Cardiovascular Toolbox

Question 1

What is the leading cause of mortality in the US and the world?
Has the death rate for this cause been increasing or declining?

Answer 1

Cardiovascular disease- from 1998 to 2008 it has been declining (by 30%) but it is still the leading cause

Question 2

About how many Americans die of cardiovascular disease each day?

Answer 2

2200 which is about one every 39 seconds

Question 3

What is the total and indirect cost for care for cardiovascular disease and stroke in 2008?

Answer 3

297.7 billion dollars

Cancers was (228 billion)

Question 4

What is “ideal cardiovascular health” as defined by the American Heart Association?
(7 attributes)

Answer 4

the absence of clinical manifestations of cardiovascular disease and optimal levels of:

1. lean body mass
2. no smoking
3. regular exercise
4. healthy eating
5. untreated cholesterol <100mg/dl

Question 5

How many American adults over 20 have hypertension?

Answer 5

over 75 million

Question 6

How many adults have cholesterol levels over 200?

over 240?

Answer 6

100 million, 33million

Question 7

How many adults have DM?
Pre-diabetes?
Undiagnosed diabetes?

Answer 7

DM-18 million
undiagnosed- 7 million
pre-diabetes- 80 million

Question 8

What percent of adults meet physical activity guidelines?

High Schoolers?

Answer 8

20%

37%

Question 9

What percent of adults reach “ideal healthy diet?”

Answer 9

<1%

Question 10

What percent of people are smokers?

Answer 10

20%

Question 11

What percent of American adults are overweight or obese?

Answer 11

roughly 70%

Question 12

What health factors have Americans been improving on?
What factors have plateaued?
What has gotten worse?

Answer 12

Improved:
1.CVD and stroke mortality
2. lowered cholesterol
3. increased physical activity
Plateau:
1. HTN
2. smoking 
Gotten worse:
1. DM
2. obesity

Question 13

What specific cardiovascular disease kills the most people worldwide?
Where do 80% of the deaths take place?

Answer 13

7 million from coronary heart disease, 6 million from stroke

80% of deaths occur in low and middle-income countries

Question 14

What are the 4 major non-communicable diseases the WHO are focusing on?
What are the four common risk factors?

Answer 14

1. Cardiovascular disease
2. chronic lung disease
3. Diabetes
4. cancer
5. tobacco
6. inactivity
7. alcohol
8. unhealthy die

Question 15

What are the 5 main cardiac complaints when taking a history?

Answer 15

1. Chest pain
2. Palpitations
3. Shortness of breath (dyspnea)
4. Syncope
5. Edema

Question 16

Describe ischemic chest pain (angina pectoris).

how does it feel, where is it localized, where does it radiate, “classic” presentation

Answer 16

1. tightness, heaviness (“elephant sitting on chest”), pressure, squeezing
2. Cannot be localized to one point
3. radiates to neck, jaw, upper arm, shoulder (sometimes midepigastric to back)
4. nausea, sweating, vomiting, anxious

Question 17

How does the description of angina pectoris differ for men and women?

Answer 17

Women have more vague symptoms with usually just nausea and midepigastric pain.

Question 18

What four things can typically provoke ischemic chest pain?

What is the treatment for it?

Answer 18

1. Exertion
2. Emotional upset
3. cold weather
4. large meals

Treated with nitroglycerin or rest.

Question 19

Describe the pain associated with pericardial inflammation.

What aggravates it?

Answer 19

1. Sharp, stabbing

2. aggravated by changes in position or deep breaths

Question 20

Describe the pain associated with aortic dissection.

Where does the pain radiate to?

Answer 20

1. Tearing, severe

2. Radiates to the back

Question 21

What are palpitations?

Answer 21

An unusual awareness of the beating of the heart:
racing, fluttering, pounding, skipping beats

Associated with abnormal rhythm (not always but frequently)

Question 22

What causes dyspnea with heart failure?

Answer 22

Increased pulmonary pressure from heart failure or left valve dysfunction causes edema to leak into the alveolar space decreasing compliance and increasing resistance to airflow.

Question 23

What is othopnea?

How is it assessed?

Answer 23

dyspnea in the supine position where gravity redistributes fluid back to central circulation, elevating pulmonary venous pressure.

It is assessed by the number of pillows a patient sleeps with each night

Question 24

What is paroxysmal nocturnal dyspnea?

Answer 24

A sleeping patient is awakened by sense of dyspnea that is only improved if they sit up

Question 25

What is syncope?

What are the 4 prodromal symptoms?

Answer 25

transient loss of consciousness due to decreased cerebral blood flow.
Dizziness, visual change, nausea, sweating

Question 26

What are the two main forms of edema associated with heart disease?

Answer 26

1. Systemic edema- usually seen in the legs due to gravity but can progress to the entire body (anasarca)
2. Pulmonary edema- fluid accumulates in the interstitial spaces of the lungs

Question 27

What are the 5 major causes of edema?

Answer 27

1. Heart disease
2. Renal disease
3. lymphatic drainage or venous insufficiency
4. obstruction
5. decreased colloid

Question 28

What is the common presentation of volume overload?

Answer 28

1. dyspnea on exertion
2. PND, orthopnea
3. edema

Question 29

Given the following observations, what is suggested?

1. obesity and/or cyanosis
2. tall with long arms/fingers
3. cachexia
4. slender/nervous
5. slow, non-pitting edema
6. febrile, ill, skin lesion

Answer 29

1. right heart failure, sleep apnea
2. Marfan’s
3. end stage heart disease
4. hyperthyroidism
5. hypothyroidism
6. endocarditis

Question 30

Normal blood pressure varies by less than ________________ between inspiration and expiration.
If it is greater than that what is potential cause?

Answer 30

10 mmHg

Greater than 12mmHg change is suggestive of pulsus paradoxus where cardiac tamponade is the typical cause.

Question 31

Describe the physiological mechanism behind the change in BP during inspiration and expiration.

Answer 31

1. On inspiration, the intrathoracic pressure decreases which increased RV filling.
2. RV pushes septum into LV decreasing LV volume and stroke volume
3. Decreased stroke volume decreases systolic BP slightly

Question 32

What is pulsus paradoxus? What is the predominant cause?

Answer 32

It is an inspirational drop in systolic pressure of 12mmHg or more.
It is usually caused by cardiac tamponade which is fluid and pressure in the pericardial space which impinge upon the ventricles reducing LV stroke volume more.

Also seen with obesity/severe lung disease

Question 33

What 2 things does the jugular venous waveform give us information about?

Answer 33

1. fluid status in the right side of the heart (RA)

2. cardiac rhythm

Question 34

How is jugular venous waveform measured and reported?

Answer 34

Jugular venous waveform should be measured:
supine
45degree angle
erect 
in order to ascertain the meniscus.

The RA is the zero reference level and the height of the waveform is reported as cm of water.
5-10cm is normal.

Question 35

For venous waveforms, what are:

1. a wave
2. c wave
3. x descent
4. v wave
5. y descent

Answer 35

1. RA contraction
2. Tricuspid closes
3. RA relaxation
4. RA filling
5. tricuspid opens and RA empties into RV

Question 36

What is the affect of respiration on the jugular venous pressure?

Answer 36

Inspiration increases filling in the right sided heart chambers due to negative intrathoracic pressure.
This decreases the blood in the vena cava, decreasing the JVP.

Expiration, intrathoracic pressure increases which inhibits vena cava emptying into the RA. This increases JVP.

Question 37

What is Kussmaul’s sign?

What are the underlying causes?

Answer 37

It is when there is a paradoxical increase in JVP during inspiration due to right heart not being able to tolerate increased flow.
Caused by restrictive/constrictive cardiac disease like:
1. constrictive pericarditis
2. acute RV infarction

Question 38

What are situations that could cause large A waves on the jugular venous waveform? (4)

What would cause absent A waves? (2)

Answer 38

A waves mark RA contraction, so anything that would increase RA pressure.

1. A-V obstruction - tricuspid stenosis, myxoma
2. Compete A-V block - “Cannon” a waves
3. Increased RA volume
4. Restriction to RV filling- pulmonary hypertension

Absent

1. atrial flutter
2. atrial fibrillation

Question 39

What are situations that would cause V wave abnormalities on the hugular venous waveform?

Answer 39

V waves are the filling of the RA so, the V wave will be taller in the case of :
1. tricuspid regurgitation

Question 40

What is the point of maximal impulse?

When and where can it be palpated?

Answer 40

When you place your palm on the left chest wall you can feel the impulse of the heart (less than the size of a nickel)
It can be palpated during early systole at the fifth intercostal space to the left of the sternum

Question 41

What is the significance of the PMI being:

1. displaced laterally
2. inferiorly displaced
3. sustained for majority of systole

Answer 41

1. Ventricular dilation
2. low diaphragm (potential COPD)
3. ventricular hypertrophy

Question 42

What 7 arteries should be assessed when taking pulse?

Which assesses normal arterial pulse best at the bedside?

Answer 42

1. carotid- best arterial pulse at the bedside
2. brachial
3. radial
4. abdominal aorta
5. femoral
6. popliteal
7. posterior tibial

Question 43

What is a bruit?

Answer 43

It is turbulent flow. It is a “swoosh” sound you hear when blood crosses an artery with an obstruction

Question 44

What arteries are palpated during cardiology physical exam?

Why?

Answer 44

Popliteal and abdominal aorta to assess for peripheral vascular disease such as:

1. atherosclerosis
2. aneurysm
3. congenital vascular disorders

Question 45

Describe the normal arterial pulse.

Answer 45

1. Rapid upstroke
2. smaller secondary upstroke (not palpable)
3. gradual decline

Question 46

What is the classic cause of increased amplitude in the carotid upstroke?
What is the other potential cause?

Answer 46

1. Aortic insufficiency- LV stroke volume is increased with increases in systolic volume
2. decreased peripheral resistance

Question 47

What is the water-hammer pulse?

Where is it felt?

Answer 47

Aortic insufficiency causes increased LV stroke volume causing:

1. rapid upstroke with higher amplitude
2. rapid downslope (wide pulse pressure)

Question 48

What are 6 causes of decreased peripheral resistance that can increase amplitude of the carotid upstroke?.

Answer 48

1. sepsis
2. patent ductus arteriosus
3. fever
4. anemia
5. thyrotoxicosis
6. peripheral A-V malformation

Question 49

What is parvus et tardus?

What is the major cause?

Answer 49

Aortic outflow obstruction such as:

1. stenosis
2. supra or sub valve stenosis

Causes the pulse in the carotid to be small volume with a slow rise and fall that is delayed

Question 50

What is bisferiens pulse?

What is the major cause?

Answer 50

Two systolic peaks during the peak amplitude of the arterial pulse.

Hypertrophic cardiomyopathy with a dynamic outflow obstruction in the LV is the cause.

1. Initial upstroke is rapid and high amplitude (like normal)
2. Brief decline and plateau
3. Transient decrease in degree of LV obstruction allows for another peak

“Spike and dome wave”

Question 51

What is pulsus alternans?

What is the major cause?

Answer 51

A strong pulse followed by a weak pulse.

Severe LV dysfunction (systolic)

Question 52

What is pulsus paradoxus?

What is the major cause?

Answer 52

It is when the carotid pulse decreases with inspiration
(arterial pulse should NOT be dependent on respiration. BP and venous waveform depend on respiration)

Major cause : pericardial effusion (fluid surrounding the heart)

Question 53

What frequencies are the diaphragm used to detect? Which heart sounds are heard at this frequency?

What frequencies are the bell used to detect? Which heart sounds are heard at this frequency?

Answer 53

Diaphragm is higher frequency (>300Hz)- S1, S2, ejection clicks

Bell is low frequency (

Question 54

What are the 4 precordial sites and where are they located?

Answer 54

1. Aortic- 2nd right interspace
2. Pulmonary- 2nd left interspace
3. Tricuspid- 4th left interspace
4. Mitral- cardiac apex

Question 55

What are the 3 positions the patient should be in for assessing the 4 precordial sites?

Answer 55

1. seated
2. supine
3. left lateral decubitus (on their side)

Question 56

What is occurring physiologically at S1 heart sound?

Answer 56

The AV valves (tricuspid and mitral) are closing.

This sound is heard prior to the carotid upstroke pulse.

Question 57

What increases the intensity of S1?

Answer 57

1. position of the tricuspid and mitral valve leaflets at onset of systole
2. distance of heart from the chest wall

Question 58

What is occurring physiologically at S2 heart sound?

Answer 58

The aortic and pulmonary valves are closing.
This occurs just after you feel the peak carotid pulse.
A2 closes first because the LV has higher systemic resistance and thus is activated prior to the RV.

Question 59

What are the 2 components of S2?

How does respiration change their relationship?

Answer 59

A2 closes before P2.
During inspiration, the intrathoracic pressure is negative and RV filling increases. This prolongs the time the pulmonary valve is open and there will be a wider A2 P2 split. (50-90msec)
On expiration, there is less RV filling so P2 will close sooner and there will be less time between A2 closing and P2 closing (10msec)

Question 60

What affects the intensity of S2?

Answer 60

1. leaflet mobility
2. pulmonary hypertension
3. systemic hypertension

Question 61

What are the 2 factors that make S2 widely split?

Answer 61

1. Delayed P2 due to prolonged RV contraction

2. Early A2 closure due to decreased duration of LV contraction

Question 62

What is 1 electrical way and 4 mechanical ways that P2 can be delayed?

Answer 62

1. Right bundle branch block
2. pulmonic valve stenosis (slower emptying of RV)
3. RV dysfunction (slower emptying of RV)
4. PE (increased afterload so prolonged empty)
5. pulmonary hypertension

Question 63

What are the 2 ways A2 occur prematurely?

Answer 63

1. mitral regurgitation (less blood in LV to eject)

2. Ventricular septal defect (less blood in LV to eject)

Question 64

What is a fixed split? What is the main cause?

Answer 64

Fixed split S2 is pathognomonic for atrial septal defects.
During inspiration: increased blood return decreased volume shunted across the defect from left to right.
During expiration, venous return is reduced but there is a reciprocal increase of shunting LtoR delaying P2

In both inspiration and expiration, the P2 is delayed. Resulting in a “fixed split” between A2 and P2

Question 65

What is a paradoxical split?

Answer 65

When LV emptying is prolonged resulting in delayed A2 or early P2 closure

Question 66

What would delay/prolong LV contraction resulting in delayed A2? (1 electric, 3 mechanical)

Answer 66

1. LBBB
2. Aortic stenosis
3. Hypertrophy
4. cardiomyopathy

Question 67

What would cause early P2 closure?

Answer 67

decreased RV filling due to tricuspid regurgitation

Question 68

What is S3? When is it heard?

Answer 68

It is a low frequency heart sound heard in early diastole during ventricular filling (right after S2)
Children : normal
Adults: CHF

Question 69

What are the two main causes of pathologic S3 in adults?

Answer 69

1. Decreased ventricular compliance (ventricular failure) — dilated cardiomyopathy
2. Increased flow across AV valve (increased ventricle volume) – mitral regurgitation, aortic insufficiency, ventricular septal defect

Question 70

Where do you listen for S3 and S4 heart sounds?

Answer 70

PMI - right over the cardiac apex at the mitral valve

Question 71

What is S4? When is it heard?

Answer 71

It occurs prior to ventricular activation and is secondary to atrial contraction (just prior to S1)

Question 72

What is the major cause of an S4 heart sound?

Answer 72

decreased ventricular compliance due to ventricular hypertrophy.

1. arterial hypertension
2. aortic stenosis
3. hypertrophic cardiomyopathy

Question 73

When are ejection fractions heard?

Answer 73

during early ventricular systole secondary to blood flow across the aortic and pulmonic valves.

Question 74

When are aortic ejection sounds most commonly heard?

Answer 74

In patients with bicuspid aortic valves

less commonly in aortic root disease or aortic coarctation

Question 75

When are pulmonary ejection sounds most commonly heard?

Answer 75

1. pulmonic stenosis
2. pulmonary hypertension
3. dilated pulmonary artery

(VARIES WITH RESPIRATION)

Question 76

What are the 5 pieces of info used to classify a cardiac murmur?

Answer 76

1. timing
2. location
3. quality
4. intensity
5. pitch

Question 77

What are the 6 grades of murmur intensity according to the Levine and Harvey scale?

Murmurs under what grade are considered “innocent”

Answer 77

1. barely audible
2. audible with stethoscope on chest wall
3. loud
4. loud with thrill
5. loudest murmurs heard while still requiring stethoscope
6. murmur audible w/o stethoscope

2 and under are innocent –> no significant pathology

Question 78

_________-sided murmurs get louder with respiration.

Answer 78

Right

Question 79

What are the 4 causes of a left-sided systolic murmur?

Answer 79

1. Aortic stenosis
2. Mitral regurgitation
3. Mitral valve prolapse
4. hypertrophic cardiomyopathy

Question 80

_________murmurs can be pathogenic or non-pathogenic. ____________ murmurs are always abnormal.

Answer 80

Systolic murmur can be normal but diastolic are always abnormal

Question 81

Describe the ejection murmur produced by aortic stenosis.

Answer 81

It is a left-sided systolic murmur that is harsh and diamond-shaped (crescendo-decrescendo)
The timing of the peak of the diamond corresponds to the severity of the stenosis. (Later = more severe)

Question 82

For aortic stenosis, the severity of the obstruction correlates with _______________ NOT the ____________________.

Answer 82

severity of the obstruction correlates with the timing of the peak NOT the intensity of the murmur.

Question 83

In addition to a left-sided murmur, what other change in heart sounds is associated with aortic stenosis?

Answer 83

It will take longer for LV to empty so there will be delayed A2.
This can result in either one S2 sound (A2 andP2 at the same time) Or a paradoxical split (A2 after P2)

Question 84

Where does a left-sided murmur due to aortic stenosis radiate to?

Answer 84

It radiates to the carotid as a pulsus parvus et tardus (delayed and low amplitude)

Question 85

Describe when you would hear mitral regurgitation on auscultation. What are the characteristics of the sound?
What increases the intensity of the murmur?

Answer 85

You hear it in systole (S1 to A2) and it is soft, blowing, high-pitched.
It will be associated with an S3 sound because of the increased flow across the valve

The intensity is increased with isometric exercise

Question 86

Where does a left-sided murmur due to mitral regurgitation radiate to?

Answer 86

When the regurgitation is due to the anterior leaflet- axilla and thoracic spine

Due to the posterior leaflet-
anteriorly toward the base of the heart

Question 87

What is mitral valve prolapse?
When would a murmur due to MVP occur? What factors make it earlier or later?
What sounds are associated with it?

Answer 87

It is when the valve leaflets pull back into the atrium.
It is associated with a mid-systolic ejection click and late systolic murmur.
It will be audible earlier if there is less blood in the ventricle ( standing, Valsalva) because there will be larger mismatch between ventricle size and valve leaflets

Question 88

What is the main problem with hypertrophic cardiomyopathy?
What sounds are associated with hypertrophic cardiomyopathy?
Where and when are the sounds best heard?
Where does it radiate to?

Answer 88

Cardiomyopathy has a dynamic outflow obstruction (so the degree of obstruction can increase or decrease)
Increased intensity of S1 and preservation of both components of S2. S3 or S4 MAY be present
It is heard best at the left sternal border. Does NOT radiate to carotids.

Question 89

What are factors that increase the intensity of a hypertrophic cardiomyopathy murmur?

Answer 89

1. decreased left ventricular dimension (Valsalva, vasodilators)
2. Increased ionotropy (PVB, medication)

Question 90

What are maneuvers that decrease the intensity of a hypertrophic cardiomyopathy murmur?

Answer 90

1. increased left ventricle dimension (squatting, Mueller)

2. Increased afterload (isometric exercise, phenylalanine)

Question 91

What are the two major left-sided diastolic murmurs?

Answer 91

1. aortic valve regurgitation

2. mitral valve stenosis

Question 92

What are the sounds associated with aortic valve regurgitation?

Answer 92

S1= normal or decreased 
S2 = normal with ejection sounds 
S3 = due to increased LV volume 
S4 = due to decreased LV compliance 

The sound begins after S2 and is decrescendo in quality

Question 93

Where does aortic valve regurgitation murmurs radiate?

Answer 93

along the left lower sternal border

Question 94

When is an aortic valve regurgitation murmur best heard?

Answer 94

with the patient sitting, leaning forward at the end of expiration

Question 95

What is the most common cause of mitral valve stenosis?

Answer 95

Rheumatic heart disease which affects mitral leaflets and subvalvular apparatus

Question 96

What sounds are associated with mitral valve stenosis?

Answer 96

1. Increased P2 due to pulmonary hypertension
2. Opening snap 30 to 120ms after S2 followed by a low rumbling murmur
3. Pre-systolic accentuation

Question 97

How should the patient be positioned to best hear mitral valve stenosis?

Answer 97

left decubitus listening at the apex

Question 98

What are the four right sided murmurs?

Answer 98

1. Tricuspid regurgitation
2. Pulmonary stenosis
3. pulmonic valve regurgitation
4. atrial septal defect

Question 99

Who is most frequently diagnosed with an atrial septal defect?
How does the murmur sound?

Answer 99

Asymptomatic people with a fixed split S2.
The murmur is heard at the second left intercostal due to increased pulmonic flow.
It has an ejection click followed by crescendo/decrescendo systolic murmur.

Question 100

What is a typical cause of tricuspid regurgitation?
When is the murmur heard and what are the qualities?
What increases the intensity of the murmur?

Answer 100

The typical cause of a tricuspid regurgitation is dilation of the RV stretching the tricuspid annulus.
It is heard in systole, high pitched and heard at the lower left sternal border.
The intensity is increased by anything that increased the volume of blood on the right side (like inspiration)

Question 101

When would you hear a murmur due to pulmonic valve stenosis?

What does it sound like?

Answer 101

You hear it during systole and it is harsh crescendo-decrescendo best heard at second left intercostal space.
The later the peak, the more severe the PS.
There is an ejection click due to abrubt cessation of valve movement and a delayed P2.

Question 102

When would you hear pulmonary valve regurgitation murmurs?

Answer 102

Diastole with a decrescendo murmur heard at the second left intercostal radiating to the low sternal border.
S2 is more intense because of increased intensity of P2 and the S2 split will be wide because of delayed P2

Question 103

What is the major cause of pulmonary valve regurgitation?

Answer 103

pulmonary hypertension - it is called a Graham Steel murmur

Question 104

What is a continuous murmur?

Answer 104

A murmur that begins in systole and continues to diastole which means there is communication between arterial and venous circulations.

1. AV fistulas
2. ruptured Valsalva sinus
3. Patent Ductus arteriosus

Question 105

How is PDA heard?

Answer 105

Patent ductus arteriousus is heard at the left second intercostal space
S1 is normal, S2 may be paradoxically split due to a large left to right shunt
It is a continuous murmur so it begins in systole, peaks at S2 and continues into diastole.
The duration into diastole is determined by the pulmonic hypertension (higher pressure, shorter duration)

Question 106

What is a Holter monitor, event monitor and implantable monitor?

Answer 106

Holter- outpatient EKG for 24 to 48 hours
Event- outpatient for a month
Implantable- up to 2 years that is in the chest wall to monitor rhythm

Question 107

What are the 2 types of stress tests?

Answer 107

1. Exercise stress tests

2. Chemical stress tests - dobutamine then watch sonography and EKG

Question 108

What does echocardiography assess?

What are the benefits?

Answer 108

1. heart size
2. ventricular function
3. valve function

It is portable and non-invasive

Question 109

What is cardiac catheterization?

Answer 109

An invasive procedure where catheter is introduced into cardiovascular system via x-ray to measure pressure, collect blood, inject contrast, balloon vessels.

Question 110

What is ablation and what can it treat?

Answer 110

Cold temp (cryoablation) and heat (radiofrequency) can damage certain areas of cardiac tissue to treat arrhythmias