Week 1: Cell Injury & Death

Question 1

cellular changes that occur with apoptosis (3)

Answer 1

Defined fragmentation of DNA
Formation of distinct structures called apoptotic bodies
No inflammatory response, cells removed by phagocytosis

Question 2

define apoptosis

Answer 2

cell death due to physiological turnover, programmed cell death; can be stimulated by physiologic or pathologic stimuli

Question 3

changes in nucleus during necrosis (3 - define each)

Answer 3

karyolysis: DNA is degraded by lysing of the nucleus
pykinosis: nucleus shrinks in size
karyorrhexis: nucleus becomes fragmented

Question 4

define necrosis

Answer 4

cell death by injury, involves autodigestion and may initiate an inflammatory response

Question 5

define gas gangrene

Answer 5

occurs when infection is caused by clostridium spp., anaerobic bacteria that produce toxins that damage CT and cause gas

Question 6

define wet gangrene

Answer 6

occurs when necrotic tissue is infected with bacteria and phagocytic cells are recruited – releasing enzymes that lead to liquefactive process

Question 7

define dry gangrene

Answer 7

coagulative necrosis

Question 8

cellular changes due to fat necrosis

Answer 8

saponification = formation of soap by fatty acids, triglycerides, calcium, magnesium and sodium

Question 9

where does fat necrosis occur?

Answer 9

pancreas, breast, peritoneal cavity

Question 10

define fat necrosis

Answer 10

occurs due to abnormal release of pancreatic enzymes that enter other structures. lipases cause specific cellular dissolution

Question 11

cell changes that occur with caseous necrosis

Answer 11

1. Necrotic debris not digested completely by hydrolases

2. Tissues appear soft and granular (white and cheesy)

Question 12

causes of caseous necrosis

Answer 12

limited # of agents

common cause = TB

Question 13

define caseous necrosis

Answer 13

combination of coagulative and liquefactive necrosis

Question 14

cell changes with liquefactive necrosis (2)

Answer 14

• Digestion of the cell remains

- Associated with abscess (pus) formation

Question 15

examples of liquefactive necrosis

Answer 15

• Characteristic of hypoxic death in CNS cells – rich in hydrolytic enzymes and lipids
• Characteristic of focal bacterial infections, which involve hydrolases from phagocytic neutrophils

Question 16

liquefactive necrosis is the consequence of: _____ or _____

Answer 16

autolysis (destruction from within the cell) or heterolysis (destruction from outside of the cell)

Question 17

cell changes that occur in coagulative necrosis (3)

Answer 17

• cell outline preserved
• acidosis denatures proteins
• protein denaturation causes coagulation

Question 18

what is coagulative necrosis and in which organs does it occur?

Answer 18

cell death due to hypoxia and/or ischemia
found in the heart, kidneys and adrenal gland
characteristic of hypoxic death in all cells except brain cells

Question 19

How does calcium influx affect mitochondria and the nucleus, leading to cell death?

Answer 19

mitochondria: disrupts normal cellular metabolism
nucleus: gene transcription and nucleases are modulated by the calcium which leads to apoptosis

Question 20

how do ROS contribute to cell injury/death?

Answer 20

ROS work similarly as free radicals - damage cell membranes

Question 21

how do ROS form under stress?

Answer 21

increase in ROS levels occurs under oxidative stress

Question 22

how does a cell normally protect against ROS?

Answer 22

1. superoxide dismutase converts superoxide to hydrogen peroxide
2. catalase converts hydrogen peroxide to oxygen and water

Question 23

consequences of free radical injury (4)

Answer 23

1. damage cell membranes
2. inactivate enzymes
3. damage nucleic acids
4. form reactive oxygen species

Question 24

how are free radicals made?

Answer 24

made during normal cellular metabolism, can be increased or decreased by physiologic or pathologic stimuli

Question 25

define free radical injury

Answer 25

damage due to unpaired electrons that interact with lipids and proteins

Question 26

consequences of hypoxic injury (1)

Answer 26

due to need for anaerobic respiration in place of aerobic, lactic acid builds up and the pH becomes more acidic

Question 27

3 major mechanisms of cellular injury

Answer 27

1. injury by free radicals
2. hypoxic injury
3. disruption in calcium homeostasis

Question 28

define pathogenesis

Answer 28

cellular response to disease

Question 29

define etiology

Answer 29

underlying cause of disease

Question 30

What are the general consequences of structural or metabolic changes or derangements on cell function? (3)

Answer 30

• Changes a cell’s ability to carry out vital functions
• Changes can spread across cells, impacting the function of tissue and potentially the organ
• Can compromise the health of an individual

Question 31

general role of environment in cell injury

Answer 31

nutrients must outweigh waste products for the cell to function properly

Question 32

How are accumulations of substances created by cells undergoing stress used by a pathologist to understand cell injury; and, give an example of the pathophysiological consequences of these accumulations?

Answer 32

• Can be used to determine extent of cell stress/adaptation, hallmarks of cell injury
• Consequences – may interfere with metabolic or physical functions; may initiate an inflammatory response that can lead to organ enlargement

Question 33

What types of substances can accumulate in cells undergoing stress? (8)

Answer 33

1. Lipids: heart and liver
2. Glycogen: liver and skeletal muscle
3. Pigments
   - Melanin: skin
   - Hemosiderin: bloodstream (hgb, iron)
   - Bilirubin: liver
4. Lipofuscin: result of degenerating membranes – phospholipids and proteins form a fine granular golden-brown pigment
5. Minerals: calcium
6. Hyaline change: protein

Question 34

examples of dysplasia and cancer (3)

Answer 34

1. Epidermal actinic keratosis – hyperplastic squamous epithelium
2. Ulcerative colitis - mucous cells in colon are subject to dysplasia due to chronic inflammation
3. dysplastic cells can be found in the uterine cervix if cancerous processes are present

Question 35

relationship between dysplasia and cancer - how does dysplasia affect the appearance of cells (3)

Answer 35

1. Change in cell size and shape
2. Nuclear enlargement, irregularity and hyperchromatism
3. A disarray in the arrangement of cells within the epithelium

Question 36

A smoker experiences lung changes that are associated with which type of cellular adaptation?

Answer 36

metaplasia - affects columnar ciliated epithelial cells, which turn into flat squamous cells. this disrupts the normal function of the mucus elevator and allows for particles to enter the lungs that would normally be excreted. this could cause changes that lead to cancer

Question 37

causes of hyperplasia

Answer 37

Response to physiologic or pathologic stimuli, depends on cell’s ability to divide

Question 38

causes of hypertrophy (2)

Answer 38

hormonal stimulation (pregnancy)
increased functional demand (working out)

Question 39

outcome of hypertrophy

Answer 39

initial increase in functional capacity, but over time the organ will not be able to continue to compensate for the workload (cardiac hypertrophy)

Question 40

pathologic vs. physiologic causes of atrophy

Answer 40

Pathologic: due to pathologic stimuli
Physiologic: due to changes in functional demands on a cell

Question 41

causes of atrophy

Answer 41

disuse syndrome, denervation, ischemic atrophy

Question 42

define atrophy

Answer 42

decrease in size of tissue or organ due to reduction in cell size

Question 43

define dysplasia

Answer 43

disordered growth and maturation of a cell component within a tissue

Question 44

define metaplasia

Answer 44

mature cell types replaced by a less mature cell type

Question 45

define hypertrophy

Answer 45

increase in size of cells

Question 46

define hyperplasia

Answer 46

increase in number of cells

Question 47

Two normal causes of cell death

Answer 47

Apoptosis & Necrosis

Question 48

define karyorrhexis

Answer 48

irreversible cell death characterized by fragmentation of the nucleus

Question 49

Define karyolysis

Answer 49

irreversible cell death characterized by lysing of nucleus due to action of DNAase & RNAse

Question 50

General changes associated with cell injury (4)

Answer 50

1. excessive cell swelling
2. disruption to organelles
3. autophagy by lysosomes
4. karyolysis or karyorrhexis

Question 51

How does reversible injury progress to irreversible

Answer 51

Reversible injury can progress to irreversible if stress continues before resolution

Question 52

What is meant by adaptation?

Answer 52

Cells are able to adapt to increase work demands or threats to survival by changing their size, number and form

Question 53

What is the “normal” process of adaptation?

Answer 53

Normal adaptation occurs in response to an appropriate stimulus and ceases once the need for adaptation is ceased

Question 54

When do cells undergo adaptation?

Answer 54

when there is a change in the internal environment

Question 55

define homeostasis

Answer 55

Purposeful maintenance of a stable internal environment by coordinated physiologic processes that oppose change