Circulatory Dysregulation

Question 1

What is edema?

Answer 1

excess accumulation of fluid

Question 2

What does edema result from?

Answer 2

altered vascular homeostasis

Question 3

What does edema result in?

Answer 3

change in net movement of water across vascular wall

Question 4

What are some edemas in the body cavities?

Answer 4

1. Hydrothorax
2. hydropericardium
3. Hydroperitoneum (ascites)

Question 5

What is an edema in the interstitial tissue spaces called?

Answer 5

anasarca- generalized edema

Question 6

What are the MAJOR causes of edema?

Answer 6

1. increased hydrostatic pressure in vessels = heart failure
2. Decreased plasma oncotic pressure= hypoproteinemia
3. Vascular permeability is altered= allergic response-histamine

Question 7

what are other causes of adema?

Answer 7

4. increased sodium retention

5. lymphatic obstruction or damage

Question 8

What two types of edema are due to congestive heart failre?

Answer 8

1. pulmonary edema

2. peripheral (subcutaneous edema)

Question 9

What causes LEFT sided heart failure?

Answer 9

1. accumulation of fluid in alveoli of lung

2. increased hydrostatic pressure in pulmonary vascular bed= resulting from failure of the left side of the heart

Question 10

What causes RIGHT side heart failure?

Answer 10

1. accumulation of fluid in subcutaneous tissues
2. caused by increased hydrostatic pressure in the systemic venous system= resulting from failure of the right side of the heart

Question 11

What causes decreased plasma oncotic pressure?

Answer 11

hypoproteinemia (insufficient albumin)

Question 12

What is nephrotic syndrome?

Answer 12

loss of protein in kidney

Question 13

What does hypoproteinemia lead to?

Answer 13

1. nephrotic syndrome

2. decreased albumin production by cirrhotic lier

Question 14

What causes altered vascular permeability?

Answer 14

1. allergic responses liberating histamine
2. acute inflammation
3. burn injury

Question 15

What is primary increased sodium retention associated with?

Answer 15

renal disorders

Question 16

What is secondary increased sodium retention associated with?

Answer 16

congestive heart failure
-decreased cardiac output–> decreased renal blood flow–> activation of renin-angiotensin system–> aldosterone activated–> retention of sodium and water

Question 17

What causes lymphatic obstruction?

Answer 17

tumor or damage to lymphatics

Question 18

What does lymphatic obstruction lead to ?

Answer 18

lymphedema

Question 19

What is transudate?

Answer 19

non-inflammatory edema fluid that results from altered intravascular hydrostatic pressure or osmotic pressure= low protein content and specific gravity

Question 20

What are the transudate values?

Answer 20

low protein content and specific gravity

Question 21

What is exudate?

Answer 21

Edema fluid from increased vascular permeability as a result of inflammation

Question 22

What are the exudate values?

Answer 22

1. high protein contenet and specificity> 1.020
2. contains large numbers of inflammatory leukocytes which consume glucose and thus results in fluid with greatly reduced glucose content

Question 23

What are 4 types of edema?

Answer 23

1. Anasarca
2. Hydrothorax
3. Hydropericardium
4. Hydroperitoneum (Ascites)

Question 24

What is anasarca?

Answer 24

generalized edema

Question 25

What is hydrothorax?

Answer 25

Accumulation of fluid in the pleural cavity

Question 26

Hydropericardium

Answer 26

Abnormal accumulation of fluid in the pericardial cavity- may result in cardiac tamponade

Question 27

What is hydroperitoneum (ascites)?

Answer 27

abnormal accumulation of fluid int he peritoneal cavity

Question 28

What is hyperemia?

Answer 28

It is localized increased in the volume of blood in capillaries and small vessels

Question 29

Where does chronic passive congestion occur

Answer 29

lung, liver, and lower extremities

Question 30

What causes a hemorrhage?

Answer 30

rupture of blood vessels

Question 31

In a hemorrhage, escape of blood from the vasculature goes into?

Answer 31

1. surrounding tissues
2. hollow organ
3. body cavity
4. to the outside

Question 32

What is a thrombus?

Answer 32

A structured solid mass composed of elements derived from the coagulation cascade

Question 33

What is considered as a dynamic biologically active structure, rather than a passive plug?

Answer 33

a thrombus!

Question 34

What is in a thrombus/coagulation cascade?

Answer 34

platelets, insoluble fibrin, embedded RBCs

Question 35

What are the 3 main pro-thrombotic factors?

Answer 35

1. endothelial dysfunction
2. changes in the flow patter of blood
3. changes in the potential blood coagulability

Question 36

What causes endothelial dysfunction?

Answer 36

Direct Injury

• trauma and inflammation
• atheroma

Question 37

What is a result of the activation of the normal blood coagulation system?

Answer 37

thrombosis

Question 38

What are there types of thrombi?

Answer 38

thrombi in diff parts of the circulation have different causative factors and different appearances

Question 39

What are the 4 types of thrombi?

Answer 39

1. arterial thrombus
2. venous thrombus
3. occlusive thrombus
4. mural thrombus

Question 40

What kind of thrombus occurs in areas of fast moving blood flow?

Answer 40

Arterial Thrombus

Question 41

What is an arterial thrombus made of?

Answer 41

layers of platelets interspersed with layers of fibrin containing entrapped RBC’s= lines of Zahn

Question 42

What are lines of Zahn

Answer 42

layers of fibrin with trapped RBCs

Question 43

What kind of thrombus does not contain lines of Zahn?

Answer 43

Venous Thrombus (Phlebothrombosis)
- dark red, soft, & gelitanous with greater proportion of entrapped RBCs relative to amount of platelets/fibrin

Question 44

What kind of thrombus occurs in areas of slow moving blood flow most often in veins of lower extremities and periprostatic or other pelvic veins?

Answer 44

venous thrombus (phlebothrombosis)

Question 45

What is fibrinolysis?

Answer 45

As a vessel wall is repaired, a small platelet/fibrin thrombus is normally removed via fibrinolysis

Question 46

What is a multi-enzyme process that destroys fibrin filament meshwork allowing dissolution of the thrombus?

Answer 46

fibrinolysis

Question 47

How does fibrinolysis occur?

Answer 47

the enzyme plasmin cleaves fibrin

-formed from plasminiogen

Question 48

Where is plasminogen derived from?

Answer 48

endothelial cells

• usually inhibited by plasminogen activator inhibitor
• activated protein C prevents inhibition thereby facilitating fibrinolysis

Question 49

What are the 4 main outcomes of occlusive thrombi?

Answer 49

1. lysis by the fibrinolytic system
2. propagation (pathologic thrombus)
3. Organization and recanalization
4. Thromboembolism

Question 50

What is Thromboembolism?

Answer 50

Fragments break off thrombus and carried by the circulation to impact other vessels

Question 51

What is an embolism?

Answer 51

occlusion of a vessel by a mass of material that is transported in the blood stream (an embolus)

Question 52

What causes the most common type of embolus?

Answer 52

Fragments of circulating thrombus (thromboembolus)

Question 53

How does Thromboembolus occur?

Answer 53

Fragment breaks off site of thrombosis and blood circulation carries it to a point where it meets a blood vessel with a lumen too small to permit further passage

Question 54

What is the most common preventable cause of sudden death in a hospital patient?

Answer 54

Pulmonary thromboembolism

Question 55

What usually causes pulmonary thromboemblism?

Answer 55

thrombosis of deep leg vein

-calf, popliteal, femoral, iliac veins

Question 56

What are other rare sources of pulmonary thromboembolism?

Answer 56

• periprostatic venous plexus in males

- small pelvic veins in women

Question 57

What are the consequences of pulmonary thromboembolism?

Answer 57

• increase in pulmonary arterial pressure

- ischemia of the lung

Question 58

What are clinical predisposers of pulmonarythromboembolism

Answer 58

immobility and bed rest (postoperative period, pregnancy and post partum), nephrotic syndrome, severe burns, trauma, cardiac failure, disseminated malignancy

Question 59

What are the 4 types of pulmonary thromboembolism?

Answer 59

1. massive pulmonary embolism (5%)
2. major pulmonary embolism (10%)
3. minor pulmonary embolism (85%)
4. recurrent minor pulmonary embolism

Question 60

What is massive pulmonary embolism (5%)?

Answer 60

If 60% of pulmonary vasculature if suddenly blocked, then the heart cannot pump blood through the lungs–> cardiovascular collapse–> beat with no output–> rapid death

Question 61

What is major pulmonary embolism (10%)?

Answer 61

• blockage of middle-sized pulmonary arteries

- breathlessness; infarction of lungs (10%); hemoptysis; pleuritic chest pain; can lead to massive type if untreated

Question 62

Where does a saddle embolus travel?

Answer 62

pulmonary artery bifurcation

Question 63

What does the saddle embolus do?

Answer 63

• travels to the pulmonary artery bifurcation

- straddles the bifurcation and blocks pulmonary circulation

Question 64

What does a saddle embolus result in?

Answer 64

hemorrhagic pulmonary infarct

Question 65

What is a minor pulmonary embolism (85%)?

Answer 65

• blockage of small peripheral vessels by small emboli

- asymptomatic or breathlessness, pleuritic chest pain; can lead to massive type if untreated

Question 66

What is recurrent minor pulmonary embolism?

Answer 66

• very rare

- blockage of many small vessels over many months–> pulmonary hypertension

Question 67

What are the key facts to know about pulmonary thromboembolism?

Answer 67

• usually follows thrombosis in leg veins, often deep calf veins
• small pulmonary emboli impact peripheral branches of the pulmonary artery and cause pulmonary infarcts
• a small pulmonary embolus (PREMONITORY EMBOLUS) may be followed by a much larger fatal embolus
• large pulmonary emboli may impact in and obstruct a major pulmonary artery to cause sudden death

Question 68

What is the best way to prevent pulmonary embolus?

Answer 68

prevention of leg vein thrombosis

Question 69

What are the sites of origin for arterial emboli?

Answer 69

• mural thrombus (adherent to wall of a heart chamber or major artery)
• at junction of internal and external carotid artery
• left ventricle
• left atrium (atrial thrombosis)

Question 70

What are mural thrombuses of the left atrium (artrial thrombosis) associated with?

Answer 70

mitral stenosis or atrial fibrillation

Question 71

What causes a mural thrombus of the left ventricle?

Answer 71

MI

Question 72

What is an infarct?

Answer 72

tissue of necrosis due to interference with blood flow

Question 73

What results from ischemia?

Answer 73

infarction

• failure of adequate blood supply to a tissue causes a cell damage and coagulative tissue necrosis
• major cause of morbidity and mortality

Question 74

What are major causes of morbidity and mortality?

Answer 74

myocardial infarction, cerebral infarction, pulmonary infarction, gangrene of lower limb, bowel infarction

Question 75

What are most infarctions caused by?

Answer 75

obstruction of arterial supply to a tissue; some due to blockage of venous drainage

Question 76

What shapes the infarct according to the territory of supply of the blocked vessel?

Answer 76

artery blockage

-occlusion of small vessels results in wedge-shaped infarct with the occluded vessel at the apex

Question 77

What are the two types of infarctions?

Answer 77

1. red (hemorrhagic) infarcts

2. white (ischemic) infarcts

Question 78

Describe white infarcts

Answer 78

arterial insufficiency AND not reperfused AND single blood supply

Question 79

Describe red infarcts

Answer 79

Venous insufficiency OR reperfused OR dual blood spply

Question 80

Red (Hemorrhagic) infarcts

Answer 80

“Red because RBCs ooze into necrotic tissue
-loose, well vascularized tissue with redundant arterial blood supplies (hemorrahge into the infarct occurs from the nonobstructed portion of the vasculature

Question 81

Where do red infarcts occur?

Answer 81

lung, GI tract, liver testes, brain (venous sinus occlusion by thrombosis)

Question 82

What does slow occlusion of a vessel result in?

Answer 82

• development of a collateral circulation- not in areas supplied by a single artery OR
• tissue undergoes ischemic atrophy(not infarction)

Question 83

What happens to tissues that undergo ischemic atrophy?

Answer 83

• specialized cells shrink

- support tissue becomes amorphous pink staining and hyalinized

Question 84

**What is an infarction?

Answer 84

death of tissue due to anoxia following abrupt interference with the blood supply

Question 85

**What is an arterial infarction?

Answer 85

Sudden obstruction to the arterial supply to a tissue or organ

Question 86

**What is a venous infarction?

Answer 86

sudden and persistent obstruction to venous drainage of an organ or tissue

Question 87

What is shock?

Answer 87

• clinical state associated with generalized (systemic) failure of tissue perfusion due to reduction in tissue blood flow and manifested by hypotension
• circulatory collapse with decreased oxygenation of tissues

Question 88

What are the diff types of schock?

Answer 88

cardiogenic, hyovolemic, septic, anaphylactic

Question 89

What is cardiogenic shock?

Answer 89

circulatory collapse from pump failure of the left ventricle most often caused by massive myocardial infarction

Question 90

What is hypovolemic shock?

Answer 90

• acute reduction in circulating blood volume caused by severe hemorrhage or massive loss of fluid from the skin from extensive burns or free severe trauma OR
• loss of fluid from GI tract through severe vomiting or diarrhea

Question 91

What is septic shock most often associated with?

Answer 91

gram neg infections–> gram neg endotoxemia

Question 92

What is the result of septic shock?

Answer 92

initial vasodilation–> increased blood flow–> significant peripheral pooling–> relative hypovolemia and impaired perfusion

Question 93

What is the result of a septic gram neg endotoxemia?

Answer 93

lippolysaccharide endotoxin–> cytokines–> direct toxic injury to vessels–> coagulation pathway and DIC or
superantigens in toxic shock syndrome (staphylococcus aureus)

Question 94

What is anaphylactic shock most associated with?

Answer 94

Type 1 hypersensitivity reaction

Question 95

What is neurogenic shock?

Answer 95

sudden loss of the Autonomic Nervous System signals to the Smooth muscle in vessel walls (results from severe CNS damage)
or
sudden loss of background sympathetic stimulation (vessels suddenly relax resulting in a sudden decrease in peripheral vascular resistance (vasodilation ) and decreased blood pressure

Question 96

Is acute tubular necrosis of kidney reversible?

Answer 96

Yes, w/ appropriate medical management

Question 97

What are morphologic manifestations of shock?

Answer 97

acute tubular necrosis of kidney, (most important)

• areas of brain necrosis
• centrilobular necrosis of the liver
• fatty changes of heart or liver
• patchy mucosal hemorrages in the colon
• depletion of lipid in the adrenal cortex
• pulmonary edema

Question 98

What is a sign of shock in the kidneys?

Answer 98

necrosis of tubular epithelium

Question 99

What are the 3 pathways of the coagulation cascade?

Answer 99

common pathway
extrinsic pathway
intrinsic pathway

Question 100

What is the common pathway of the coagulation cascade?

Answer 100

• results in cross linked fibrin
• thrombin is the key protease **
• has feedback to activate co-factors, other proteases and thus amplifies the cascade

Question 101

What is the extrinsic pathway of the coagulation cascade?

Answer 101

coagulation initiated by Tissue Factor (generated by damaged tissue) interacting with factor VII

Question 102

What is the intrinsic pathway of the coagulation cascade?

Answer 102

coagulation initiated by contact with surface agents (collagen, kallikrein) acting through factor XII

• currently thought to have minor role for in vivo coagulation
• activation of factor XI and coagulation stimulation is seen mainly after severe injury (e.g. trauma)