Pathoma Ch. 1-2 Basics

Question 1

Conjunctival –> stratified keratinizing squamous

Answer 1

Vitamin A deficiency –> Keratomalacia (metaplasia)

Question 2

Pieces of bone in muscle after trauma

Answer 2

Myositis ossificans (metaplasia)

Question 3

Streak ovary in Turners…type of tissue failure

Answer 3

Hypoplasia

Question 4

Cyanosis w/ chocolate-colored blood

PaO2 and SaO2

Causes?

Tx?

Answer 4

Methemoglobinemia (Fe2+ –> Fe3+)

SaO2 low

Oxidant stress (sulfa drugs, nitrates)
Newborns

IV methylene blue (Fe3+ reducing agent)

Question 5

Pre-eclampsia…see what on biopsy of placental BVs?

Answer 5

Fibrinoid necrosis (via the HTN)

Question 6

Fibrinoid necrosis…classic examples

Answer 6

Vasculitis, Malignant hypertension

Question 7

Cellular injury, DNA damage, etc —> apoptosis…

What protein/gene is down-regulated to allow for apoptosis? What happens?

Answer 7

BCL-2 decreases –> cytochrome C can leak out of mitochondria and activate caspases

Question 8

Caspases activate what?

Answer 8

Proteases and endonucleases

Question 9

Negative selection of T cells in thymus is via what?

Answer 9

Fas-FasL –> apoptosis

Question 10

CD95

Answer 10

Fas receptor on target cells for apoptosis

Question 11

How does a T cell kill a cell? (2)

Answer 11

1. Via perforins and granzyme (pores –> caspase activation)

2. Via Fas-FasL

Question 12

Cytochrome C oxidase

Answer 12

Complex 4 in ETC (final step)

Question 13

3 free radicals and the enzymes that destroy them

Answer 13

1. Superoxide (O2-) - Superoxide dismutase
2. Hydrogen peroxide - Catalase
3. Hydroxyl (OH-) - glutathione peroxidase

Question 14

Oxygen-dependent killing in neutrophils (2)

Answer 14

1. NADPH oxidase (O2 to O2-)

2. Myeloperoxidase (O2- to H2O2)

Question 15

Mechanism of damage in hemochromatosis and wilsons

How to prevent this normally?

Answer 15

Metals –> free radical damage (Fenton reaction)

Metal carrier proteins (transferrin, ceruloplasmin)

Question 16

Mechanism of damage in acetaminophen damage

Answer 16

P450 metabolism –> free radicals –> hepatic necrosis

Question 17

How do free radicals cause damage?

Answer 17

Peroxidation of lipids

Oxidation of DNA and proteins

Question 18

Dry cleaning industry –> fatty change in liver…cause and pathway?

Answer 18

Carbon tetrachloride –> P450 –> CCl3 (free radicals) –> cell injury/swelling of RER –> decreased protein (apolipoprotein) synthesis –> fatty change

Question 19

Continued rise in cardiac enzymes after MI treatment w/ tPA

Answer 19

Free radical damage (reperfusion injury)

Question 20

2 steps of T-cell selection in thymus

Answer 20

1. Positive selection (EFFECTIVE self-binding)

2. Negative selection (TOO MUCH self-binding)

Question 21

All amyloid has what 2 shared features?

Answer 21

1. Beta-pleated sheet

2. Congo red stain and apple-green birefringence

Question 22

Mediterranean ancestry
Episodes of fever + appendicitis/arthritis/MI SYMPTOMS
Congo red staining within tissue
Familial pattern

Cause?
Amyloid type?

Answer 22

Familial Mediterranean Fever

Neutrophil dysfunction

SAA (Secondary amyloidosis)

Question 23

Systemic amyloidosis…2 types

Answer 23

1. Primary (AL - Ig light chains) - plasma cell dyscrasias

2. Secondary (AA - SAA) - chronic inflammation

Question 24

Nephrotic syndrome
Restrictive cardiomyopathy/arrhythmia
Tongue enlargement, malabsorption, HSM

Answer 24

Secondary amyloidosis

Question 25

6 types of localized amyloidosis

Answer 25

1. Senile cardiac amyloidosis (normal transthyretin)
2. Familial amyloid cardiomyopathy (mutated transthyretin – restrictive cardiomyopathy)
3. Type 2 DM (amylin –> islets)
4. Alzheimers (A-beta from APP –> brain)
5. Dialysis (beta-2 microglobulin –> joints)
6. Medullary thyroid carcinoma (calcitonin)

Question 26

Anaphylatoxins…function?

Answer 26

C3a and C5a – activate mast cells –> histamine release

Question 27

PGI2, PGD2, PGE2

LTC4, LTD4, LTE4

Histamine

Answer 27

PGs = vasodilation, permeability

LTDs = vasoconstriction, bronchospasm, vascular permeability

Vasodilation, permeability

Question 28

C3b

C5a

Answer 28

Opsonin for phagocytosis

Neutrophil chemoattractant

Question 29

Classical activation of complement

Answer 29

IgM or IgG on antigen –> C1 activation

“GM makes CLASSIC cars”

Question 30

Hageman factor…fxns?

Answer 30

Factor XII – when exposed to COLLAGEN…

1. Activates intrinsic clotting cascade
2. Activates complement
3. Activates kinin system (bradykinin)

Question 31

Bradykinin…fxns?

Answer 31

Vasodilation and permeability (w/ histamine)

Pain (w/ PGE2)

Question 32

Redness and warmth…mediators?

Answer 32

Bradykinin, histamine, and PGs

Question 33

Swelling…mediators?

Answer 33

Histamine, tissue damage

Question 34

Pain…mediators?

Answer 34

PGE2, bradykinin (sensitize free nerve endings)

Question 35

Fever…pathway?

Answer 35

Pyrogen (ex. LPS) –> macrophage –> IL-1/TNF –> COX in hypothalamus –> PGE2 –> raised temp set point

Question 36

Weibel-Palade bodies…fxns?

Via what?

How to remember?

Answer 36

Release vWF and P-selectin

Histamine causes it’s release

W-P = vWf and P-selectin

Question 37

E-selectin - upregulation signal

Answer 37

TNF, IL-1

Question 38

Sialyl-Lewis X

Answer 38

Selectin receptor on leukocytes

Question 39

ICAM and VCAM - upregulation signal

Answer 39

TNF, IL-1

Question 40

Integrins - upregulation signal

Answer 40

C5a, LTB4 (on leukocytes)

Question 41

CD18

Answer 41

Integrin deficiency on leukocytes

Question 42

Pyogenic infections, neutropenia, giant granules in neutrophils, albinism, peripheral neuropathy, mucosal bleeding

Issues?

Answer 42

Chediak-Higashi syndrome

Defective protein trafficking –> impaired phagolysosome, melanin movement, cell granule movement, neurotransmitter movement, platelet granule movement

Question 43

What is the oxidative burst?

Answer 43

O2 to O2- by neutrophils (via NADPH oxidase)

Question 44

Catalase positive organisms (5)

Answer 44

Staph, Pseudomonas, Serratia, Nocardia, Aspergillus

Question 45

NBT test

Answer 45

Catalase converts O2 to O2-

Negative in CGD (colorless/yellow)

Question 46

Many Candida infections
NBT test turns blue
Respiratory burst intact

Answer 46

MPO deficiency (no HOCl-)

Question 47

Oxygen-independent killing…mechanisms?

Answer 47

Lysozyme (macrophages)

Major basic protein (eosinophils)

Question 48

Resolution of inflammation…what happens to neutrophils?

Answer 48

APOPTOSIS

Question 49

How do macrophages kill?

Answer 49

Lysozyme (oxygen-independent)

Question 50

4 potential functions of macrophages once they arrive (2-3 days)

Answer 50

1. Resolution (IL-10, TGF-beta)
2. Continue inflammation (IL-8 –> more neutrophils)
3. Abscess (fibrogenic growth factors, cytokines)
4. Chronic inflammation (CD4 T cell activation)

Question 51

5 stimuli for chronic inflammation

Answer 51

1. Persistent infection (via macrophages, CD4 cells)
2. Virus, mycobacteria, parasites, fungi
3. Autoimmune disease
4. Foreign material
5. Cancers

Question 52

4 = 28/7

Answer 52

CD4 co-stimulatory = CD28 (T cells) and B7 (APC)

Question 53

Co-stimulation for CD8-MHC1 interaction

Answer 53

IL-2 (from CD4 T cell)

Question 54

Macrophages with abundant pink cytoplasm surrounded by giant cells and a rim of lymphocytes

What are the central cells called?

Answer 54

Granuloma

Epithelioid histiocytes

Question 55

Caseating granuloma…options?

Answer 55

TB, Fungi

Question 56

Noncaseating granuloma…options? (5)

Answer 56

Foreign body, sarcoidosis, beryllium, Crohn’s disease, cat-scratch disease

Question 57

Stellate-shaped non-caseating granuloma

Answer 57

Cat-scratch disease

Question 58

Formation of a granuloma (pathway)

Answer 58

Macrophage (antigen) –> CD4 cell (via MHC2 and IL-12) –> Th1 cell –> IFN-gamma –> macrophage conversion to epithelioid histiocyte and giant cells

Question 59

Labile cells

Answer 59

Bowel stem cells in MUCOSAL CRYPTS
Skin stem cells in BASAL LAYER
Hematopoietic stem cells (CD34+)

Question 60

Stabile cells

Answer 60

Hepatocytes

Proximal renal tubules

Question 61

***Permanent cells

Answer 61

Myocardium
Skeletal muscle
Neurons

Question 62

When will a SCAR form?

Initial phase of this process?

Answer 62

When the regenerative stem cells are lost or absent

GRANULATION TISSUE (NOT granuloma)

Question 63

***Granulation tissue…components

Answer 63

Fibroblasts, Capillaries, Type 3 collagen, Myofibroblasts

Question 64

Main component of scar

What happens to the precursor? What is required?

Answer 64

Type 1 collagen

Collagenase removes type 3 (ZINC COFACTOR)

Question 65

Patient has a zinc deficiency and gets a deep skin wound. What type of collagen will be present?

Why?

Answer 65

Type 3 (Collagenase cannot remove the type 3 w/o zinc)

Question 66

***Mediators of tissue regeneration and repair (w/ functions)

Answer 66

TGF-alpha – epithelial and fibroblast GF
TGF-beta – fibroblast GF + inhibits inflammation
PDGF – endothelial, smooth muscle, and fibroblast GF
FGF – angiogenesis
VEGF - angiogenesis

Question 67

**Primary vs. secondary intention

Answer 67

Primary = wound edges brought together

Secondary = granulation tissue fills defect, myofibroblasts contract the wound (SCAR)

Question 68

Vitamin C - function

Answer 68

Hydroxylation of proline and lysine (procollagen) – needed for eventual CROSS-LINKING

Question 69

Copper - function

Answer 69

Lysyl oxidase (CROSS-LINKING lysing and hydroxylysine)

Question 70

Keloid - made of what?

Most common locations?

Answer 70

Type 3 collagen

Earlobes, Face, Upper Extremities

Question 71

Hypertrophic scar

Answer 71

Excess scar tissue LOCALIZED TO WOUND