Chapter 1

Question 1

Which permanent tissues only undergo hypertrophy and not hyperplasia?

Answer 1

-Cardiac muscle, skeletal muscle, and nerve

Question 2

How does hyperplasia lead to cancer? Is there an exception to this rule?

Answer 2

• When hyperplasia occurs secondary to a pathologic process
• Pathologic hyperplasia (ex. Endometrial hyperplasia) can progress to dysplasia and eventually cancer.
• EXCEPTION: BPH - NO increase risk for prostate cancer

Question 3

Name of process that results in a decrease in cell #

Answer 3

apoptosis

Question 4

Name of processes that results in decrease cell size

Answer 4

Ubiquitin-proteosome degradation of the cytoskeleton and autophagy of cellular components

Question 5

What is Metaplasia?

Answer 5

A change in stress on an organ leads to a change in cell type.

Question 6

Barret esophagus is a classic example of what type of growth adaptation?

Answer 6

Metaplasia

Question 7

What type of tissue changes occur most commonly in metaplasia?

Answer 7

Change of one type of surface epithelium (squamous, columnar, urothelial) to another

Question 8

What type of metaplasia do we see with Barret esophagus?

Answer 8

Non-keratinizing squamous epthelium –> nonciliated, mucin-producing columnar cells

Question 9

Metaplasia is (reversible or irrreversible)?

Answer 9

reversible - in theory, with removal of the driving stressor

Question 10

Can metaplasia progress to cancer?

Answer 10

Yes - under persistent stress:
-metaplasia –> dysplasia –> cancer
ex) Barret’s –> adenocarcinoma of the esophagus
EXCEPTION:apocrine metaplasia of breast - no increased risk for cancer

Question 11

What vitamin deficiency can result in metaplasia?

Answer 11

Vitamin A.

-is necessary for differentiation of specialized epithelial surfaces such as the conjunctiva covering the eye

Question 12

How will a Vitamin A deficiency manifest?

Answer 12

Night blindness
Thin squamous lining of the conjunctiva undergoes metaplasia into stratified keratinizing squamous epithelium. Change = KERATOMALACIA

Question 13

MYOSITIS OSSIFICANS is an example of what?

Answer 13

• Mesenchymal (connective) tissue undergoing metaplasia

- muscle tissue changes to bone during healing after trauma (inflammation)

Question 14

Define Dysplasia in 3 words

Answer 14

Disordered cellular growth

Question 15

Cervical intraepithelial neoplasia (CIN) is an example of what growth adaptation?

Answer 15

Dysplasia

• refers to a proliferation of precancerous cells (as most dysplasias do).
• Represents dysplasia and is a precursor to cervial cancer

Question 16

How does dysplasia arise?

Answer 16

-often from longstanding pathologic hyperplasia (endometrial hyperplasia) or metaplasia (Barrett)

Question 17

IS DYSPLASIA REVERSIBLE?

Answer 17

Yes, in theory, with alleviation of inciting stress

-if the stress persists and it progresses to carcinoma –> that is irreversible

Question 18

Define Aplasia:

Answer 18

Failure of cell production during embryogenesis

Question 19

Define Hypoplasia

Answer 19

Decrease in cell production during embryogenesis resulting in a relatively small organ (ex streak ovary in turner syndrome)

Question 20

What type of cells are highly susceptible to ischemic injury?

Answer 20

NEURONS (occurs after 3-5 minutes)

Question 21

What does slowly developing ischemia result in?

Answer 21

Results in atrophy

In contrast to acute ischemia - which results in cellular injury

Question 22

Define Hypoxia

Answer 22

Low oxygen delivery to tissue

Question 23

What are the 3 causes of hypoxia?

Answer 23

1. Ischemia (decreased blood flow through an organ)
2. Hypoxemia (low partial pressure of oxygen in the blood)
3. Decreased O2 - carrying capacity

Question 24

What are 3 causes of ischemia?

Answer 24

1. Decreased arterial perfusion (atherosclerosis)
2. Decreased venous drainage (Budd-Chiari syndrome - from Polycythemia vera or Lupus causing a thrombosis in hepatic vein)
3. Shock:

Question 25

What lab values constitute Hypoxemia?

Answer 25

PaO2 < 60 mmHg;

SaO2 <90%

Question 26

4 Causes of hypoxemia:

Answer 26

1. High altitude
2. Hypoventilation [Increased PACO2 –> Decreased PAO2)
3. Diffusion Defect (Interstitial pulmonary fibrosis)
4. V/Q mismatch (right-to-left shunt; atelectasis)

Question 27

How does a decreased O2 carrying capacity of the blood occur?

Answer 27

Arises with hemoglobin (Hb) loss or dysfunction.

Question 28

What are 3 examples of decreased O2-carrying capacity?

Answer 28

1. Anemia [PaO2 normal; SaO2 normal]
2. CO poisoning [PaO2 normal; SaO2 decreased]
3. Methemoglobinemia [PaO2 normal; SaO2 decreased]

Question 29

**What is the classic physical finding in CO poisoning?

Answer 29

Cherry-red appearance of skin

-Headache =early sign; then lead to coma and death

Question 30

Explain Methemoglobinemia

Answer 30

Iron in heme is oxidized to Fe3+, which cannot bind O2

-Seen with oxidant stress (sulfa and nitrate drugs) or in newborns [‘cause babies suck at reducing Fe3+ to Fe2+]

Question 31

What is a classic finding in methemoglobinemia?

Answer 31

Cyanosis with chocolate-colored blood

Question 32

What is the treatment for Methemoglobinemia?

Answer 32

Intravenous methylene blue

- helps reduce Fe3+ back to Fe2+ state

Question 33

What is the hallmark of reversible injury?

Answer 33

Cellular swelling

Question 34

What is the hallmark of irreversible injury?

Answer 34

Membrane damage:

Question 35

Where does the electron transport chain occur?

Answer 35

INNER MITOCHONDRIAL MEMBRANE

Question 36

What is cytochrome C?

Answer 36

an enzyme found in the mitochondria used in oxidative phosphorylation. When this leaks into the cytosol (when mitorchondrial membrane is damaged), will activate apoptosis

Question 37

What is the morphologic hallmark of cell death?

Answer 37

loss of the nucleus:

-Nuclear condensation (pyknosis) –> Fragmentation (Karyorrhexis) –> Dissolution (Karyolysis)

Question 38

In general, describe Necrosis (i.e. - how it will be differentiated from the other form of cell death)

Answer 38

• Death of LARGE group of cells followed by ACUTE inflammation
• Due to some underlying pathologic process; never physiologic

Question 39

What are the 6 gross patterns of necrosis?

Answer 39

1. Coagulative
2. Liquefactive
3. Gangrenous
4. Caseous
5. Fat
6. Fibrinoid necrosis

Question 40

Which pattern of necrosis is characteristic of ischemic infarction of any organ (except the brain)?

Answer 40

Coagulative

Question 41

What is a red infarction?

Answer 41

Coagulative necrosis: arises if blood re-enters a lossely organized tissue (pulmonary or testicular infarction)

Question 42

How would coagulative necrosis appear? (i.e firm, squishy, circular….?)

Answer 42

Tissue remains firm (cell shape preserved)

• Wedge-shaped (pointing to focus of vascular occlusion)
• Pale

Question 43

What type of necrosis is characteristic of brain infarction?

Answer 43

Liquefactive

Proteolytic enzymes from microglial cells liqeufy the brian

Question 44

What type of necrosis is characteristic of Abscess and Panceatitis?

Answer 44

Liquefactive

• Abscess: Proteolytic enzymes from neutrophils
• Pancreatitis: Proteolytic enzymes from pancreas liquefy parenchyma

Question 45

What type of necrosis is characteristic of ischemia of lower limb and GI tract?

Answer 45

Gangrenous necrosis

Question 46

What is wet gangrene?

Answer 46

When there is gangrenous necrosis with superimposed infection of dead tissues ( and liquefactive necrosis ensues)

Question 47

How would you describe a gangrenous necrosis?

Answer 47

Coagulative necrosis that resembles mummified tissue

Question 48

How would you describe a Caseous necrosis?

Answer 48

Soft and friable necrotic tissue with “cottage cheese-like” appearance
-A combination of coagulative and liquefactive

Question 49

What type of necrosis is characteristic of granulomatous inflammation due to tuberculous or fungal infections?

Answer 49

Caseous necrosis

Question 50

What is saponification?

Answer 50

Fatty acids released by trauma or lipase join with calcium

-Is an example of dystrophic calcification

Question 51

What is dystrophic calcification?

Answer 51

Calcium deposits on dead tissues.

• necrotic tissue acts as a nidus for calcification
• occurs in setting of NORMAL serum calcium and phosphate

Question 52

What is metastatic calcification?

Answer 52

HIGH serum Ca or P levels lead to Ca deposition in normal tissue (hyperparathyroidism leading to nephrocalcinosis)

Question 53

What type of necrosis is characteristic of trauma to fat and pancreatitis-mediated damage of peripancreatic fat?

Answer 53

Fat necrosis

-Will have a chalky-white appearance due to deposition of Ca

Question 54

What type of necrosis is characteristic of malignant hypertension and vasculitis?

Answer 54

Fibrinoid necrosis

Question 55

Define fibrinoid necrosis

Answer 55

Necrotic damage to blood vessel wall

-Leaking of proteins (fibrin) into vessel wall resulting in bright pink staining of the wall microscopically

Question 56

Define apoptosis:

Answer 56

ATP-dependent, genetically programmed cell death involving single cells or small groups of cells

Question 57

Give 3 examples of apoptosis

Answer 57

1. Endometrial shedding during menstrual cycle
2. Removal of cells during embryogenesis (digits)
3. CD8 T cell-mediated killing of virally infected cells

Question 58

After apoptotic bodies are removed by macrophages, what type of inflammation occurs?

Answer 58

NONE - apoptosis is not followed by inflammation (BUT necrosis does have inflammation!)

Question 59

What mediates apoptosis?

Answer 59

Caspases: activate proteases and endonucleases

• Proteases break down cytoskeleton
• Endonucleases break down DNA

Question 60

How are caspases activated by the intrinsic mitochondrial pathway?

Answer 60

• Inactivation of Bcl2 via cellular injury/DNA damage/loss of hormonal stimulation allows CYTOCHROME C to leak from the inner mitochondrial matrix into the cytoplasm and activate caspases

Question 61

How are caspases activated by the extrinsic receptor-ligand pathway?

Answer 61

FAS ligand binds FAS death receptors (CD95) on the target cell –> activating caspases (negative selection of thymocytes in thymus)
-TNF binds TNF receptors on target cell, also activating caspases

Question 62

How are caspaces activated by the Cytotoxic CD8 T cell-mediated pathway?

Answer 62

• Perforins secreted by CD8 T cells create pores in membrane of target cells
• Granzyme (really) from CD8 T cell enters pores and activates caspases

Question 63

How are free radicals generated physiologically?

Answer 63

Oxidative phosphorylation

• Cytochrome c oxidase (complex IV) transfers electrons to oxygen
• Partial reduction of O2 yeilds Superoxide (O2 -), hydrogen peroxide (H2O2), and Hydroxyl radicals (OH-)

Question 64

Which oxygen free radical is the devil of free radicals?

Answer 64

Hydroxyl radicals are the most dangerous

Question 65

What are 4 ways free radicals are generated pathologically?

Answer 65

1. Ionizing radiation: Water –> Hydroxyl free radical
2. Inflammation: NADPH oxidase generates superoxide ions during oxygen-dependent killing by neutrophils
3. Metals: Fenton reaction (Fe2+ generates hydroxyl)
4. Drugs and chemicals: during metabolism via P450

Question 66

How do free radicals cause cellular injury?

Answer 66

Via peroxidation of lipids and oxidation of DNA and proteins

DNA damage is implicated in aging and oncogenesis

Question 67

What are 3 enzymes that eliminate free radicals?

Answer 67

Superoxide dismutase (in mitochondira): Superoxide –> H2O2

2. Glutathione peroxidase (in mitochondria): Hydroxyl –> water
3. Catalase (in peroxisomes): H2O2 –> H2O

Question 68

What is Carbon Tetrachloride (CCl4), and why is it bad?

Answer 68

• organic solvent used in dry cleaning
• Converted to CCl3 by P450
• Results in cell injury with swelling of rER –> ribosomes detach, impairing protein synthesis
• Decreased apolipoproteins leads to FATTY CHANGE IN THE LIVER

Question 69

What are 2 shared features of proteins that can be deposited as amyloid?

Answer 69

1. Beta-pleated sheet configuration

2. Congo red staining and apple-green birefringence when viewed microscopically under polarized light

Question 70

Define Primary amyloidosis

Answer 70

Systemic deposition of AL amyloid, which is derived from Ig light chain
-Associated with plasma cell dyscrasia (multiple myeloma)

Question 71

Define Secondary amyloidosis

Answer 71

Systemic deposition of AA amyloid, which is derived from serum amyloid-associated protein (SAA)

Question 72

What is serum amyloid-associated protein (SAA)?

Answer 72

an acute phase reactant that is increased in chronic inflammatory states, malignancy, and familial mediterranean fever (FMF - rare)

Question 73

What are the clinical findings of systemic amyloidosis?

Answer 73

1. NEPHROTIC SYNDROME: KIDNEY IS THE MOST COMMON ORGAN INVOLVED
2. Restrictive cardiomyopathy or arrhythmia
3. Tongue enlargement, malabsorption, hepatosplenomegaly

Question 74

How do you diagnosis Systemic Amyloidosis:

Answer 74

Tissue biopsy
Abdominal fat pad and rectum are easily accessible biopsy targets. If you think convincing a patient sticking a needle up their butt will be easy anyway…

Question 75

What is the treatment for systemic amyloidosis?

Answer 75

Damage organs must be transplanted. Amyloid cannot be removed

Question 76

What is senile cardiac amyloidosis?

Answer 76

Localized amyloidosis

• NON-MUTATED serum transthyretin deposits in the heart
• usually asymptomatic. Common (25% of pts >80 years old)

Question 77

What is Familial amyloid cardiomyopathy?

Answer 77

• Localized amyloidosis

- MUTATED serum transthyretin deposits in the heart leading to restrictive cardiomyopathy

Question 78

When would you see Amylin depsoited in the islet of the pancreas?

Answer 78

Type II diabetes mellitus.

Amylin is derived from insulin

Question 79

What amyloid is present in Alzheimer disease?

Answer 79

• Abeta amyloid (derived from Beta-amyloid precursor protein) deposits in the brain forming amyloid plagues.
• Gene for beta-APP is present on Chromosome 21 - which is where the association with Down syndrome comes from

Question 80

What do you see in Dialysis-assoicated amyloidosis

Answer 80

B2-microglobulin deposits in joints

Question 81

How is Medullary carcinoma of the thyroid associated with amyloidosis

Answer 81

Calcitonin (Produced by tumor cells) deposits within the tumor
-“TUMOR CELLS IN AN AMYLOID BACKGROUND”