Pathology

Question 1

what is hypertrophy?

Answer 1

an increase in cell size

Question 2

what is hyperplasia?

Answer 2

increase in cell number

Question 3

what is atrophy?

Answer 3

decrease in cell size and/or number; survival is maintained by decrease in function

Question 4

what is metaplasia?

Answer 4

replacement of one cell type by another

Question 5

important characteristics of necrosis?

Answer 5

• always pathologic
• have nuclear degradation
• disruption of plasma membrane
• digestive enzyme leakage
• cellular swelling
• inflammation

Question 6

important characteristics of apoptosis?

Answer 6

• can be normal or pathologic
• nuclear shrinkage and fragmentation into nucleosome size paritcles
• plasma membrane stays intact
• no leakage of enzymes and no inflammation

Question 7

what is coagulative necrosis?

Answer 7

protein denaturation but the cell and tissue framework remains

Question 8

when do you often see coagulative necrosis?

Answer 8

in hypoxia or ischemia

Question 9

what is liquefactive necrosis?

Answer 9

complete digestion of tissue - becomes liquid mass

Question 10

when do you often see liquefactive necrosis?

Answer 10

in bacterial infections and hypoxia of CNS

Question 11

what is gangrenous necrosis?

Answer 11

when coagulative necrosis occurs in the extremities, called wet gangrene when accompanied with bacterial infection

Question 12

what is caseous necrosis?

Answer 12

a type of necrosis where it looks cheesy - it is friable and proteinaceous

Question 13

when do you see caseous necrosis?

Answer 13

tuberculosis

Question 14

what is fat necrosis?

Answer 14

when lipases spill out into adipose tissue and the fat cells are liquefied - the fatty acids are released and combine with calcium to produce chalky areas

Question 15

what is fibrinoid necrosis?

Answer 15

when proteins (ab/antigens often) are deposited in blood vessels

Question 16

what are the two pathways for apoptosis?

Answer 16

mitochondrial and death receptor pathways

Question 17

describe the mitochondrial pathway for apoptosis.

Answer 17

cellular stress causes BCL proteins to be activated, they activate Bax and Bak which insert into mitochondrial membrane and create pores, cytochrome C is released and activates caspases which cause apoptosis

Question 18

describe the death receptor pathway of apoptosis.

Answer 18

the plasma membrane death receptor binds with its ligand (TNF, Fas receptors) and this binding signals caspases that control apoptosis

Question 19

what are some morphological features of reversible cell injury?

Answer 19

fatty change (lipid vacuoles in cytoplasm) and cellular swelling

Question 20

what can fatty change be a sign of?

Answer 20

alcohol abuse, diabetes

Question 21

what is lipofuscin?

Answer 21

it is the “wear and tear” pigment common in aging - it is a sign of free-radical injury and lipid peroxidation; it’s yellow-brown

Question 22

what is hemosiderin?

Answer 22

it’s a golden yellow-brown pigment that is a storage form of iron

Question 23

what is dystrophic calcification?

Answer 23

calcium deposition when there is necrosis, can occur in normal calcium metabolic situations)

Question 24

what is metastic calcification?

Answer 24

this occurs when calcium metabolism is out of balance - usually with hypercalcemia (no necrosis)

Question 25

what are the key events of acute inflammation?

Answer 25

vascular dilation, exudation, leukocyte migration and accumulation

Question 26

describe histamine’s function as a mediator of acute inflammation.

Answer 26

histamine is made in mast cells, platelets, and basophils; it causes increased vascular permeability, vasodilation, and it activates endothelial cells to prep for leukocyte migration

Question 27

describe serotonin’s function as a mediator of acute inflammation.

Answer 27

serotonin is made in platelets and it functions to increase vascular permeability and vasodilate

Question 28

describe thromboxane’s function as a mediator of acute inflammation.

Answer 28

thromboxane is made by the cyclooxygenase pathway and it functions to vasoconstrict and cause platelet aggregation

Question 29

describe prostacyclin’s function as a mediator of acute inflammation.

Answer 29

prostacyclin is made by the cyclooxygenase pathway and it funcitons to vasodilate and inhibit platelet aggegation.

Question 30

describe prostaglandin’s function as a mediator in acute inflammation.

Answer 30

prostaglandin is made by the cyclooxygenase pathway and it functions to increase vascular permeability, vasodilate, cause fever.

Question 31

describe leukotriene B’s function as a mediator of acute inflammation

Answer 31

a product of the lipoxygenase pathway (5-LO)and it functions as a chemotactic susbtance for neutrophils (and can also activate them)

Question 32

describe the functions of leukotrienes C, D, E in acute inflammation

Answer 32

these are products of the lipoxygenase pathway (5-LO) and their function is to cause neutrophil activation and adhesion as well as bronchospasm and increased vascular permeability and vasodilation

Question 33

describe the funciton of lipoxin in acute inflammation

Answer 33

this is a product of the lipoxygenase pathway (12-LO) and it functions to inhibit neutrophil adhesion and chemotaxis (anti-inflammatory)

Question 34

describe the function of platelet activating factor in acute inflammation

Answer 34

made by platelets, mast cells, endothelial cells, and leukocytes; functions to

• bronchoconstriction
• oxidative burst
• vascular permeability and vasodilation
• leukocytes adhesion
• chemotaxis
• platelet aggregation

Question 35

what do TNF/IL-1 do locally?

Answer 35

they increase endothelial adhesion molecule expression, they increase vascular permeability and vasodilation, they activate leukocytes, and cause production of chemokines, cause fibroblast proliferation and collagen synthesis

Question 36

what do TNF/IL-1 do systemically?

Answer 36

cause fever, leukocytosis, acute phase response, decrease appetite, increase sleep need

Question 37

what cells do CXC chemokines act on?

Answer 37

neutrophils

Question 38

what cells do CC chemokines act on?

Answer 38

basophils, eosinophils, lymphocytes, and monocytes

Question 39

what cells do C chemokines act on?

Answer 39

lymphocytes

Question 40

what cells do CX3C chemokines act on

Answer 40

mononuclear cells

Question 41

describe the function of reactive oxygen species in inflammation.

Answer 41

they are made by NADPH oxidase in leukocytes (among other cells) and they function to destroy microbes and can even cause endothelial injury to increase vascular permeability

Question 42

what antioxidants can take care of ROSs?

Answer 42

glutathione, SOD, and catalase

Question 43

what is the role of nitric oxide in acute inflammation?

Answer 43

NO is made in neural cells (nNOS), endothelial cell (eNOS) where it is constituitively being made and in macrophages (iNOS) where it is induced by IL-1, TNF, IFN-gamma, and endotoxin
it is made by NO synthase from L-arginine

Question 44

what mediators stimulate the production of NO is macrophages?

Answer 44

IL-1, TNF, IFN-gamma, and endotoxin

Question 45

what are the three types of proteases present in the large azurpohilic granules of neutrophils

Answer 45

acid proteases, neutral proteases, anti-proteases

Question 46

what are three complement inhibitors?

Answer 46

C1 inhibitor, decay accelerating factor and CD59 which prevent formation of C3 convertase

Question 47

how is bradykinin made and what does it do?

Answer 47

kininogen is cleaved by kallikrein to make bradykinin which functions to increase vascular permeability, cause smooth muscle contraction and vasodilation

Question 48

what are three ways to increase vascular permeability?

Answer 48

• intracellular gaps form when endothelial cells are signalled
• cell injury from external
• intential cell injury from ROS/NO

Question 49

what are the protein interactions responsible for leukocyte rolling?

Answer 49

the sialyated-lewis glycoproteins on the leukocytes bind to E and P selectins on endothelial cells

Question 50

what stimulates expression of E selectins on leukoctyes?

Answer 50

TNF and IL-1 from macrophages

Question 51

what stimulates expression of P selectins on leukocytes?

Answer 51

histamine!

Question 52

what are the protein interactions that are responsible for tight adhesion?

Answer 52

integrins on the leukocyte bind to ICAM-1 and VCAM-1 which are induced by TNF

Question 53

what protein is responsible for diapedesis?

Answer 53

PECAM-1 driven by chemokines

Question 54

what are the four ways leukocytes are activated?

Answer 54

1. chemokines binding to GPCRs
2. microbes binding to toll-like receptors
3. cytokines binding to receptors
4. microbes binding to phagocytic receptors

Question 55

what are the hallmarks of chronic inflammation?

Answer 55

prolonged duration, lymphocytes, macrophages abundant, healing and inflammation occurring in unison, fewer local and systemic signs

Question 56

what are the two ways that macrophages can become activated?

Answer 56

classical pathways (pro-inflammatory) via IFN-gamma
 and the alternative pathway (anti-inflammatory) via IL-14, 3

Question 57

which interleukins activate T lymphocytes

Answer 57

IL12, IL6, and IL23 from macrophages

Question 58

what are eosinophils activated by?

Answer 58

eotaxin - a CC chemokine

Question 59

how do eosionophils combat their targets?

Answer 59

they participate in allergic rxns and are activated by parasites - they use MBP (major basic proteins) that are toxic to parasites (but also lyses mammalian cells)

Question 60

what is serous inflammation?

Answer 60

characterized by transudate (protein poor fluid) building up in spaces created by cell injury or in body cavities lined by thin layers of tissue

Question 61

what is fibrinous inflammation

Answer 61

when vascular permeability is so great that fibrinogen gets though and fibrin is deposited in the tissues (exudate obvs); can lead to scarring

Question 62

what is suppurative inflammation?

Answer 62

characteristics include protein rich exudate that often has dead leukocytes and cell debris in it - PUS

Question 63

what is the most common cause of suppurative inflammation?

Answer 63

bacterial infections that cause liquefactive necrosis

Question 64

what is an abscess?

Answer 64

it is a type of suppurative inflammation in which the pus is in a localized area like a tissue, organ, or confined space

Question 65

what is an ulceration?

Answer 65

removal of the overlying epithelium of a tissue by necrosis and sloughing off of dead tissue - this happens when necrosis occurs near the surface of a tissue

Question 66

what is granulomatous inflammation?

Answer 66

characterized by focal accumulations of epitheliod macrophages that often fuse to form giant cells; have a lymphocyte collar around accumulation, can have CASEOUS necrosis in the center

Question 67

what kind of necrosis is typically seen with granulomatous inflammation?

Answer 67

caseous necrosis

Question 68

what is fibrosis?

Answer 68

deposition of collagen as a consequence of chronic inflammation - provides structural strength and allows function

Question 69

what are periendothelial cells?

Answer 69

aka pericytes, these are contractile cells that surround the blood vessels - they migrate in at the end of angiogenesis

Question 70

what are MMPs?

Answer 70

these are matrix metallo-proteins and they are involved in ECM changes after scar formation

Question 71

what are some characteristics of granulation tissue?

Answer 71

proliferating fibroblasts and endothelium, highly vascularized loos connective tissue - edema; some leukocytes can remain

Question 72

what cell is most important in scar formation?

Answer 72

the macrophage - this cell directs angiogenesis and ECM deposition

Question 73

viral infections see the increase in which wbc?

Answer 73

lymphocytes!

Question 74

bacterial infections see the increase in which wbc?

Answer 74

neutrophils

Question 75

parasitic infections see the increase of which wbc?

Answer 75

eosinophils!

Question 76

what are some acute phase reaction proteins?

Answer 76

CRP, SAA, and fibrinogen

Question 77

what do CRP and SAA do int he acute phase response?

Answer 77

they acts as opsonins and help fix the complment

Question 78

what does fibrinogen do in the acute phase response?

Answer 78

it causes RBCs to aggregate, which increases the erythrocyte sedimentation rate

Question 79

how do we get a fever?

Answer 79

pyrogens stimulate prostaglandin which increases cAMP

Question 80

what is the epidermal growth factor (EGF)?

Answer 80

it stimulates mitosis for keratinocytes and fibroblasts, important in granulation tissue

Question 81

what is the vascular endothelial growth factor?

Answer 81

mitogenic for endothelial cells and causes increased vascular permeability

Question 82

what is the platelet derived growth factor?

Answer 82

many function but it is chemotactic for many cells, it acitvates lots of cell, stimulates production of ECM components (MMPs, fibronectin, and HA) and it stimulates angiogenesis

Question 83

what are the two ways fluid dynamics can cause edema?

Answer 83

increased hydrostatic pressure on the arterial side of capillaries and blockage of blood outflow on the venous side of capillaries

Question 84

what is hyperemia?

Answer 84

it is an active process due to augmented blood flow from arteriolar dilation (like in exercise or inflammation)

Question 85

what is congestion?

Answer 85

it is a passive process caused by impaired outflow and subsequent capillary engorgement

Question 86

what is acute congestion?

Answer 86

vessels simply become distended and organs become hyperemic

Question 87

what is chronic congestion?

Answer 87

it is when capillaries may rupture, may get a hemorrhage and may get hemosiderin-laden macrophages; this can happen in the lungs and liver (nutmeg liver) causing organ atrophy or death with fibrosis

Question 88

what is transudate?

Answer 88

low protein content fluid; specific gravity <1.020

Question 89

what is exudate?

Answer 89

high protein content fluid; specific gravity >1.020

Question 90

what are three types of exudate?

Answer 90

suppurative (pus), serosanguinous (blood-tinged), hemorrhagic (bloody)

Question 91

what is pleural effusion?

Answer 91

edema between the lungs and the chest cavity (aka hydrothorax, pyothorax is pus, hemothorax is bloody)

Question 92

what is anasarca?

Answer 92

whole body edema (characteristic of renal disease)

Question 93

what is ascites?

Answer 93

fluid in the peritoneal cavity

Question 94

what are petechiae?

Answer 94

small, 1-2mm hemorrhages in the skin, mucous membranes or serosal surfaces

Question 95

what are purpura?

Answer 95

hemorrhages greater than 2mm (due to trauma, local vascular inflammation)

Question 96

what are ecchymoses?

Answer 96

1-2cm subcutaneous hematoma associated with trauma or bleeding disorders

Question 97

what does endothelin do?

Answer 97

it works with the “reflex neurogenic mechanisms” to cause transient vasoconstriction after endothelial injury

Question 98

what does vWF do and where is it made?

Answer 98

vWF allows platelets to bind to it via the GPIb receptor to begin to lay them over an injured area; it is made by endothelial cells

Question 99

what is in the alpha granules of platelets?

Answer 99

P-selectin so that more platelets can attach, growth factors, and coagulation factors

Question 100

what is in the delta (dense) granules of platelets?

Answer 100

ADP, Ca2+, and vasoactive amines

Question 101

what does ADP do in coagulation?

Answer 101

ADP causes receptors on the platelets to change conformation (GPIIb-IIa) which allows fibrinogen to attach to the platelets

Question 102

what does the phospholipid complex on platelets do?

Answer 102

it acts as a location for calcium and coagulation factors to go in order to start the coagulation cascade

Question 103

how is the intrinsic pathway of the coagulation cascade initiated?

Answer 103

using Hageman factor (XII)

Question 104

how is the extrinsic pathway of the coagulation pathway initiated?

Answer 104

tissue factor that is released by endothelial cells (stimulated to be made by TNF/IL-1 or endotoxin)

Question 105

in the extrinsic pathway what factor does tissue factor activate?

Answer 105

factor VII

Question 106

what do both the intrinsic and extrinsic pathways activate as they converge?

Answer 106

thrombin

Question 107

what does thrombin do?

Answer 107

thrombin converts the soluble fibrinogen to the insoluble fibrin - forming the secondary platelet plug

Question 108

name the anti-coagulation factors (there are 11!)

Answer 108

antithrombin, heparin, protein C, protein S, thrombomodulin, tissue factor pathway inhibitor, tissue plasminogen activator, urokinase, plasmin, prostacyclin, NO, adenosine phosphatase

Question 109

what does antithrombin do?

Answer 109

inhibits thrombin (so you don;t get fibrin production)

Question 110

what does heparin do?

Answer 110

activates antithrombin

Question 111

what do protein C and protein S do?

Answer 111

inactivate cascade factors

Question 112

what does thrombomodulin do?

Answer 112

binds to and changes thrombin which then activates protein C (get inactivation of cascade factors)

Question 113

what does tissue factor pathway inhibitor do?

Answer 113

it inactivates Xa and VIIa (tissue factor)

Question 114

what do tissue plasminogen activator and urokinase do?

Answer 114

make plasminogen into plasmin

Question 115

what does plasmin do?

Answer 115

breaks down fibrin

Question 116

what do prostacyclin and NO do?

Answer 116

inhibit platelet aggregation

Question 117

what does adenosine phosphatase do?

Answer 117

degrades ADP

Question 118

what type of environment do venous thrombi occur?

Answer 118

they occur at sites of stasis and are occlusive; most commonly they affect the lower extremity veins

Question 119

what type of environment do arterial thrombi occur in?

Answer 119

they occur at sites of endothelial injury or turbulence, they are nonocclusive (aka mural)

Question 120

what are the lines of Zahn?

Answer 120

pale layers of platelets and fibrin alternative with darker, erythrocyte-rich layers present in arterial thrombi

Question 121

where does venous thrombosis occur? and what does it lead to?

Answer 121

occurs in deep or superficial leg veins and can cause congestion and swelling (edema)

Question 122

what are two possible causes of arterial/cardiac thrombosis?

Answer 122

atherosclerosis and myocardial infarction

Question 123

what are consequences of arterial/cardiac thrombosis?

Answer 123

loss of blood supply/ischemic necrosis (coagulative)

Question 124

what are some heritable hypercoagulable states?

Answer 124

factor V gene mutations, deficiencies in antithrombin III, protein C, and protein S

Question 125

what is the factor V gene mutation?

Answer 125

it causes a hypercoagulability state in which factor V is resistant to being inactivated by protein C

Question 126

what are some acquired hypercoagulable states?

Answer 126

prolonged bed rest, tissue injury, cancer, HITS (heparin-induced thrombocytopenia), antiphospholipid antibody syndrome, drugs (estrogen), smoking

Question 127

what are some clinical warning signs to hypercoagulable states?

Answer 127

repeated miscarriages, stroke in young person, recurrent thrombosis/emboli, resistance to anticoagulation

Question 128

what is infarction?

Answer 128

an area of ischemic necrosis caused by occlusion of either arterial supply or venous drainage

Question 129

what is a red infarct?

Answer 129

it occurs in venous occlusion, loose tissues, tissues with dual blood supply, the gut, and sites of previous occlusion and necrosis where flow has been reestablish

Question 130

what is a white infarct?

Answer 130

it occurs in solid organs with end arterial blood

Question 131

what are factors that affect whether an infarction occurs?

Answer 131

what the vascular supply is like (dual supply is better), rate of occlusion development (slow is better), vulnerability of tissue to hypoxia (tissues that can last longer without oxygen are better - fibroblasts vs. neurons), and oxygen content of blood (higher is better)

Question 132

what is a pulmonary thromboembolism?

Answer 132

it is when one or more pulmonary arteries are blocked; often come from thromboses in the lower extremities

Question 133

what is disseminated intravascular coagulation?

Answer 133

this is when coagulative proteins become overactive; manifested by bleeding and thrombosis concurrently