CARDIAC PATHOPHYSIOLOGY

Question 1

what type of edema you may see in CHF

Answer 1

May see PULMONARY &/or SYSTEMIC EDEMA

Question 2

a highly cardiac specific enzyme that is released into the blood during an MI

Answer 2

troponin

Question 3

Atherosclerotic Heart Disease a.k.a.

Answer 3

Coronary Artery Disease

Question 4

in myocardial ischemia…

Increased myocardial oxygen demand caused by?
Decreased myocardial oxygen supply caused by?

Answer 4

• Increased: exercise, mental stress, spontaneous fluctuations of HR or BP
• Decreased: decreased coronary blood flow (need 70% occlusion)

Question 5

arteriography

Answer 5

• radiography of an artery, carried out after injection of a radio-opaque substance.
• preparation for surgery of peripheral artery aneuyrysm

Question 6

Restrictive CM (RCM):

characteristics and causes

Answer 6

Question 7

Type B aortic aneurysm

Answer 7

a aortic aneurysm anywhere but the ascending aorta

Question 8

LDL:HDL ratio levels

Answer 8

• Provides a composite risk marker
• < or = 3:1 ratio is ↓ risk
• > or = 5:1 ratio is an ↑ risk

Question 9

Pericarditis is commonly caused by

Answer 9

viral infection

Question 10

MUSCULOSKELETAL Physiologic Consequences of CHF

Answer 10

• Muscle wasting & possible skeletal muscle myopathies and osteoporosis are possible due to inactivity or other co-morbidities and to vasculature’s impaired ability to vasodilate; leads to sedentary lifestyle.
• Inability in increase HR and SV
• Diastolic dysfunction is exacerbated with exercise
• EF correlates to exercise tolerance

Question 11

normal LDL and HDL cholesterol levels

Answer 11

• Low Density Lipoprotein = <100 desirable, more than 190 very high
• High (healthy) Density Lipoprotein = >60 optimal, less than 40 low

Question 12

📣

st wave elevation may be

Answer 12

transmural MI

Question 13

Is there a difference between Coronary Heart Disease and Coronary Artery Disease?

Answer 13

• Terms used interchangeably
• CHD is actually caused by CAD

Question 14

Surgical management of CHF

Answer 14

Question 15

Transmural MI

Answer 15

• full thickness
• Q wave MI

Question 16

Ventricular Remodeling in diastolic heart failure

Answer 16

hypertrophied heart

Question 17

MI Classification:

(types of MI)

Answer 17

• Subendocardial = partial thickness = NSTEMI = Non-Qwave MI
• Transmural = full thickness = STEMI = Q wave MI

Question 18

Pathogenic mechanism of plaque formation: the lipid hypothesis:

Answer 18

increased LDL in blood penetrates arterial wall → lipids accumulate in smooth muscle cells → hyperplasia of smooth muscle → endothelium tears and platelets aggregate → results in thrombus formation

Question 19

‼️

Left ventricular hypertrophy results in ___________ dysfunction (impairs filling of
ventricles)

Answer 19

diastolic

Rapid ventricular emptying →may see high ejection fraction

Question 20

Why is HDL cholesterol considered “good” cholesterol?

Answer 20

HDL cholesterol protects against CHD by taking LDLs out of the blood and keeping it from building up in arteries

Question 21

Types of Aneurysms:
can be classified by shape and size and described as…

Answer 21

• Saccular: Usually spherical in shape and involve only a portion of the vessel wall
• Fusiform (“spindle-shaped”): often involve large portions of the ascending and transverse aortic arch, abdominal aorta, or less frequently the iliac arteries
• Mycotic: caused by the growth of fungi or bacteria within the vascular wall, usually following impaction of a septic embolus
• Dissecting: Resulting from hemorrhage that causes longitudinal splitting of the arterial wall, producing a tear in the intima and establishing communication with the lumen

Question 22

HR protocol post MI

Answer 22

20-25 bpm of baseline (resting heart rate) in the first 6-8

Question 23

Is felt as pulsatile mass on one or both sides of the thigh

Answer 23

may be femoral artery aneurysm

Question 24

total cholesterol normal levels

Answer 24

less than 200 = desirable
more than 240 = high

Question 25

endocarditis can cause ______ damage → CAN BE FATAL

Answer 25

valve

Question 26

Pericarditis may progress to →

Answer 26

Pericardial effusion (excess fluid around the heart)

Leading to → Cardiac Tamponade ***EMERGENCY***

Question 27

Type A aortic aneurysm

Answer 27

aortic dissection in the ascending aorta

Question 28

____________ is the most common type of heart
disease, killing more than 370,000 people annually

Answer 28

Coronary heart disease

Question 29

nodular deposits of fatty material that line the walls of the artery (plaques), and the vessel walls may also lose their elasticity and become sclerotic

Answer 29

Atherosclerotic Heart Disease a.k.a. Coronary Artery Disease

(“Hardening of the Arteries”)

Question 30

Transports fatty acids and lipids

Answer 30

Cholesterol

Question 31

Are cardiac tumors common?

Answer 31

no, generally very rare and many are curable with surgery

Question 32

Inferior wall MI:

Answer 32

• RCA
• SA node

Question 33

1. Malignant cardiac tumors are usually classified as…
2. which one is the most common?

Answer 33

1. usually classified as sarcomas
2. Hemangiosarcomas (most common)

• Rhabdomyosarcoma

Question 34

The Newest and Preferred Marker enzyme for the diagnosis of MI?

Answer 34

troponin

Question 35

Localized dilatation and weakening of the wall of a blood vessel

Answer 35

Aneurysms

Question 36

normal triglycerides levels

Answer 36

<150 normal

>500 very high (high risk)

Question 37

NUTRITIONAL physiologic Consequences of CHF

Answer 37

May see anorexia that can lead to malnutrition & cachexia

Question 38

SYMPATHETIC NS (SNS) Compensation for CHF

Answer 38

Decreased CO sensed by baroreceptors → Leads to increased SNS activity → Release of norepinephrine → increases HR, SV, myocardial contractility AND ↑systemic resistance and BP due to peripheral vasoconstriction that stimulates the kidneys to increase renin release

Question 39

Classic Symptom Of Ischemia

Answer 39

Angina Pectoris (Angina)
Described as “pressure” or “heaviness”

Question 40

Syndrome where the heart is unable to pump enough output to meet the body’s metabolic demands

Answer 40

Congestive Heart Failure (CHF)

Question 41

Occurs almost exclusively at rest due to coronary artery spasm

Answer 41

Prinzmetal’s Angina (Variant or Atypical Angina)

Question 42

Diverse group of diseases involving primary disorder of the myocardial cells with ultimate cardiac dysfunction (involve the myocardium) in which contraction, relaxation, or both of cardiac muscle are impaired

Answer 42

Cardiomyopathy (CM)

Question 43

Dilated cardiomyopathy results in:
Prognosis?

Answer 43

• Decreased stroke volume
• Impaired ability to increase cardiac output with exercise
• Eventual development of left ventricular failure and right ventricular failure (less effective pump)
• Prognosis is good WITHOUT clinical heart failure

Question 44

in Left Sided/Ventricular Failure: CHF may also see

Answer 44

– Also may see increased LVEDP (pressure)
– Also LV dilatation may stretch mitral valve

Question 45

Compensated vs Decompensated CHF

Answer 45

Compensated: Mild/moderate symptoms & degree of volume overload

Decompensation: baseline abnormalities become further deranged

Question 46

Clinical Manifestations of CHF, right ventricular failure:

Answer 46

• Dependent edema
• Hepatomegaly
• Ascites
• Fatigue
• Anorexia, nausea, bloating
• Right sided S3 or S4
• Accentuated P2 (heart sound—closure of pulmonic valve)
• Pulmonary or Tricuspid valve murmurs
• s/s: JVD, weight gain, RUQ (liver) pain, jaundice, cyanosis (nail bed), ↓urine output

Question 47

The first symptom of hypertrophic CM my be

Answer 47

sudden collapse & possible death

Question 48

Cardiac/Ventricular Remodeling

Answer 48

• Pathologic and physiologic changes in size, shape, structure and physiology of the heart after injury to the myocardium.
• Left ventricle may change from elliptical to spherical
• Apoptosis—programmed death of cells, is more severe with CHF

Question 49

Response to MI
🚨

Answer 49

• 24h: inflammatory response to necrosis
• 2 - 4 days: visible necrosis, recovery begins
• 4 - 10 days: Debris cleared → matrix laid down
• 10 – 14 days: Formation of weak fibrotic scar

**The scar tissue is inelastic and is not able to contract and relax like healthy myocardial tissue

Question 50

Right Sided/Ventricular Failure: Cor Pulmonale

Answer 50

Prolonged pulm HTN → Increased right ventricle afterload → Anatomical changes to right ventricle (dilatation → possible hypertrophy) → Right ventricular end-diastolic pressure (EDP) increases → Reflects back up to right atrium and venous system

Question 51

Popliteal artery aneurysm use _______ to diagnose and measure diameter

Answer 51

ultrasound

Question 52

Hormones Involved in CHF

Answer 52

Question 53

what is the the most common cause of right CHF

Answer 53

left CHF

Question 54

most common bening cardiac tumor

Answer 54

myxoma

Question 55

Popliteal artery aneurysm Account for ____ of all peripheral artery aneurysms

Answer 55

~85%

Question 56

the release of Natriuretic peptides (brain NP, atrial NP, endothelial C type NP) may reflect or indicate

Answer 56

acute and chronic volume pressure overload

Question 57

what is the recommended LDL value for patients with DM or other CHD risk factors

Answer 57

less than 100

Question 58

Cardiac Enzymes release after MI:

Answer 58

• Troponin (4-6 h): last several days
• Creatine kinase (4-8h): released when cells die, last 2-3 days
• Myoglobin (1-4 h): protein released with injury to the myocardium

Question 59

Hypertrophic CM (HCM) characterized by

Answer 59

• Considerable increase in cardiac mass (hypertrophy)
• No cavity dilatation
• Normal or increased systolic function
• May demonstrate left ventricular outflow obstruction
  (hypertrophic obstructive CM or IHSS)

Question 60

Types of angina:

Answer 60

• Chronic stable angina: treat
• Unstable angina: don’t treat

Question 61

Difference between ischemia and infarction

Answer 61

• Ischemia: decrease in blood flow
• Infarction: tissue death caused by ischemia

Question 62

Causes of dilated cardiomyopathy

Answer 62

• Idiopathic (arises spontaneously or for which the cause is unknown)
• Heart disease and uncontrolled HTN (most common)
• Myocarditis
• Infectious or non-infectious inflammatory process
• Toxins (ex: ETOH, drugs, chemo)
• Pregnancy
• Metabolic disorder
• Hereditary disease (ex: muscular dystrophy)

Question 63

Medical management of CHF

Answer 63

Question 64

Treatment of CHF

Answer 64

Question 65

Diagnosis of CHF:

Answer 65

Question 66

difference between chronic stable angina and unstable angina

Answer 66

• Chronic Stable Angina: precipitated by exertion, emotional streess, heavy meals
• Unstable Angina: symptoms of angina without the demands that usually generate it

Question 67

Treatment of Aneurysms

Answer 67

Surgical excision and grafting
– Endovascular (prefered) repair vs Open repair

Question 68

Causes of MI:

Answer 68

👉🏻 Whatever leads to severe vasoconstriction

• Prolonged myocardial ischemia (atherosclerosis)
• Prolonged vasospasm
• Embolic occlusion
• Cocaine
• ➔ Leads to focal death of myocardial tissue in the area supplied by the involved coronary artery * Very often in the LV*

Question 69

In Right Sided/Ventricular Failure: Cor Pulmonale, may also see what?

Answer 69

May see jugular venous distension (JVD), liver engorgement, ascites, and peripheral edema

Question 70

when does troponin become elevated after an MI?

Answer 70

Elevated between 4-6 hours post MI
Peaks at 24 hours

Question 71

Non-Drug Management of CHF

Answer 71

Question 72

what is the recommended LDL value for patients with CHD or vessel disease?

Answer 72

less than 70

Question 73

when does myocardial recovery begin s/p MI

Answer 73

2 - 4 days s/p MI

Question 74

symptoms of angina

Answer 74

• Pain, pressure and heaviness over the heart (precordial), in the shoulder, arm, throat or jaw
• DOE (dyspnea on exertion)
• Fatigue
• Weakness
• Syncope

Question 75

Occurs when myocardial oxygen demand is greater than the supply

Answer 75

Myocardial Ischemia

Question 76

The earliest detectable atherosclerotic lesion is known as

Answer 76

the fatty streak (lipid foam cells)

Fatty streak → fibrous plaque

Question 77

Diagnosis of MI, at Least 2/3 of the following symptoms must be present

Answer 77

• Anginal Symptoms: Chest pressure, heaviness, pain, arm, jaw
  
  • DOE
  • Fatigue
  • Syncope
  • Belching
• EKG Changes
• Rise of Cardiac Enzymes

Question 78

Dilated cardiomyopathy characterized by:

Answer 78

• Increased cardiac mass
• Dilatation of all 4 cardiac chambers
  
  • With little or no wall thickening
• Systolic dysfunction

Question 79

Cholesterol comes from 2 sources:

Answer 79

• 75% our bodies
• 25% from food sources (animal products only)

Question 80

Chronic Stable Angina is relieved with

Answer 80

nitroglycerin (NTG)

(vasodilation)

Question 81

Peripheral Artery Aneurysms occur almost exclusively in

Answer 81

men

Question 82

Athero =
Sclerosis =

Answer 82

• gruel, soft deposit
• hardening

Question 83

Systolic Heart Function Failure:

Answer 83

• Increased preload → lead to pump failure
• Increased afterload → leads to pump failure
• Decreased contractility of the myocardium → leads to pump failure; most common.
• Changes in rate of contraction (chronotropic) → (to slow or too fast) lead to pump failure.

Question 84

3 main categories of cardiomyopathy

Answer 84

• Dilated Cardiomyopathy (DCM)
• Hypertrophic Cardiomyopathy
• Restrictive Cardiomyopathy

Question 85

PANCREATIC physiologic Consequences of CHF

Answer 85

Possible impaired insulin secretion & subsequent glucose tolerance – May also be another source of a myocardial depressant factor

Question 86

Pathogenic mechanism of plaque formation: chronic endothelial injury

Answer 86

Injury of the interior of the cell wall by macrophages causes platelets, monocytes, lipids & smooth muscle cells to migrate and aggregate from the media to the intima where they form a fibrous cap → platelets form clots & release proteins with tough fibers further hardening the artery → Can block blood flow or break off and throw a clot.

Question 87

Inflammation of endocardium (usually due to microbial infection)

Answer 87

Endocarditis

Question 88

Silent Myocardial Infarction

Answer 88

• No symptoms of angina
• Can occur in any patient but more common in those with DM and ETOH (alcohol) abuse
  – Peripheral neuropathies may contribute to this
• Must be ruled in by EKG changes and Cardiac Enzymes

Question 89

Clinical Manifestations of CHF, left ventricular failure:

Answer 89

• Progressive Dyspnea (exertion→rest)
• Dyspnea & orthopnea PND (paroxysmal nocturnal dyspnea)
• Fatigue/weakness
• Pulmonary rales
• S1 heart gallop, S3
• Enlarged heart
• Functional MR, TR
• s/s: pulmonary edema, pallor, cyanosis, diaphoresis, tachypnea, anxiety, agitation, s/s of cerebral hypoxia

Question 90

How is myocardial ischemia diagnosed?

Answer 90

• by exercise stress test
• arrhythmias and T wave inversion on an EKG → later becoming ST elevation

Question 91

NEUROCHEMICAL Physiologic Consequences of CHF:

Answer 91

Increased sympathetic stimulation desensitizes heart to β1-adrenergic receptor stimulation → decreases heart’s inotropic effect (strength of the contraction)

Question 92

Ventricular Remodeling in systolic heart failure

Answer 92

dialated heart

Question 93

Types of thoracic aneurysms:

Answer 93

• Infrarenal (90%): May be symptomatic/asymptomatic.
  
  • Symptoms: chronic mid-abdominal &/or low back pain
• Thoracic: Usually asymptomatic.
  
  • May also be due to Marfan’s syndrome

Question 94

Counter-regulatory Hormones in CHF

Answer 94

Question 95

HEMATOLOGIC Physiologic Consequences of CHF

Answer 95

Possible anemia and hemostatic abnormalities

Question 96

cardiac disease count for 1 in every ___ deaths

Answer 96

4

Question 97

CARDIAVASCULAR Physiologic Consequences of CHF:

Answer 97

Decreased myocardial performance → try to increase venous return w/peripheral vascular constriction → increased peripheral vascular resistance (sympathetic ns contributes to this)

Question 98

📣

What are the systems involved in compensating CHF?

Answer 98

1. Autonomic Nervous system: ↑vasocontriction
2. Renin-Angiotensin-Aldosterone system: ↑vasocontriction, ↑water retention
3. Natiuretic peptide counter-regulatory system: ↑vasodilation, ↓filling pressures, improved myocardial relaxation, ↑ water excretion, suppression of AS and ANS activity

Question 99

EKG Changes with MI

Answer 99

• Peaked T Waves
• ST Elevation (transmural)
• Q Wave Present
• T Wave Inversion

Question 100

Sign of aneurysm:

Answer 100

pulsating swelling that produces blowing murmur on auscultation

Question 101

In a multi-center study of 515 women who had an acute myocardial infarction (MI), the most frequently reported symptoms were:

Answer 101

• unusual fatigue,
• sleep disturbances
• shortness of breath,
• indigestion and anxiety

Question 102

Symptoms of Prinzmetal’s Angina

Answer 102

• Often severe chest pain, awakening patient from sleep
• Often spasm responds to NTG (though not always)

Question 103

types of aneurisms

Answer 103

• True aneurysm (3 layes involved)
• False or Pseudo-aneurysm: blood leaking confined by sourrounding tissues

Question 104

Pressure in pulmonary vasculature where see pulmonary edema develop is ~___ mmHg

Answer 104

25

Question 105

myocardial infarction

Answer 105

COMPLETE interruption of blood supply to an area of the myocardium

Question 106

How are cardiac enzymes used in the diagnosis of MI/

Answer 106

Cardiac muscle cells become necrotic resulting in the diffusion of several cardiac markers into the blood

• Troponin
• Creatine kinase
• Myoglobin

Question 107

Lateral wall MI:

Answer 107

Left Circumflex Artery

Question 108

2 types of peripheral artery aneurysm in men:

Answer 108

• Popliteal artery aneurysm
• Femoral artery aneurysm

Question 109

Decreased SV and CO (decreased EF) → Increased LVEDV → Decreased LV compliance → Increased left atrial dilatation → Increased pressure in pulmonary vessels → Transudation of fluid from pulmonary capillaries

Answer 109

Left Sided/Ventricular Failure: CHF

Question 110

CHF may result from:

Answer 110

Any structural/functional cardiac disorder that impairs the filling or pumping ability of the ventricles

Question 111

PULMONARY Physiologic Consequences of CHF:

Answer 111

Develop pulmonary edema due to increased filling pressures

Question 112

Anterior Wall MI:

Answer 112

• Left Coronary Artery
• More severe effect: L ventricle

Question 113

New York Heart Association of CHF

Answer 113

Question 114

RENAL Physiologic Consequences of CHF

Answer 114

Due to decreased CO → decreased renal blood flow & glomerular filtration rate → sodium & fluid retention

{Heart failure also associated with increased circulating levels of arginine vasopressin (vasoconstrictor & inhibitor of water excretion)}

Question 115

📣

ST wave depression may be

Answer 115

Subendocardial MI

Question 116

HEPATIC physiologic Consequences of CHF

Answer 116

Possible cardiac cirrhosis due to hypoperfusion due to decreased CO or hepatic venous congestion

Question 117

Subendocardial MI

Answer 117

• partial thickness
• Non Qwave MI
• May not have as significant EKG changes, but pt symptomatic and lab values indicate injury

Question 118

“Build-up of plaque in the heart’s arteries that can cause a heart attack.”

Answer 118

Coronary Heart Disease (CHD)

Question 119

Left Sided/Ventricular Failure aka

Answer 119

CHF

Question 120

tissue zones of infarction: which area is recoverable?

Answer 120

• Zone of Infarct: cell death
• Zone of Injury: not cell death
• Zone of Ischemia: recoverable area

Question 121

RENIN-ANGIOTENSIN-ALDOSTERONE SYSTEM Compensation for CHF

Answer 121

• systems that maintain BP when we have low volume in our bodies
• increases venous and atrial tone
• triggers the release of norepinephrine
• The release of RENIN (by the ANS) in the system → Angiotensin II: Powerful vasoconstrictor → Initially restores BP but can ultimately lead to decreased CO, renal perfusion, Contributes to remodeling and promotes the release of aldosterone (Acts on the kidneys increase resorption of water)

Question 122

Is myocardial ischemia reversible?

Answer 122

yes, usually with rest