injury?

Answer 8

new damage on reperfusion mediated by oxygen free radicals

Question 9

what are the differences between apoptosis and necrosis?

Answer 9

Apoptosis:

• programmed cell suicide
• cellular shrinking
• individual cell deletion
• no inflammatory response
• membrane integrity maintained

Necrosis:

• uncontrolled cell death
• cellular swelling
• many cells affected
• significant inflammation
• loss of membrane integrity
• cell lysis occurs

Question 10

What is autolysis?

Answer 10

spontaneous lysis of cells and tissues by the release of lysosomal enzymes

Question 11

What is autophagy?

Answer 11

body’s way of cleaning out damaged cells to regenerate newer, healthier cells

Question 12

What are the 6 types of necrosis?

Answer 12

1. coagulative
2. liquefactive
3. gangrenous
4. caseous
5. fat
6. fibrinoid

Question 13

What is coagulative necrosis?

Answer 13

• commonest form (occurs mostly in myocardium)
• caused by ischaemia or infarction e.g MI
• cell architecture preserved

Question 14

What is liquefactive necrosis?

Answer 14

• seen in brain
• can be caused by bacterial/ fungal infection or CNS hypoxia
• due to lack of supporting stroma, neural tissue may totally liquify

Question 15

What is gangrenous necrosis?

Answer 15

• putrefaction (decay/rotting) of the tissue
• cause is mostly infectious
• appears black
• 3 types: wet gangrene, dry gangrene, gas gangrene

Question 16

What is caseous necrosis?

Answer 16

• caused by tuberculosis

- tissue has cheese-like appearance

Question 17

What is fat necrosis?

Answer 17

-causes: enzymes or trauma

Question 18

When is fibrinoid necrosis seen?

Answer 18

in malignant hypertension and autoimmune disease

Question 19

What are the 3 types of cells involved in cell cycle of replication?

Answer 19

• labile cells: excellent regenerative capacity e.g epithelia
• stable cells: good regenerative capacity if needed e.g hepatocytes
• permanent cells: no regenerative capacity e.g neurones

Question 20

When does liver cirrhosis occur?

Answer 20

• when there is an imbalance in the hepatocyte regeneration and failure to reconstruct the liver architecture
• as the liver is damaged, the connective tissue framework of the liver collapses so regenerated liver cells cannot populate

Question 21

What is contact inhibition?

Answer 21

cells at edge of defect multiply to cover defect. once these cells cover defect, proliferation stops

Question 22

What is healing by regeneration?

Answer 22

• tissue returns to normal

- restitution of specialised function

Question 23

What is healing by repair?

Answer 23

• fibrosis and scarring
• loss of specialised function
• normal structure cannot be replaced

Question 24

What is organisation?

Answer 24

• the repair of specialised tissue by formation of a fibrous scar
• production of granulation tissue and removal of dead tissue by phagocytosis
• granulation tissue contracts and accumulates collagen, forming a scar

Question 25

What happens when granulation tissue matures?

Answer 25

• becomes less cellular and less vascular

- has more collagen and ECM is layer down so the wound becomes stronger

Question 26

What is healing by first intention?

Answer 26

• clean, uninfected surgical would
• fibrin joins sides of wound together
• edges of incision are replaced by collagen
• coagulated blood forms scar
• would closed with sutures
• epidermis grows over defect
• end result is neat scar

Question 27

What is healing by second intention?

Answer 27

• wound edges not apposed
• Extensive loss of tissue, infection, haematoma
• tissue defect becomes replaced by granulation tissue which eventually contracts, leaving a scar

Question 28

What condition results in issues with wound healing ?- it is slower and can cause inflammation

Answer 28

diabetes

Question 29

which local factors inhibit healing?

Answer 29

• infection
• haematoma
• blood supply
• foreign bodies
• mechanical stress e.g broken bone

Question 30

Which systemic factors inhibit healing?

Answer 30

• age - children heal better than adults
• drugs
• anaemia
• diabetes
• malnutrition
• vitamin C deficiency

Question 31

What is a keloid scar?

Answer 31

• caused by dermal injury followed by excessive fibroblast proliferation and collagen production
• normally a result of secondary intention

Question 32

How do fractures heal?

Answer 32

• haemorrhage around bone forms haematoma
• necrotic fragments removed
• osteoblasts lay down
• replacement by more organised lamellar bone

Question 33

If the brain tissue is injured, why can’t neurones be replaced?

Answer 33

Neurones are terminally differentiated

Question 34

What is gliosis?

Answer 34

non specific reactive change of glial cells in response to damage to the CNS
occurs after brain damage instead of scarring

Question 35

Which other type of tissue, except brain cells, cannot fully regenerate?

Answer 35

heart muscle

-damaged heart muscle cannot regenerate, so the heart heals by fibrosis