1 Cell Injury

Question 1

*Q: What does lethal cell injury lead to? What does sublethal cell injury lead to?

Answer 1

A: cell death

injury may not amount to cell death but may be reversible/progress to cell death

Question 2

*Q: Define hypertrophy.

Answer 2

A: stress that makes cells adapt and become bigger

Consequently increasing organ size

Trophy= size

Question 3

*Q: What are the 8 types of cell injury?

Answer 3

A: oxygen deprivation- v common

infectious agents- inc drugs

chemical agents

genetic defects

immunological reactions- autoimmune

nutritional imbalances

physical agents- eg lightning, gunshot

ageing

DICGINPA

Question 4

*Q: What does the cellular response injurious stimuli depend on? (3)

Answer 4

A: type of injury, severity, duration

Question 5

Q: What are the 4 intracellular mechanisms particularly vulnerable to cell injury? Why are they important? Relationship?

Answer 5

A: cell membrane integrity (allows distinguishing from self and non self cells)
ATP generation (important in maintaining cell integrity)
Protein synthesis (affect cell membrane)
Integrity of genetic apparatus (can lead to malfunction in protein synthesis)

integrally related that multiple secondary effects rapidly occur//if one is damaged then leads to problems in others (all feed into eachother)

Question 6

*Q: What kills the cell first: Morphological changes or loss of function?

Answer 6

A: loss of function

Question 7

*Q: Define atrophy. Example.

Answer 7

A: shrinking of size of cell (or organ) by loss of cell substance

Dementia brain = smaller due to smaller cells

Question 8

*Q: What can cause hypertrophy? (2)

Answer 8

A: increased functional demand

Specific hormonal stimulation

Question 9

*Q: What is hyperplasia? Can be? (2) Describe each.

Answer 9

A: plasia= number

Increase in number of cells in organ

Can be physiological or pathological

Physiological can be hormonal or compensatory

pathological is usually due to excessive hormonal or growth factor stimulation

Question 10

*Q: What is an example of hormonal physiological hyperplasia?

Answer 10

A: oestrogenic wave of proliferation of the endometrium (mucous membrane lining the womb/inside on uterus)

(proliferative endometrium stimulated by oestrogen)

Question 11

*Q: What is an example of pathological hyperplasia?

Answer 11

A: carcinoma

Question 12

*Q: What is tremendous hyperplasia?

Answer 12

A: lots of mitosis

Question 13

*Q: Define metaplasia. May be? (2) Give an example.

Answer 13

A: reversible change in which one adult cell type is replaced by another

physiological or pathological

when you spoke, columnar epi goes to squamous (returns back when smoking stops)

Question 14

*Q: Give an example of metaplasia.

Answer 14

A: Barrett’s oesophagus- get columnar epithelium instead of squamous lined epithelium due to acid reflu

Question 15

*Q: What is dysplasia?

Answer 15

A: precancerous cells which show genetic and cytological features of malignancy but not invading the underlying tissue (basal lamina)

key features: increased mitoses and increased nuclear cytoplasmic ratio

Question 16

Q: What is the connection between metaplasia and dysplasia in terms of cancer?

Answer 16

A: metaplasia doesn’t give increased risk of cancer but once you’ve got metaplasia, then you may go on to have dysplasia

Question 17

*Q: What are 2 light microscopic changes associated with reversible injury? Examples of?

Answer 17

A: fatty change (fat accumulation is seen as holes in images)

Cellular swelling

examples of degenerative changes (ie damage associated with cell and tissue damage)

Question 18

Q: What is necrosis? What’s it associated with being?

Answer 18

A: confluent (cells near eachother) cell death associated with inflammation

Whole areas of cells die not just single cell

Associated with being pathological

Question 19

*Q: What are the 4 types of necrosis? (light microscope changes associated with irreversible change)

Answer 19

A: coagulative
Liquefactive
Caseous
Fat

Question 20

Q: Describe fat necrosis by aid of an example.

Answer 20

A: Associated with acute pancreatitis where you get the release of lipases which digests fats and hydrolyses triglycerides -> free FA and glycerol

Free FA combine with calcium in the extra cellular fluid and deposits

Each deposit (appears as white part on real life image) are areas of fat necrosis

Question 21

Q: What is apoptosis?

Answer 21

A: programmed cell death of single cells not associated with inflammation

Active cell death that needs energy

Can be pathological or physiological

Question 22

Q: How does apoptosis occur?

Answer 22

A: nucleus shrinks
Little bits of the cell break off (lined by cytoplasm)
Nothing from inside cell is exposed to outside so there is no inflammation

It is phagocytosed by macrophages

Question 23

*Q: What are the differences between apoptosis and necrosis? (4)

Answer 23

A: A may be physiological

A is an active energy dependent process
N is what happens when ATP runs out

A is not associated with inflammation
N includes a damaged plasma membrane

N is a response to severe injury
A is a response to mild injury

Question 24

Q: Describe the stress triangle involving a normal cell.

Answer 24

A: can stress the normal cell and it will adapt -> adapted state (eg heart cells work harder when low bp)

normal cell-> too much stress -> cell injury which leads to cell death (eg. myocardial infarction where blood supply is cut off)

adapted state-> continually put pressure on -> reach point where no longer adapt -> cell injury …

Question 25

Q: What are the 2 types of cell injury?

Answer 25

A: lethal and sublethal

Question 26

Q: Describe the 2 types of stress exerted on cells.

Answer 26

A: physiological- that healthy people have eg. when exercising

pathological- associated with a diseased state eg. HBP

Question 27

*Q: What do the consequences of an injurious stimulus depend on? (4)

Answer 27

A: type of cell (some are more susceptible to injury)

status (cell that is dividing is more vulnerable)

adaptability

genetic makeup

Question 28

*Q: Define hypertrophy. Can be? (2)

Answer 28

A: increase in cell size and consequently an increase in the size of the organ

pathological or physiological

Question 29

*Q: What’s an example of physiological hypertrophy? pathological?

Answer 29

A: uterus is larger during pregnancy (more fibres)

HBP

Question 30

Q: Describe an alcoholic fatty change? Ballooning degeneration?

Answer 30

A: -single metabolic consequence

• (liver disease)
• reversible change
• fluid leaks in
• cells are much bigger as are swollen

Question 31

Q: How does necrosis occur?

Answer 31

A: contents are released-> attract neutrophils and cause necrosis (membrane is damaged)

Question 32

*Q: What are 5 causes of apoptosis that are normal physiological processes?

Answer 32

A: embryogenisis (separate fingers)

deletion of auto reactive T cells in the thymus

hormone dependent physiological involution

cell deletion in proliferating populations

variety of mild injurious stimuli that cause irreparable DNA damage that triggers cell suicide pathways

Question 33

Q: What’s a third type of cell death? Describe. Circumstance?

Answer 33

A: necroptosis

programmed cell death associated with inflammation

only in pathological circumstances eg viral infections

Question 34

*Q: Define ulcer.

Answer 34

A: open sore on an external or internal surface of the body, caused by a break in the skin or mucous membrane which fails to heal

Question 35

*Q: Define degeneration.

Answer 35

A: process by which tissue deteriorates and loses its functional ability due to traumatic injury, aging and wear and tear

Question 36

Q: Describe caseous necrosis. What is it associated with?

Answer 36

A: ‘cheesy’ necrosis

Necrotic area is granular (that’s what makes it caseous)

Associated with pulmonary TB

Question 37

Q: Describe liquefactive necrosis using an example. Identified?

Answer 37

A: brain has totally liquified

Is an empty space and can only identify cells by looking at cells around the cyst

Question 38

Q: Describe coagulative necrosis. (3) Appearance? Example.

Answer 38

A: cell shape does not change- tissue keeps structure

Nuclei are gone

Loss of cell substance

On images- see inflammatory cells between

In images appear like ‘ghost cells’ due to loss of proteins etc so stain isn’t picked up as much

myocardal infarct (dead cells are still recognisable)