Exam 2: Cardiovascular Diseases

Question 1

Causes of Hypertension:

Essential Hypertension

Answer 1

Sustained pressure increase (systolic over 140 and/or diastolic over 90)
Complex Multigenic disorder

Stress, obesity, smoking, inactivity, heavy salt consumption, genes whose products affect sodium reabsorption

Question 2

Causes of Hypertension:

Secondary Hypertension

Answer 2

Renal Dysfunction
Endocrine Dysfunction
Cardiovascular Dysfunction
Neurologic Dysfunction

Parts of the body that participate in regulating blood volume

Question 3

Hypertension

Hypertension

Answer 3

Regulation of Blood pressure through hormones, renal function, and heart function

Question 4

Hypertension

Hyaline Arteriosclerosis

Answer 4

Protein deposits
Narrow lumen of vessels
Associated with benign hypertension
Leak of plasma proteins pas damaged endothelial cells
Glassy eosinophilic membrane

Question 5

Hypertension

Hyperplastic Arteriosclerosis

Answer 5

Onion-skinning
smooth muscle and basemnt membrane overgrowing in response to the pressure increase
Associated with severe hypertension

PAS staining for basement membrane

Question 6

Atherosclerosis

Characteristics of Atherosclerosis

Answer 6

Type of arteriosclerosis
Characterized by formation of atheromas
* atherosclerotic plaques
* lesion in tunia intima
* projecs into the lumen

Core is lipids w/ fibrous cap

Question 7

Atherosclerosis

Pathogenesis of Atherosclerosis

Answer 7

1. Endothelial cell dysfunction
2. Formation of the atherosclerosis plaque
3. T cells-macrophage interaction
4. Fracture of the plaque and thrombosis

Question 8

Pathogenesis of Atherosclerosis

1. Endothelial Injury

Answer 8

Plaques initiate at sites where endothelium is intact
Results from endothelial dysfunction

Question 9

Pathogenesis of Atherosclerosis

Most important contributors to Pathogenesis of Atherosclerosis step 1 are

Answer 9

Hemodynamic disturbancs
Hypercholesterolemia

Question 10

Pathogensis: Atherosclerosis

Lipids are transported by…

Answer 10

apopproteins ( bind lipids)

Question 11

Pathogensis: Atherosclerosis

Common abnormalities in Hypercholesterolemia

Answer 11

Sustained
Increased LDL levels
Decreased HDL levels
Presence of abnormal lipoproteins

Question 12

Pathogensis: Atherosclerosis

Chronic Hyperlipidemia

Answer 12

Damage the intima by LDL accumulation
Atheroma begins to form as macrophages attempt to remove LDL
Directly affects endothelial functions

Question 13

Pathogensis: Atherosclerosis

What causes oxidation of LDLs?

Answer 13

excess ROS

Question 14

Pathogensis: Atherosclerosis

What happens to oxidized LDLs? What do they do?

Answer 14

• Directly damage endothelial cells by attachment
• Ingested by macrophages through specific receptor
• Accumulate in phagocytes which then appear foamy
• Stimulate cytokine, growth factor, and chemokine secretion to initiate immune response (monocyte recruitment)
• Macrophages release ROS (injures tissue and depletes NO)

Question 15

Pathogensis: Atherosclerosis

How does the fibrous cap of the atherosclerosis plaque form?

Answer 15

Cytokines released durign inflammatory reaction induce smooth muscle cell proliferation (which migrate to the endothelium) and ECM production to form fibrous cap

Question 16

Pathogensis: Atherosclerosis

How are T cells involved in the Pathogensis of Atherosclerosis?

Answer 16

• Dysfunctional endothelial cells express adhesion molecues
• Bound leukocytes migrate into intima due to chemokines from macrophages
• T lymphocytes induce chronic inflammation and release inflammatory cytokines

Question 17

Pathogensis: Atherosclerosis

What causes thrombus formation?

Answer 17

• Damaged endothelium provides focal point for platelet binding and activation
• Accumulation of platelets produces blood clot with contribution from inflammatory mediators
• Clot breaks free

Question 18

The tunica intima consists of:

Answer 18

Endothelium (simple squamous epithelium)
Supporting CT

Question 19

Atherosclerosis

Atherosclerosis Progression

Answer 19

Normal Artery → Fatty streak → Fibrofatty Plaque → Advanced/Vulnerable Plaque →Aneurysm and Rupture/Occulusion by Thrombus/Critical Stenosis

Fatty streak can be bypassed and go straight to fibrofatty plaque (atheroma)

Question 20

Atherosclerosis

What are the consequences of Atherosclerosis?

Answer 20

Obstruct blood flow
Rupture of plaque - thrombsis
Weaken underlying tunica media (aneurysm formation)
Coronary Artery Disease → MI

Question 21

Myocardial Infarction is responsible for _ of deaths in US

Answer 21

1/4

Question 22

Atherosclerosis

What are the clinical complications of atherosclerosis?

Answer 22

Occlusion results in infarct
* Myocardial Infarction
* Cerebral Infarction
* Peripheral vascular disease
Rupture results in hemorrhage
* Formation of thrombus
* Aortic aneurysm

Location of atherosclerotic plaque is crucial

Question 23

Atherosclerosis

Thrombsis can produce…

Answer 23

distal occlusions and additional plaques

Question 24

What is the path of blood flow through the heart?

Answer 24

1. Blood from body
2. Thru superior/inferior vena cava into right atrium
3. Thru tricuspid valve into right ventricle
4. Thru pulmonary arteries into the lungs
5. Return from the lungs by pulmonary veins
6. Thru left atrium
7. Thru mitral valve into left ventricle
8. Thru aortic valve into aorta and to the body

Question 25

Myocardial Infarction

Ischemic Heart Disease

Answer 25

Group of diseases most commonly causes by atherosclerosis of cornary arteries

Question 26

Myocardial Infarction

What is Ischemic Heart Diseases caused by?

Answer 26

Myocardial ischemia
* Lower perfusion than needed → Dcreased blood flow, Increased need

Question 27

Myocardial Infarction

Lack of blood flow caused by ischemic heart disease affects:

Answer 27

Energy production
Nutrient availability
Waste Removal

Question 28

Myocardial Infarction

Myocardial Infarction

Answer 28

type of Ischemic Heart Disease
Necrotic damage to the myocardium

Heart Attack

Question 29

Myocardial Infarction

Can Severe Myocardial Infarction be stopped once it has started?

Can you prevent the damage?

Answer 29

Small window of time before cells die and damage is irreversible
Depends on ATP levels and accumulation of dangerous metabolites

Question 30

Myocardial Infarction

Myocardial Infarction Pathology

Answer 30

24 hours: Coagulative Necrosis
3-4 days: Neutrophil infiltrate
7-10 days: Necrotic tissue being removed by macrophages
>2 weeks: Loose CT and vascularization (granulation tissue)
>Compensation: Scar tissue is healed - infarct

Question 31

Myocardial Infarction

What is the effect of Reperfusion?

Answer 31

It impacts myocardiocyte function and surival

Question 32

Myocardial Infarction

How does reperfusion work?

Answer 32

Temporary occlusion → flow is restored → reperfusion injury → salvage
* Flow restored
* Burst of ROS following resumption of oxygen-based energy production
* Some cells can cope and will recover → other will still undergo necrotis death

Question 33

Myocardial Infarction

What is reperfusion injury?

Answer 33

Cells continue to dying for a period of time even though blood flow was restored

Question 34

Myocardial Infarction: Reperfusion

What is Salvage in terms of reperfusion?

Answer 34

Degree to which you manage to stop myocardial infarction

i.e. 60% might be salvaged vs. losing 80-90%

Question 35

Myocardial Infarction

How can timing of MI be assess clinically?

Answer 35

By measuring the protein release of necrotic cardiomyocytes
Increased levels of Troponin I, CK-MB, and Myoglobin

Question 36

Cardiac Hypertrophy

What causes hypertrophy?

Answer 36

Increased workload
* increased blood pressure
* increased volume to move
* damage to the wall

Myocardiocytes become enlarged and add sarcomeres
MI

Question 37

Cardiac Hypertrophy

What are the consequences of cardiac hypertrophy?

Answer 37

• Increased heart size and mass
• Increases protein synthesis
• induction of immediate-early genes
• Inductiton of fetal gene program
• abnormal proteins
• fibrosis
• inadqueate vasculature

Question 38

Cardiac Hypertrophy

Cardiac Dysfunction is characterized by…

Answer 38

Heart failure
Arrhythimas
Neurohumoral stimulation

Question 39

Conduction Disorders

Bradycardia

Answer 39

< 60 bpm

Question 40

Conduction Disorders

Tachycardia

Answer 40

> 100 bpm

Question 41

Conduction Disorders

What are the mechanisms of Bradycardia?

Answer 41

Reduced SA node activity
Blocked conduction

Question 42

Conduction Disorders

Bradycardia: Reduced SA node activity

What is it? What causes it?

Answer 42

Contraction induced by slower pacemaker
Multiple causes:
* Age
* Drugs
* Sleep, fainting

Question 43

Conduction Disorders

Bradycardia: Blocked Conduction

What causes it?

Answer 43

Similar causes to reduced SA node activity
Linked to certain diseases

Signal not moving thru the heart

Question 44

Conduction Disorders

Classifications of Tachycardia

Answer 44

Wide QRS
Narrow QRS

Question 45

Conduction Disorders

Tachycardia: Wide QRS

Answer 45

Ventricular
supraventricular with conductance issue

More dangerous

Question 46

Conduction Disorders

Tachycardia: Narrow QRS

Answer 46

Usually supraventricular (AV node or above)
Include Atrial Fibrillation, Atrial flutter, Sinus Tachycardia

Question 47

Myocarditis

Myocarditis

Answer 47

Inflammation due to infection of myocardium

Question 48

Myocarditis

What causes Myocarditis?

Answer 48

US: viral infections are most common
Non-infectious causes are autoimmune or drug hypersensitivity

Question 49

Myocarditis

What are microscopic characteristics of Myocarditis?

Answer 49

Edema
Interstitial inflammatory infiltrates
Myocyte Injury

Question 50

Myocarditis

What is the difference between MI and Myocarditis?

Answer 50

Type of immune cells present
Infection occurs with edema

Question 51

Myocarditis

Myocarditis Pathology

Answer 51

Different tissue responses depending on what is causing the Myocarditis.
* Lymphocytic
* Giant Cell
* Hypersensitivity
* Trypanosomes

Question 52

Carcinoid Syndrome

Carcinoid Heart Disease

Answer 52

Cancer cells produce hormones that affect heart tissue - compromise function
Fibrotic lesion
Thickened endocardium

Question 53

Erythrocyte Disorders

Anemia

Answer 53

Low Blood RBC levels

Question 54

Erythrocyte Disorders

What causes anemia?

Answer 54

Can occur due to blood loss, hemolysis, or reduced erythropoiesis
* Sickle Cell
* Iron deficiency
* Pernicious (aka megaloblastic)

Question 55

Erythrocyte Disorders

What causes Iron Deficiency Anemia?

Answer 55

Most commonly due to bleeding
* menstruation
* GI Bleeds

Question 56

Erythrocyte Disorders

Why is Iron Deficiency Anemia associated with pregnancy?

Answer 56

Fetus is taking iron to make blood

Question 57

Erythrocyte Disorders: Iron Deficiency Anemia

What are sources of iron?

Answer 57

DIetary iron is absorbed in the intestines
Iron is recycled from aged RBCs by macrophages

Question 58

Erythrocyte Disorders

Iron Metabolism

Answer 58

Question 59

Erythrocyte Disorders

What is the process of reduced Hb synthesis?

Answer 59

RBCs have lower Hb content
Lower O2 levels induce Eryhtropoietin
Stimulates bone marrow - increased platelets
RBCs become microcytic
* smaller/varied size
* Hypochromic
* Varied shape

Question 60

Erythrocyte Disorders

What are the clinical symptoms of reduced Hb synthesis?

Answer 60

Weakness
Fatigue
Malaise

Question 61

Erythrocyte Disorders

What is Pernicious Anemia?

Answer 61

Vitamin B12 is required for thymidine synthesis which is required for DNA synthesis
Failure of DNA synthesis affects hematopoiesis
Megaloblastic - abnormally large blood cells and precursors

Question 62

Erythrocyte Disorders

What is a characteristic of megaloblastic anemia?

Answer 62

Hypersegmented neutrophil seen in a peripheral blood smear

Question 63

Erythrocyte Disorders

What is the pathogenesis of Megaloblastic Anemia?

Answer 63

Damage to fundic glands in stomach
* VItamin B12 absorption requires intrinsic factor
* Produced by parietal cells in glands

No Intrinsic factor → no vitamin B12 absorption → failure of thyamidine synthesis → failure of DNA synthesis → affects hematopoiesis → not making enough RBCs → Megaloblastic anemia

Question 64

Erythrocyte Disorders

What causes megaloblastic anemia/fundic cell damage?

Answer 64

Autoimmune attack on gastric mucoas
* Loss of parietal cells (primary effect)
* Antibodies that block (secondary effect)

Question 65

Erythrocyte Disorders: Megaloblastic Anemia

What would cause loss of parietal cells?

Answer 65

Autoreactive T cells

Question 66

Erythrocyte Disorders: Megaloblastic Anemia

How do antibodies block resulting in autoimmune attack on gastric mucosa?

Answer 66

Binding Intrinsic Factor
Binding to receptor
Proton Pump

Question 67

Platelet Disorders

Thrombocytopenia

Answer 67

Platelet levels below normal

Question 68

Platelet Disorders

What causes Thromocytopenia?

Answer 68

Decreased platelet production (Vitamin B12 deficiency/Hereditary)
Decreased Survival (Immune-mediated/Thrombotic thrombocytopenic purpura)

Question 69

Platelet Disorders

Drug-associated Immune Thrombocytopenia

Answer 69

Immune-mediated destruction of platelets

Question 70

Platelet Disorders: Drug-associated Immune Thrombocytopenia

What drugs are associated with Drug-associated Immune Thrombocytopenia? How do they cause Drug-associated Immune Thrombocytopenia?

Answer 70

Quinine, quinidine, vancomycin
* Bind platelet glycoproteins
* create antigens recognized by antibodies that mediate dstruction of platelets

Question 71

Platelet Disorders: Drug-associated Immune Thrombocytopenia

What effect does Heparin have on platelets?

Answer 71

Type I - direct aggregation of platelts
Type II - venous/arterial thrombosis

Question 72

Platelet Disorders: Drug-associated Immune Thrombocytopenia

Heparin-induced Thrombocytopenia

Answer 72

Aggregation produces thrombosis
Clots in large arteries

Question 73

Platelet Disorders: Heparin-induced Thrombocytopenia

What is the result of Heparin-Induced Thrombocytopenia?

Answer 73

Vascular insufficiency
Deep vein thrombosis
Emboli can cause fatal lung disease

Question 74

Platelet Disorders: Drug-associated Immune Thrombocytopenia

What effect does low MW heparin have on Heparin-Induced Thrombocytopenia?

Answer 74

Lowers the risk of aggregation produced thrombosis

Question 75

Platelet Disorders: Thrombotic Thrombocytopenic Purpura

What is Thrombotic Thrombocytopenic Purpura?

Answer 75

ADAMTS13 defificency causes abnormal vWF complexes that adhere to platelets

Question 76

Platelet Disorders: Thrombotic Thrombocytopenic Purpura

What are the effects of Thrombotic Thrombocytopenic Purpura?

Answer 76

Thrombtic clots in microcirculation
Accumulation of clots damages endothelium

Question 77

Platelet Disorders: Thrombotic Thrombocytopenic Purpura

What are the clinical symptoms of Thrombotic Thrombocytopenic Purpura?

Answer 77

Symptoms are episodic
Unknown factors contribute
Hemolytic anemia due to shear stress on RBCs

Question 78

Platelet Disorders: Thrombotic Thrombocytopenic Purpura

What is ADAMTS13?

Answer 78

Metalloprotease involved in formation of multimers that form the complexes in clot formation

Question 79

Leukocyte Disorders

Leukopenia

Answer 79

Lack of WBCs

Question 80

Leukocyte Disorders

What effect does agranulocytosis have?

Answer 80

Agranulocytosis is clinically relevant
Reduced neutrophil numbers that are clinically apparent
More susceptible to bacterial and fungal infections

Question 81

Leukocyte Disorders

What are the two mechanisms of Leukopenia?

Answer 81

1. ineffective/inadequate granulopoiesis
2. Increased removal/destruction of granulocytes from the blood

Not making enough and/or using too many

Question 82

Leukocyte Disorders

What are the types of Neutropenia?

Answer 82

Absolute neutropenia
Agranulocytosis (granulocyte deficiency)
Cyclic neutropenia

Question 83

Leukocyte Disorders

What can impair granulopoiesis?

Answer 83

1. Suppression of hematopoietic stem cells (accompanied by anemia and thrombocytopenia)
2. Defective precursors die in marrow (megaloblastic anemia)
3. Rare congenital disorders (inherited defects prevent proper differentiation)
4. Drug exposure

Question 84

Leukocyte Disorders

How do Chemotherapeutic agents affect granulopoiesis?

Answer 84

Alkylating agents and anti-metabolites
cause predictable, dose-dependent destruction of hematopoietic cells

Question 85

Leukocyte Disorders

What is the general effect of chemotherapeutic agents on granulopoiesis?

Answer 85

Anemia
Thrombocytopenia

Question 86

Leukocyte Disorders

What is the idoiocyncratic effect of drugs on granulopoiesis?

Answer 86

Toxic effect on precursors (Phenothiazines)
Ab-induced destruction of mature leukocytes (certian slfonamides)

Question 87

Leukocyte Disorders

How are neutrophils removed or overused immunologically?

Answer 87

Idiopathic
Associated with immune disease (SLE)
Drug exposure

Question 88

Leukocyte Disorders

How does splenomegaly result in neutrophil removal or overuse?

Answer 88

Increased sequestration
Anemia/thrombocytopenia

Question 89

Leukocyte Disorders

What would result in increased use/removal of neutrophils?

Answer 89

Overwhelimg bacterial, fungal, rickettsial infections

Question 90

Leukocyte Disorders

Cyclic Neutropenia

Answer 90

Every 3 weeks, for 3-5 days, neutrophil count drops near zero, then rebounds (very susceptible to infections)
Peripheral neutrophil/monocyte counts oscillate in opposite phases of same 3 week cycle

Rare

Question 91

Leukocyte Disorders

What does cyclic neutropenia provides insight to?

Answer 91

Mechanisms of normal neutrophil production and function

Question 92

Leukocyte Disorders

What is the genetic basis of Cyclic Neutropenia?

Answer 92

Classic case of childhood onset
Potentially autosomal dominant
Rare instances of spontaneous mutation in adults

Question 93

Leukocyte Disorders

What causes cyclic neutropenia?

Answer 93

Mutation in Neutrophil Elastase

Question 94

Leukocyte Disorders

What does the mutation in Neutrophil Elastase do?

Answer 94

Mutant is excessively inhibitory, which causes excessive troughs in production

Inhibits too much resulting in no neutrophils for 3-5 days

Question 95

Leukocyte Disorders

Where is Neutrophil elastase found?

Answer 95

In primary azurophilic granules of neutrophils and monocytes

Question 96

Leukocyte Disorders

What is the function of Neutrophil Elastase?

Answer 96

Inhibitory
Regulates production of neutrophils to prevent overproduction
Negative feedback

Question 97

Leukocyte Disorders

Neutrophil hematopoiesis

Answer 97

Requires 2 weeks to mature
survives peripherally for 12 hours
normally, large storage pool of precursors in marrow

Question 98

Leukocyte Disorders

How does neutrophil production normally occur?

Time wise

Answer 98

in waves
Negative feedback inhibits neutrophil production (Neutrophil elastase)
Sourse of oscillations in production

Question 99

Leukocyte Disorders

What is the purpose of neutrophil oscillations?

Answer 99

Time for maturation explains opposing cyclicity of the peripheral neutrophils and monocytes

Question 100

Leukocyte Disorders

How does neutrophil elastase cause inhibition of neutrophil production?

Answer 100

By inhibiting myeloblastic differentiation