Pathbio 1

Question 0

Neurofibromin

Answer 0

GTPase Activating Protein important for inactivation of RAS

• downregulation of proliferation
• enhances RAS intrinsic GTPase activity

Question 1

What is RAS?

Answer 1

Signal transducing protein activated by growth factor.

• GTP binding protein (G protein)
• GF-R -> (GDP -> GTP) -> on
• -activation of MAP kinase pathway -> transcription and proliferation
• has intrinsic GTPase activity, but enhanced by GAP -> off

Question 2

What is MYC and how is it controlled?

Answer 2

MYC - transcription activated by Growth Factor
Binds MAX protein - forms heterodimer
MYC-MAX binds DNA -> upregulation of pro-cell division genes
Downregulated by MAX homodimers and MAD-MAX heterodimers

Question 3

p53

Answer 3

at DNA checkpoints during cell cycle, if DNA damage is detected, p53 is induced

p53 -> increased p21 -> CDK inhibitor expression -> arrest of cell cycle and DNA repair

• -Success: p53 induced transcription of p53 degrading protein
• -Fail: p53 induced transcription of pro-aptotic protein (BAX) and repression of pro-proliferative proteins

Question 4

What is the most common change seen in Metaplasia?

Answer 4

Columnar -> Squamous epithelial cell types

ex: pseudostratified, ciliated, columnar epithelium of respiratory tract -> stratified squamous in smokers

Question 5

What type of metaplasia is seen in GERD patients?

Answer 5

stratified squamous of lower esophagus -> gastric / intestinal type glandular epithelium (columnar) - mucus production to protect against acid erosion

Question 6

What happens in lysosomal storage disorders?

Answer 6

Enzymatic dysfunction (inherited deficiency or acquired inhibition) -> accumulation of lysosomal contents and potential cellular injury

Neutrophils and macrophages accumulate debris - can’t break down

Question 7

In what process of cellular change is the ubiquitin pathway important?

Answer 7

Atrophy

ubiquitin pathway destroys cellular components by lysosome and proteasome activity

Question 8

How does metaplasia occur?

Answer 8

product of chronic trauma or irritation
Cytokine, GF and ECM signals -> transcriptional changes in STEM CELLS or reserve cells -> differentiation toward new cell type.

Question 9

Myositis ossificans

Answer 9

Metaplasia of skeletal muscle -> bone following trauma

Question 10

Kartagener syndrome

Answer 10

primary ciliary dyskinesia accompanied by situs inversus, chronic sinusitis, bronchiectasis

Question 11

Etiologic factors in fatty change of the liver

Answer 11

Starvation - increase fatty acid uptake from adipose
Kwashiorkor and CCl4 toxicity - decreased apoprotein synth-> lipoprotein export
ETOH abuse, diabetes, obesity, hypoxia - alter TG synth / removal

Question 12

What stain is used for visualizing fat?

Answer 12

Oil Red O

stains fat inclusions red vs. clear seen in H&E staining

Question 13

4 examples of cellular cholesterol accumulation

Answer 13

1. atherosclerosis - arterial plaque
2. xanthoma - hyperlipidemia
3. sites of necrosis w/ 2ndary inflammation
4. cholesterolosis - sub-epithelial plaque of gallbladder

Question 14

Cholesterol cleft

Answer 14

extracellular crystallization of cholesterol esters

Seen microscopically as clear crystalline clefts (ex. atherosclerotic plaque)

Question 15

Russel body

Answer 15

protein inclusion in plasma cell - excessive immunoglobin production

Question 16

3 examples of intracellular protein accumulation

Answer 16

1. proteinuria: increased protein reabsorption by proximal tubule cells - globular inclusions
2. Immunoglobin accumulation - Russell bodies in plasma cells
3. a1 antitrypsin mutation - misfolding of protein, no cellular export, accumulation in hepatocytic ER

Question 17

What is PAS staining used for?

Answer 17

Carbohydrate staining

Glycogen inclusions appear magenta (vs. clear in H&E stain)

Question 18

What cell type produces bilirubin?

Answer 18

Macrophages

Question 19

biliverdin

Answer 19

open chain form of porphyrin ring

formed in macrophage

Question 20

What is conjugated bilirubin and where is it found?

Answer 20

Bilirubin conjugated to glucuronides by glucuronidyl transferase
Produced in hepatocytes
found in biliary system

Question 21

What processes can be responsible for elevated serum conjugated bilirubin?

Answer 21

Hemolytic anemia - increase bilirubin production
Hepatocyte dysfunction - decrease conjugation
-genetic - inborn error of metabolism (glucuronyl transferase deficiency) - jaundiced baby
-acquired (virus or ETOH)

Question 22

What are causes of increased serum conjugated bilirubin?

Answer 22

Hepatocyte dysfunction - decreased bilirubin secretion
-genetic
-acquired
Cholestasis - intra or extrahepatic biliary obstruction

Question 23

What is a good lab test for cholestasis?

Answer 23

Alkaline phosphatase - increased levels indicative

- induced by bile stasis
- hepatic origin confirmed by increased GGT (gamma glutamyl transpeptidase) level

test for elevated conjugated bilirubin is less sensitive

Question 24

How is cholestasis appreciated microscopically?

Answer 24

Dilated greenish bile canaliculi and bile ducts in liver sections
w/ obstruction - biliary back-up, bilirubin pigment visible
also seen in hepatocytes.

Question 25

What stain is used to differentiate hemosiderin inclussions?

Answer 25

Prussian Blue

Question 26

3 etiologies of hypoxia

Answer 26

1. decreased oxygenation of blood
2. decreased oxygen carrying capacity of blood
3. ischemia

Question 27

5 etiologic factors of cell injury and death

Answer 27

1. ATP depletion
2. increased cytosolic Ca++
3. free radical generation
4. mitochondrial injury
5. cellular and subcellular membrane injury

Question 28

Deleterious reactions assoc. w/ ATP depletion

Answer 28

• decreased activity of Na/K ATPase -> increased intracellular H2O
• increased anaerobic glycolysis -> lactic acidosis
• decreased function of Ca++ pump -> enzymatic activation
• ER dysfunction -> decreased and abnormal protein synthesis

Question 29

What is the normal ratio of cytosolic to extracellular Calcium?

Answer 29

1:15,000

Question 30

What kind of necrosis is associated with acute pancreatitis?

Answer 30

Fatty necrosis

Inappropriate release of pancreatic lipases

Question 31

4 serum markers of necrosis

Answer 31

1. troponins (esp myocardial necrosis, e.g. MI)
2. transaminases (ALT / AST)
   
   • ALT: liver specific AST: also found in heart, kidney, skeletal muscle
3. lactate dehydrogenase - LD is non-specific
4. amylase and lipase - pancreas

Question 32

Serum Troponins

• indicate what?
• pathologic mechanism?

Answer 32

Sensitive and specific early marker of myocardial necrosis (via ischemia)

Significant membrane damage -> increased permeability -> increased serum troponin

Question 33

ALT / AST

-markers for what?

Answer 33

Transaminases
ALT: specific marker of hepatic necrosis
AST: assoc. w/ hepatic necrosis, but less specific. Also expressed in heart, kidney, sk. muscle

*level of elevation not indicative or predictive of extent of damage or prognosis

Question 34

LD / LDH

Answer 34

Lactate dehydrogenase

• non-specific serum marker for necrosis
• LD1: heart, erythrocytes
• LD2: WBC
• LD3: Lung
• LD4: Kidney, pancrease, placenta
• LD5: sk. muscle and liver

Question 35

Amylase and Lipase

-markers of what?

Answer 35

Pancreatic enzymes
Damage related to obstruction of pancreatic duct (gallstone)
Acinar cell injury
**Lipase more sensitive and specific for acute pancreatitis

Question 36

4 apoptotic pathways

Answer 36

Extrinsic: FAS - FASL -> activation of FADD (fas assoc. death domain) -> capsase activation

Intrinsic: decreased growth /survival factor -> increased pro-apoptotic gene expression (BAX) and decreased anti-apop gene expression (BCL-2) -> capsase

P53: DNA damage detected -> p53 -> cell cycle arrest and DNA repair. If fail -> increased BAX, decreased BCL-2 -> capsase

Perforin/Granzyme: Cytotoxic Tcell recognition of foreign Ag + MHC-I -> perforin release, then granzyme -> capsase activity

Question 37

Telomerase

Answer 37

Enzyme that regenerates telomeres after incomplete duplication during cell division

Question 38

Dystrophic calcification

Answer 38

takes place w/ normal serum Ca levels and metabolism
Cell damage -> increased permeability -> calcium influx -> addition of PO4 -> calcium phosphate crystals that can deposit in cells and tissues

Question 39

Psammoma bodies

Answer 39

Product of Dystrophic Calcification

• circular concretions w/ concentric layering
• papillary carcinomas

Question 40

What stain is used to differentiate amyloid from other extracellular aggregations?

Answer 40

Congo red
under light microscopy appears red-orange
under polarized light microscopy appears green-yellow biofringence

Question 41

What is amyloid?

Answer 41

extracellular accumulation of protein. May be normal or abnormal protein.
Usually normal, but misfolded. Must be produced in great enough quantity to overcome degradation.

Question 42

What are the major types of amyloid?

Answer 42

AL: Amyloid light chain: light chain of Ig (usually lambda)
AA: Amyloid associated: hepatic acute phase protein - serum amyloid-associated protein
AB: B-amyloid - brain only. Fragment of Amyloid Precursor Protein (APP)
a-secretase: soluble fragments
B-secretase: AB fragments -> amyloid plaque

Question 43

2 types (and subtypes) of localized amyloidosis

Answer 43

1. Cerebral Amyloidosis: AB amyloid (alzheimer’s and cerebral amyloid angiopathy)
2. Endocrine Amyloidosis: AE amyloid
   a) medullary thyroid carcinoma (from calcitonin w/ C cell malignancy)
   b) T2DM - amyloid or islet associated polypeptide
   c) isolated atrial amyloidosis - from ANF

Question 44

2 examples of hereditary amyloidosis

Answer 44

1. Familial Mediteranean Fever (AA)
   
   • Autosomal recessive - disorder of pyrin - recurrent fever and inflammation, overproduction of IL1
2. Familial Amyloidotic Neuropathies (ATTR)
   
   • Autosomal dominant disorder of transthyretin - peripheral and autonomic nerves

Question 45

What is the most common location of amyloid deposits and what are the symptoms?

Answer 45

Kidney

Proteinuria and eventual renal failiure

Question 46

What is primary amyloidosis?

Answer 46

Accumulation of light chain amyloid (AL) - systemic

Plasma cell dyscrasia: Multiple myeloma or Bcell lymphoma

Question 47

What is secondary amyloidosis?

Answer 47

Reactive amyloidosis - result of chronic inflammation (RA, IBD, TB). Long standing hepatic production of SAA -> eventual misfolding. Accumulation of AA

Question 48

What is hemodialysis associated amyloidosis?

Answer 48

Accumulation of AB2M

B2 retained in serum. Especially effects joints and tendon sheaths (carpal tunnel)

Question 49

What occurs in amyloidosis of the liver?

Answer 49

Amyloid accumulates in the space of Disse -> pressure atrophy of hepatocytes.

Generally no decline in liver function.

Question 50

What occurs in amyloidosis of the spleen?

Answer 50

Amyloid predominates in either white (sago spleen) pulp or red pulp (lardaceous spleen)

Results in increased number of platelets in peripheral blood since the amyloid filled organ can’t filter and sequester platelets.

Question 51

What happens in amyloidosis of the heart - what is the effect of different locations of deposit?

Answer 51

Subendocardial deposits: conduction disturbances and arrhythmias.

Myocardial deposits: pressure atrophy of cardiomyocytes -> restrictive cardiomyopathy -> CHF

Question 52

What type of amyloid is most typically associated with arthropathy or carpal tunnel?

Answer 52

AB2M

seen in hemodialysis patients

Question 53

In an inflammatory response what vessels become leaky?

Answer 53

Venules due to cell contraction and transcytosis and leukocyte mediated injury
Arterioles due to damage (burns, toxins)

Question 54

4 receptor types involved in leukocyte activation

Answer 54

TLR: binds microbial products (LPS)
G protein-coupled receptors: bind peptides, chemokines, C5a, AA metabolites
Cytokine receptor: binds cytokines (IFNgamma)
Opsonin receptor: binds IgG, C3b, etc.

Question 55

What is EGF and what does it do?

Answer 55

Epithelial Growth Factor - induces proliferation of epithelial cells and fibroblasts

Question 56

What is HGF and what does it do?

Answer 56

Hepatocyte Growth Factor - replication and motility of most epithelial cells

Question 57

What is VEGF and what does it do?

Answer 57

Vascular Endothelial Growth Factor - CRITICAL for angiogenesis

Question 58

What is PDGF and what does it do?

Answer 58

Platelet Derived Growth Factor - induces migration and replication of fibroblasts, smooth muscle cells and monocytes

Question 59

What is FGF and what does it do?

Answer 59

Fibrobalst Growth Factor - promotes angiogenesis and influx of cells needed for tissue regeneration and healing

Question 60

What is TGF-B and what does it do?

Answer 60

Transforming Growth Factor B - strong stimulus for fibrosis. Promotes motility and proliferation of fibroblasts and production of ECM components.
***inhibits inflammation: inhibits WBC and epithelial cell reproduction

Question 61

what is the signalling pathway for most healing associated Growth Factors?

Answer 61

GF -> Intrinsic Tyrosine Kinase Receptor

Receptor dimerization -> TK activity ->-> RAS and MAP Kinase

Question 62

What is compensatory hyperplasia? How is it initiated?

Answer 62

Restoration of functional mass (not anatomy) after injury
ex: partial liver removal

Cytokines (IL-6, TNF) and Growth Factors secreted by NON-PARENCHYMAL cells -> parenchymal proliferation

Question 63

What stain is useful to visualize collagen?

Answer 63

Trichrome - blue staining

Question 64

Myeloperoxidase

Answer 64

Neutrophil enzyme - in azurophilic granules
H2O2 + Cl- -> 2HOCl (hypochlorous acid)

Heme cofactor

Question 65

5 roles of macrophages in wound healing

Answer 65

Debridement: phagocytosis and collagenase
Antimicrobial: Nitric acid (HNO3), Reactive Oxygen Species
Chemotaxis (prolif. of fibroblasts and keratinocytes): PDGF, TGF-B, TNF, IL-1, KGF-7
Angiogenesis: VEGF, PDGF, FGF-2
Deposition / Remodelling of ECM: TGF-B, PDGF, TNF, OPN, IL-1, Collagenase, MMP

Question 66

What cell type is responsible for wound contraction? In what type of wound healing is this observed?

Answer 66

Myofibroblasts

Second Intention Wound Healing

Question 67

What is wound dehiscence?

Answer 67

Rupture of a wound along a surgical suture

Due to: malnutrition, circulatory status, infection, mechanical stress

Question 68

4 types of excessive scarring

Answer 68

1. “proud flesh” excessive granulation tissue
2. hypertrophic scar: excessive collagen deposition -> raised scar
3. keloid: extreme deposition of aberrant collagen bands -> extensive scarring
4. contracture: extensive wound contraction -> deformity

Question 69

4 major neutrophil chemotactic factors

Answer 69

C5a, TNF, leukotrienes, bacterial products

Question 70

What is the precursor to bradykinin and what does it do?

Answer 70

High Molecular Weight Kininogen

w/ Kallikrein increases activation of Hageman factor (factor XII)

Question 71

What is a “waived” test?

Answer 71

easily performed tests available at Physician’s office
-Pregnancy, Rapid strep, rapid flu, mono spot

Clinical laboratory improvement act (CLIA 88) - regulates lab testing

Question 72

What effect on lab results will physical activity have?

Answer 72

Transient: elevations in CK, AST, LD

Long lasting: elevation in some lipoproteins

Question 73

How long should a patient fast before lab testing?

Answer 73

About 12 hours for basal levels

Question 74

What lab parameters will chronic alcohol consumption effect?

Answer 74

Elevate hepatic GGT (gamma glutamyl transferase) and MCV (mean corpuscular volume)

Change in AST/ALT to 2:1

Question 75

Sensitivity =?

Answer 75

Sensitivity = True (+) / (True (+) + False (-))
sensitivity: capture all disease positive + some false positives.

Probability that test detects disease when disease is present
SnOUT

Question 76

Specificity = ?

Answer 76

Specificity = True (-) / (True (-) + False (+))
Probability that test indicates non-disease when disease is absent

SpIN

Question 77

Positive Predictive Value

Answer 77

Likelihood that a positive test identifies a person positive for disease

= True (+) / True (+) + False (+)

Question 78

Primary vs. secondary malnutrition

Answer 78

Primary: malnutrition due to inadequate intake
Secondary: other cause (Absorption, use/storage, increase loss, increase need)

Question 79

Symptoms of Vit A deficiency

Answer 79

Night blindness
squamous metaplasia and keratinization of corneal epithelium
xeropthalmia, keratomalacia, Bitot’s spots (clouding)
Immune deficiency
Follicular hyperkeratosis (skin)

Question 80

What is anascara?

Answer 80

Severe, widespread edema

Question 81

What is ascites?

Answer 81

Edema fluid w/in the peritoneal cavity

Question 82

In what disorder is periorbital edema sometimes seen?

Answer 82

Renal failure (nephrotic syndrome)

Question 83

When is hepatic periportal congestion seen?

Answer 83

Fatty liver change

Question 84

What is hemorrhagic diathesis?

Answer 84

Predisposition to bleed

Question 85

What causes petechiae?

Answer 85

1: Platelet problem: too few or abnormal (qualitative or quantitative)
2: Increased intravascular pressure (mechanical)

Question 86

4 ways in which uninjured endothelium is antithrombolitic

Answer 86

1. barrier
2. antiplatelet: Prostacyclin, NO, ADPase
3. anticoagulant: Heparin like molecules, thrombomodulin, TFPI
4. fibrinolytic: t-PA

Question 87

What is Trousseau Syndrome?

Answer 87

form of secondary hypercoagulability - migratory thrombophlebitis
Caused by malignancy - procoagulant factors produced by the tumor.

Question 88

What is heparin induced thrombocytopenia?

Answer 88

Life threatening complication of heparin therapy.
Occurs 5-10 days post exposure
Autoantibodies to heparin / PF4 complex -> platelet activation, amplification of coagulation pathway and hypercoagulability

Increased risk of large vessel thrombosis
Decreased platelet count (consumption and clearance)

Question 89

What is antiphospholipid antibody syndrome?

Answer 89

Secondary hypercoagulability
Mechanism not well understood
Ab to phospholipids and/or plasma proteins assoc. w/ phospholipids
Elevated aPTT and hypercoagulability - paradox
Primary: denovo (drug reaction) Secondary: autoimmune disease (lupus, etc)
recurrent thromboemboli, pregnancy complications, thrombocytopenia

Question 90

2 subtypes of thrombi

Answer 90

Mural - adherent to walls of large chambers: LV, aortic aneurism
Vegetation - attach to heart valves - infective and non-infective

Question 91

Findings associated with Disseminated Intervascular Coagulation

Answer 91

Prolonged PT and PTT
Decreased platelet count (thrombocytopenia)
Increased fibrin degradation products (D-dimer)

Question 92

What is a paradoxical embolus?

Answer 92

A systemic embolus originating in the venous circulation or right side of the heart that passes through a septal defect to enter systemic ciruclation.

Question 93

How do fat embolisms originate? What are the symptoms?

Answer 93

Long bone fractures, or rarely burns and extensive soft tissue injury

Fat embolism syndrome: vascular occlusion and endothelial injury:
-dyspnea, thrombocytopenia -> petechia, anemia

Question 94

What is caisson disease?

Answer 94

Chronic decompression sickness

-> multiple foci of ischemic necrosis (femoral heads, tibia, humeri)

Question 95

In what setting is bone marrow emboli most often seen?

Answer 95

CPR w/ rib fracture

Question 96

Define shock

Answer 96

Systemic hypoperfusion -> widespread hypoxia

Question 97

Differentiate cause, mechanism and means of death.

Answer 97

Cause: specific disease or injury that initiates process leading to death (natural or unnatural)
Mechanism: physiologic derangement that is incompatible with life
Means: one word summary about circumstances surrounding death: natural, unnatural, accident, suicide

Question 98

What percent arterial stenosis is critical?

Answer 98

70% stenosis

Question 99

WWWhat cell types are present in a fibrous plaque?

Answer 99

Sm. muscle, macrophage, T lymphocytes