Week 10: Cardiovascular

Question 1

What are the two laws that describe the resistance and pressure gradient needed for the CV system to function?

Answer 1

Ohm’s law: pressure gradient

Poiseuille’s law: resistance

Question 2

What is the most important variable that determines the flow of the CV system?

Answer 2

radius of the blood vessels

Question 3

How do you calculate: stroke volume, cardiac output, ejection fraction and MAP?

Answer 3

Stroke volume = EDV - ESV
Cardiac output = HR x SV
Ejection fraction = SV/EDV
MAP = CO x TPR

Question 4

Define edema, what are the major causes (4)

Answer 4

accumulation of excess fluid in the interstitial space
Causes:
Heart failure: increased hydrostatic pressure as fluid accumulates from fluid backup
Increased hydrostatic pressure: increased arterial or venous pressure or arterial dilation
Decreased osmotic pressure: decreased plasma proteins or increased permeability to proteins
Obstruction: lymph failure

Question 5

What is the role of the lymphatic system (3)

Answer 5

1. function to maintain BV
2. important in defense and fat absorption
3. Return excess fluid from the interstitium to the circulatory system through vein-like vessels

Question 6

Define lymphedema

Answer 6

excessive accumulation of lymph due to damaged or obstructed lymph vessels

Question 7

Define acute lymphangitis

Answer 7

acute inflammation of lymph vessels; lymphadenitis if nodes are involved

Question 8

What is the role of the venous system? What is important to maintain venous return?

Answer 8

1. return blood to the heart through low-resistance blood conduits
2. maintain blood pressure

Question 9

How do: sympathetic stimulation; skeletal muscle pump; and respiratory pump help maintain venous return?

Answer 9

Sympathetic stimulation: contracts smooth muscle to raise venous pressure

Skeletal muscle pump: muscle contraction constricts veins and raises venous pressure

Respiratory pump: during inspiration, thoracic cavity expands, reducing pressure in the R atrium at the same time that abdominal pressure increases, helping generate a pressure gradient to drive blood return to the heart

Question 10

How does digitalis work to help with CV function?

Answer 10

inhibits Na-K-ATPase, increased NA to exchange with Ca2 - increases intracellular Ca2
Strengthens contractions

Question 11

How does nitroglycerin work to help with CV function?

Answer 11

increases vasodilation and increases blood flow to the heart

Question 12

How do calcium channel blockers work to help with CV function?

Answer 12

disrupt the movement of calcium through calcium channels, relaxes blood vessels

Question 13

How do beta-adrenergic antagonists work to help with CV function?

Answer 13

Reduces myocardial oxygen demands + Increase ventricular filling by relaxing the obstructing muscle. Reduces contractility and heart rate

Question 14

How do ACE inhibitors work to help with CV function?

Answer 14

reduce afterload through vasodilation, by blocking the formation of Angiotensin II

Question 15

How do diuretics work to help with CV function?

Answer 15

reduce fluid retention

Question 16

Define hyperlipidemia, what is an associated disease that increases r/f CVD?

Answer 16

1. lipids collect in the blood normally transported by proteins
2. atherosclerosis

Question 17

Which form of hyperlipidemia may have a genetic basis? Which form is associated with lifestyle choices - obesity, sedentary lifestyle, etc.?

Answer 17

1. primary

2. secondary

Question 18

Chylomicrons: percentage of triglycerides/protein; where are they synthesized?

Answer 18

80-90% triglycerides, very little protein 2%

Synthesized in small intestine as part of fat reabsorption process

Question 19

Very-low density lipoproteins (VLDL): percentage of triglycerides/cholesterol/protein

Answer 19

55-65% triglycerides, 10% cholesterol and 5-10% protein

Question 20

Low-density lipoproteins (LDL): percentage of triglycerides/cholesterol/protein; what is this the main carrier of?
Is this considered “good” or “bad” cholesterol?

Answer 20

1. 10% triglycerides, 50% cholesterol, 25% protein
2. Cholesterol
3. Bad as it carries more cholesterol

Question 21

High-density lipoproteins (LDL): percentage of triglycerides/cholesterol/protein; What is the major role of this lipoprotein?
Is this considered “good” or “bad” cholesterol?

Answer 21

1. 5% triglycerides, 20% cholesterol, 50% protein
2. reverse carrier, brings cholesterol from tissues to liver, allows body to recycle cholesterol
3. Good cholesterol - carries less cholesterol

Question 22

Where are LDL/HDL synthesized and released?

Answer 22

Liver

Question 23

Ideal levels of LDL, HDL, total cholesterol, triglycerides

What level does LDL get to to be classified as hypercholesterolemia?

Answer 23

LDL < 100mg/dL
HDL > 40-60 mg/dL
Total cholesterol < 200mg/dL
Triglycerides < 10-150mg/dL
Hypocholesteremia = LDL 70-130mg/dL

Question 24

How do the following agents help lower lipids: Statins, sequestrants, absorption inhibitors, fibrates, niacin/nicotinic acid, omega-3 supplements

Answer 24

Statins: prevent liver from manufacturing cholesterol
Sequestrants: prevent body from absorbing cholesterol
absorption inhibitors: limit body’s absorption of cholesterol
Fibrates: decrease synthesis of VLDL by liver, stimulate triglyceride clearance
Niacin/nicotinic acid: blocks synthesis and release of VLDLs from liver, reduces VLDL and LDL level, increase HDL concentrations
omega-3 supplements: decreases rate at which the liver synthesizes triglycerides

Question 25

Define atherosclerosis, risk factors, patho, consequences on CV function

Answer 25

series of arterial disorders that have degenerative changes in arteries, leading to a decrease in blood flow through blood vessels

Key risk factors: hypercholesteremia, hypertension, smoking (nicotine promotes vasoconstriction), obesity, diabetes (sugar attach to proteins that are associated with changes), sedentary lifestyle

Pathogenesis: deposition of lipids leads to decrease in radius, eventual occlusion of blood flow and hypertrophy of vessels, loss of elasticity

Consequences on CV function: CAD, TIAs, CVAs, renal stenosis, arterial occlusive disease

Question 26

Define aneurysm, where do they typically form? Risk factors, major concern

Answer 26

1. change in dilation of blood vessel wall, can lead to rupture and bleeding
2. aorta
3. Underlying risk factors: congenital defects, trauma, infection, atherosclerosis that leads to hypertension
4. Major concern: massive blood loss particularly if aneurysm present in a large vessel

Question 27

True vs. false aneurysm

Answer 27

True: aneurysm bounded by complete vessel wall and all blood remains in that vascular compartment

False: localized dissection or tear in the wall of the vessel that forms a hematoma outside the vessel, enlarging it

Question 28

What are 4 classifications of aneurysms?

Answer 28

Berry: small spherical dilatation of vessel at a bifurcation point - seen in structures likes the Circle of Willis

Fusiform: involves entire circumference of vessel, characterized by gradual, progressive dilation

Saccular: extends over part of circumference of vessel, appears like a sac

Dissecting: false aneurysm resulting from a tear in tunica intima, allows blood to enter vessel wall and creates pocket filled with blood

Question 29

Define vasculitides, what are typical causes (4)

Answer 29

1. group of diseases that cause inflammatory injury and possible necrosis of blood vessel walls
2. direct injury, infectious agent, immune processes, s/t other diseases

Question 30

Define peripheral vascular disease. Which demographic does it affect most, what are risk factors?

Answer 30

1. atherosclerosis distal from the arch of aorta, gradual vessel occlusion - leads to ischemic pain at rest, damage and ulceration of blood vessels, gangrene can develop due to decreased perfusion
2. older men in 60s or 70s
3. Risk factors include cigarette smoking, diabetes

Question 31

Define thromboangiitis obliterans. Clinical manifestations? Which demographic does it affect most, what is the major risk factor?

Answer 31

1. vasculitis that affects medium-size arteries, usually found in plantar or digital vessels
2. significant pain, impaired circulation, sensitivity to cold, ulceration and gangrene
3. Men 25-40
4. smoking

Question 32

Define Raynaud phenomenon, potential causes, affected demographic.
What are some examples of secondary causes? What is a disease where this almost always occurs?

Answer 32

1. functional disorder caused by intensive vasospasm of arteries and arterioles, typically in fingers, less often in toes
2. Cold exposure, potential hormonal involvement
3. young women
4. previous vessel injury or occupational trauma/use of vibrating tools, collagen disorders and occlusive disorders
5. Scleroderma

Question 33

Define hypotension, causes, patho

Answer 33

1. low BP
2. Causes: massive vasodilation from allergic response, absolute losses of fluids (sweating, burns, diarrhea, hemorrhage)
3. Baroreceptor response will initiate and attempt to increase BV by shifting fluid from the interstitium to the blood vessels

Question 34

Define syncope, causes

Answer 34

1. progressive, sudden loss of consciousness

2. Causes: vasovagal response, postural syncope, carotid sinus syncope

Question 35

Define hypertension. Major underlying cause, impact on CV function, medications (3)

Answer 35

1. elevation in BP or MAP
2. Underlying cause: generally due to increase in TPR, usually result of reduced vessel radius
3. Impact of CV function: atherosclerosis, increases afterload
4. Drugs: aimed at reducing TPR - B-adrenergic blockers, calcium channel blockers, ACE inhibitors

Question 36

Define primary/essential HTN, what are major causes

Answer 36

Primary: chronic elevation of BP without other evidence of disease (90%)
Causes: genetic factors, sodium intake, DM, smoking, alcohol

Question 37

What are secondary causes of HTN? (3)

Answer 37

adrenal tumor that releases catecholamines, increase in aldosterone, stress

Question 38

Define hypertensive crisis, when does this occur (4)? What body systems can this damage if left untreated?

Answer 38

1. sudden elevation in MAP
2. May occur with extreme ischemia, chest pain, pulmonary edema, intracerebral hemorrhage
3. renal, cardiac, cerebral

Question 39

Hypertension staging

Answer 39

Staging:
Normal <120 SBP and <80 DBP
Prehypertension 120-139 SBP 80-89 DBP
Stage 1 140-159 SBP or 90-99 DBP
Stage 2 >160 SBP or >100 DBP

Question 40

Define varicose veins

Answer 40

dilated, tortuous veins - may lead to edema and stasis ulcers as a result of chronic venous insufficiency

Question 41

Define chronic venous insufficiency

Answer 41

chronic venous disease of the lower extremities characterized by venous hypertension, varicose veins, venous ulcers due to venous insufficiency

Question 42

Define venous stasis ulcers

Answer 42

fluid shifting leads to edema that gives rise to skin breakdown and ulcer formation, at risk for necrosis and infection

Question 43

Define venous thrombosis

Answer 43

thrombus in a vein and the accompanying inflammatory response in the vessel wall - can develop in superficial or deep veins
embolism

Question 44

What are the three issues that make up Virchow’s triad

Answer 44

Trauma
Venous stasis
Altered coagulability

Question 45

Define: acute pericarditis; restrictive/constrictive pericarditis; pericardial effusion; and, cardiac tamponade

Answer 45

1. acute pericarditis: acute inflammatory response results in exudate accumulation around the heart
2. restrictive/constrictive pericarditis: formation of scar tissue between pericardial layers
3. pericardial effusion: accumulation of fluids in the pericardial sac
4. cardiac tamponade: accumulation of exudates in pericardial sac, under pressure

Question 46

Distinguish between ischemia, injury and infarction

Answer 46

Ischemia: decrease in blood flow, leading to decrease in O2 delivery
Injury: ischemia that can compromise or lead to cell injury
Infarction: death of myocardial cells - irreversible

Question 47

Define coronary artery disease. How can nitrites help?

Answer 47

1. atherosclerosis to coronary arteries

2. Potent vasodilators which can help reperfuse blocked tissues

Question 48

Define angina pectoris, myocardial infarction, heart failure

Answer 48

angina pectoris: Mild ischemia
myocardial infarction: ischemic death of myocardial tissue
heart failure: R cor pulmonale or L sided CHF

Question 49

What disease processes are included in acute coronary disease? What are risk factors?

Answer 49

MI, STEMI, NSTEMI, unstable angina

Risk factors: diabetes, hypertension, obesity, smoking, high fat-to-carb ratio in diet, family history of heart disease

Question 50

Define cardiomyopathy.

What is this the second leading cause of?

Answer 50

1. disease of the heart muscle fibers that usually affects cardiac performance
2. sudden death (50%)

Question 51

Define dilated cardiomyopathy. What is this disease process a common indication of, presentation, causes, and inheritance pattern

Answer 51

1. dilation of the heart chambers impairing the function of the heart as a pump
2. Common indication for heart transplantation
3. Presentation: variable degrees of cardiac enlargement, evidence of CHF
4. Causes: damage to the heart from toxic, metabolic, or infectious agents
5. Inheritance pattern: Disease is heterogenous and commonly shows - autosomal dominant or X-linked recessive pattern

Question 52

Define hypertrophic cardiomyopathy, inheritance pattern, s/s (5)

Answer 52

1. hypertrophy of the muscle mass that can lead to obstruction of blood filling
2. Genetic mutations that may be inherited or acquired: autosomal dominant inheritance pattern
3. S/S: dyspnea, chest pain, palpitations, syncope, sudden cardiac death

Question 53

Define restrictive cardiomyopathy, characteristics, causes (primary vs. secondary), s/s (5), tx (3)

Answer 53

1. extremely rigid ventricular walls that restrict blood filling but spare contractile properties of the muscle
2. Characteristics: reduced preload and end-diastolic volumes with back-up of blood flow in the circulation, eventually resulting in heart failure
3. Causes: Primary: endocarditis; Secondary: amyloidosis, hemochromatosis, sarcoidosis
4. S/S: dyspnea, edema, ascites, fatigue and weakness
5. Treatment: diuretics, calcium channel blockers, usually eventually require heart transplant

Question 54

Cardiomyopathies:
Which can have a genetic etiology?
Which is associated with exposure to toxins or infection?
Which is fairly rare?

Answer 54

1. Dilated, hypertrophic
2. Dilated, restrictive
3. Restrictive

Question 55

Define endocarditis. Which population does it commonly affect? What is the usual infectious agent?
Prognosis?

Answer 55

1. infection of the endocardium, heart valves or cardiac prosthesis resulting from bacterial or fungal invasion
2. IV drug users
3. Staph aureus
4. If treated - 70% recover, fatal if untreated

Question 56

Define bacteremia

Answer 56

infection causes fibrin and platelets to aggregate on the valve tissue further causing growths on the valves and lining of the heart with leads to ulceration and necrosis, can embolize to the spleen, kidneys, CNS or lungs

Question 57

Define valvular stenosis vs. valvular insufficiency. Which valves are commonly impacted?

Answer 57

Stenosis: narrowing of valve opening leads to greater resistance to blood flow through the valve
Insufficiency: failure of the valve to close completely results in backflow of blood to previous compartment
Which valves are commonly impacted: mitral and aortic valves

Question 58

How do valvular diseases occur in adults vs. children?

Answer 58

Rheumatic fever (adults): inflammatory destruction of valve in response to b-hemolytic strep is a common cause
Valvular disorders (children/adolescents): most commonly occur as a result of congenital heart defects

Question 59

Define heart failure, what are common causes

Answer 59

heart cannot pump sufficient blood to meet metabolic demands of the body
Causes: CAD, hypertension, dilated CM, valvular heart disease

Question 60

L sided heart failure: definition, causes (3) and consequences

Answer 60

definition: ineffective left ventricular contractile function
Causes: HTN, acute MI, valvular defects
consequences: back-up of fluids into pulmonary circulation which can give rise to pulmonary edema

Question 61

Define shock, consequences

Answer 61

reduced tissue and organ perfusion and eventually organ dysfunction and failure, acute life-threatening condition where body tissues are inadequately perfused or unable to use O2
Consequences: cell death, lactic acidosis, reperfusion injury

Question 62

What are the different types of shock (4)?

Answer 62

Distributive, cardiogenic, hypovolemic, obstructive

Question 63

What are the major consequences of shock on body systems (5)?

Answer 63

acute respiratory distress syndrome
acute renal failure
GI ulceration
DIC
multiple organ dysfunction syndrome

Question 64

R sided heart failure: Definition, causes and major consequences (3)

Answer 64

definition: ineffective R ventricular contractile function
cause: cor pulmonale: occurs in response to chronic pulmonary disease
consequence: fluid back-up into systemic and hepatic venous systems resulting in edema or ascites, jugular vein distention

Question 65

Systolic heart failure: Definition, causes and major consequences (2)

Answer 65

definition: left ventricle can’t pump enough blood into the systemic circulation during systole and EF falls
Causes: ischemic heart disease, cardiomyopathy
consequence: deceased contractility and EF

Question 66

Diastolic heart failure: Definition, causes and major consequences (1)

Answer 66

definition: ability of the L ventricle to relax and fill during diastole is reduced and SV falls
causes: any condition that impedes expansion of the ventricles
consequence: decreased CO