CARDIAC DIAGNOSTICS AND INVASIVE THERAPIES

Question 1

What are the different kinds of Echos?

Answer 1

Rapid
Accurate
Readily available
Portable
Noninvasive

Question 2

Transthoracic echo includes

what?

Answer 2

M-mode
2D cardiac images
Color flow Doppler (checks flow)

Question 3

Pulse wave Doppler measurements are shown of the aortic valve. High flow rates can be seen during _____ with little flow during ______.

Answer 3

systole

diastole

Question 4

Echo provides valuable information about cardiac structure and function
Structure? 2
Function? 2

Answer 4

1. Chamber size,
2. muscle thickness
3. Ejection fraction,
4. wall motion

Question 5

What other things will an echo be used for?

4

Answer 5

1. Aortic root size (ascending aortic aneurysm)
2. Valve structure and function
3. Intracardiac blood flow (shunts, pressures)
4. Portable (mini) used in the ED for screening for tamponade, effusion, etc.

Question 6

Transesophageal echo is used for more detailed evaluation of:

Answer 6

Intracardiac thrombus
Valve function
Endocarditis

Question 7

1. How to we use it for Intracardiac thrombus with an Transesophageal echo? 1
2. For valve function?2
3. For endocarditis? 1

Answer 7

1. Prior to direct current cardioversion
2. • For further evaluation beyond TTE
   • For use in the operating room during valve replacement
3. Looking for vegetations

Question 8

What are the three different technologies for abnormal rhythms?
3

Answer 8

1. Holter monitor
2. Event monitor
3. Electrophysiology Studies (EPS)

Question 9

What are the two kinds of ambulatory cardiac monitors?

Answer 9

Holter and Event

Question 10

Holter vs Event:

1. How long is it worn for?
2. What is the patients role?
3. What will the monitor usually tell us?

Answer 10

Holter

1. Worn for 24 hours
2. Patient records a diary of activities and symptoms
3. Many times asymptomatic during that time period

Event

1. Worn for a month
2. Patient triggers the monitor to record during symptoms
3. Newer devices will detect significant arrhythmias without patient triggering device to record

Question 11

Ambulatory cardiac monitors are useful to investigate the following:
6

Answer 11

1. Palpitations
2. To assess rate control or determine percent of atrial fibrillation
3. Syncope
4. Intermittent dizziness or lightheadedness that does not seem to be orthostatic
5. Suspected bradycardia (shortness of breath or fatigue)
6. Evaluate for suspected or known arrhythmias

Question 12

Electrophysiologic Studies (EPS)
are done how?

Answer 12

Use multipolar electrode catheters placed in the venous and/or arterial circulation and advanced to various positions in the heart

Question 13

1. What does it record?
2. What kind of disease does it define?
3. What does it attempt to do?
4. What does it measure?

Answer 13

1. Records an internal EKG
2. Defines conduction system disease
3. Attempts to induce arrhythmias (SVT and VT)
4. Measure response to pharmacologic and/or pacing device intervention

Question 14

Indications for EPS?

5

Answer 14

1. Unexplained syncope
2. Survivors of sudden cardiac death that was not related to an ischemic event
3. Palpitations preceding syncope
4. Poorly tolerated episodes of SVT
5. Many others…related to uncovering or treating arrhythmias

Question 15

Electrophysiology Devices?

4

Answer 15

1. Pacemakers
2. Defibrillators
   Therapy for advanced heart failure
3. Bi-Ventricular pacing
4. LVAD

Question 16

What does a Pacemaker?

Answer 16

Provides electrical stimuli to cause cardiac contraction when intrinsic cardiac activity is inappropriately slow or absent

Question 17

Pacemakers are the only treatment for what?

What are the different kinds?
4

Answer 17

Bradycardia

1. External Pacemaker (Transcutaneous pacemaker)
2. Permanent Pacemaker
3. Biventricular Pacemaker
4. ICD

Question 18

1. External pacemakers are used best when?
2. Transcutaneous pacing (TCP) recommended for what?
3. Place two pacing pads on the patient’s chest. In what two positions?
4. Short term until what?

Answer 18

1. in emergencies as a bridge to therapy
2. the initial stabilization of hemodynamically significant bradycardia
3. either in the anterior/lateral position or the anterior/posterior position (this is painful)
4. transvenous pacing or
   other therapies can be applied

Question 19

Placement of a permanent pacemaker involves placement of what?

Where is each connected?

What are the kinds? 2

Answer 19

of one or more pacing wires within the chambers of the heart.

One end of each wire is attached to the muscle of the heart. The other end is screwed into the pacemaker generator.

1. Single lead (paces in the ventricle)
2. Dual Chamber (can pace in the right atrium or right ventricle)

Question 20

Where is the generator placed in the pt for a permanent pacemaker?

Answer 20

The generator is placed below the subcutaneous fat of the chest wall

Question 21

Absolute Pacemaker indications?

7

Answer 21

1. Sick sinus syndrome
2. Symptomatic sinus bradycardia
3. Tachy-brady syndrome
4. Afib with slow ventricular response
5. 3rd degree heart block
6. Chronotropic incompetence
   - -Inability to increase heart rate to match exercise
7. Prolonged QT syndrome

Question 22

Pacemakers usually have multiple functions such as? 2

Answer 22

1. Sensing (listening) to the heart’s native electrical rhythm
2. Pacing the device will stimulate the ventricles of heart with a set amount of energy, measured in joules at whatever heart rate the device is set at

Question 23

What is pacemaker syndrome?

3

Answer 23

1. Patient feels worse after pacemaker placement
2. Presents with progressive worsening of CHF symptoms
3. Due to loss of atrioventricular synchrony, pathway now reversed and ventricular origin of beat

Question 24

Biventricular pacing is reserved for therapy for what?

Answer 24

advanced heart failure

Question 25

The biventricular pacing devices have added a third lead (to position B) that is designed to what?

The combination of all three leads creates a synchronized pumping of the ventricles. How does this help? 2

Answer 25

conduct signals directly into the left ventricle

1. Gets rid of the asynchrony between ventricles
2. May increase EF

Question 26

What is ICD therapy?

What controls the different functions of this?

Answer 26

1. ICD Therapy consists of pacing, cardioversion, and defibrillation therapies to treat brady and tachy arrhythmias.
2. An external programmer is used to monitor and access the device parameters and therapies for each patient.

Question 27

ICD Indications?

3

Answer 27

1. Used in cases where there was a previous cardiac arrest
2. Patients with undetermined origin or continued VT or VF despite medical interventions
3. Cardiomyopathy (EF

Question 28

ICDs prevent what?

Answer 28

sudden cardiac death

Question 29

1. What are ICDs designed to treat? (most commonly)

2. What can they also perform?
when?

Answer 29

1. Designed to treat cardiac tachyarrythmias
   Most commonly in patient’s with cardiomyopathy
2. Performs cardioversion/defibrillation
   If ventricular rate exceeds programmed cut-off rate

Question 30

1. ATP is what?

2. What does it do?

Answer 30

1. antitachycardia pacing

2. Overdrive pacing in an attempt to terminate ventricular tachycardias

Question 31

How long is the lifespan of a pacemaker?

Answer 31

Life span 5 to 10 years

Question 32

If case of emergency an external defibrillator can still be used. How far away should it be placed from the pulse generator?

Answer 32

10cm

Question 33

1. Left ventricular assist device (LVAD) is for?
2. May serve as a bridge for what?
3. Pump of the LVAD takes over the work of who?
4. Where is the pulse generator for this device?

Answer 33

1. severe systolic heart failure
2. May serve as a bridge to transplant
3. Pump of the LVAD takes over the work of the left ventricle
4. Implantable tubes that connect to an external battery pack

Question 34

Percutaneous coronary intervention: What are the two types?

Answer 34

1. Angioplasty

2. Intracoronary stent placement

Question 35

What are the two types of intracoronary stent placements?

Answer 35

1. Bare metal stents

2. Drug coated stents

Question 36

Whats a major limitation of angioplasty?

Answer 36

Restenosis

Occurs in the first 6 months of 30-40%

Question 37

Describe a stent implantation.

4

Answer 37

1. Before stent implantation, the blocked artery usually is treated and dilated with one or more angioplasty balloons.
2. A stent, tightly mounted on a special angioplasty balloon, is then guided to the site of the blockage.
3. The angioplasty balloon is inflated to stretch open the stent and implant it into the walls of the blocked artery.
4. The balloon is deflated and removed, and the stent remains permanently in place to hold the artery open.

Question 38

A drug-eluting stent is coated with an agent that inhibits _______.

The Cypher stent is coated with an antibiotic called ______ (also called ________), which is slowly released into the artery for about __ _____ after implantation.

Answer 38

restenosis

sirolimus
rapamycin
30 days

Question 39

Sirolimus is a “cytostatic” drug, which means what? 2

T-cells initiate an 3._______ _________ that commonly follows implantation, and inflammation can lead to 4.________.

Answer 39

1. it inhibits cell growth and division, and
2. inhibits T-cell activation and proliferation.
3. inflammatory response
4. restenosis

Question 40

With uncoated stents, restenosis occurs in _____% of patients.

The restenosis rate in patients who receive a drug-eluting stent is lower than uncoated stents. By how much?

1. These patients require fewer what?
2. And a lower risk of what?

Answer 40

15 - 25

(

Question 41

Factors associated with higher re-stenosis rate:

3

Answer 41

Diabetics
Small luminal diameter (the smaller the blood vessel the easier it is to restenosis)
Longer more complex lesions

Question 42

Can stents be replaced?

Answer 42

1. NO, New stents may be added, but the old stents are not removed.
   Additional cardiac stents may be needed if new blockages occur in other parts of an artery.

Question 43

Angioplasty/Stent Placement Post op what do they need to be on:

1. Angioplasty with or without stent placement?
2. Angioplasty with stent placement?

Answer 43

1. Aspirin for life

2. P2Y12 inhibitor for 12 months or longer in some cases.

Question 44

Angioplasty/Stent Placement
complications?
7

Answer 44

1. Restenosis
2. Arrhythmias
3. Bleeding at the insertion site
4. Heart attack, stroke
5. Infection at the insertion site
6. Kidney failure (from the IV contrast)
7. Ruptured artery (dissection)

Question 45

What is CABG?

What is it?

Answer 45

CABG – coronary artery bypass graft surgery

A procedure to bypass a blocked section of a coronary artery and to deliver oxygen to the heart

Question 46

CABG candidates

5

Answer 46

1. Failed medical therapy for angina
2. Not good candidates for balloon angioplasty and stent placement
3. Patients with multiple coronary lesions as is often seen in patients with diabetes
4. Left main stenosis
5. Patients with significant narrowing of all 3 major arteries, especially in those with systolic dysfunction

Question 47

CABG Risks and Complications

5

Answer 47

1. During and shortly after CABG surgery, heart attacks occur in 5 to 10% of patients and are the main cause of death.
2. About 5% of patients require exploration because of bleeding.
3. This second surgery increases the risk of chest infection and lung complications.
4. Stroke occurs in 1-2%
5. Post operative atrial fibrillation is common

Question 48

CABG Risks and Complications:
Mortality and complications increase with what?
6

Answer 48

1. Age (older than 70 years),
2. poor heart muscle function,
3. disease obstructing the left main,
4. diabetes,
5. chronic lung disease, and
6. chronic kidney failure

Question 49

What are the most commonly replaced valves?

Answer 49

The aortic valve and the mitral valve are the most commonly replaced valves

Question 50

The most common valve surgical procedure is _____ ______ replacement for _____ _______ but is also done for what three things?

Answer 50

aortic valve
aortic stenosis

1. mitral stenosis,
2. aortic and mitral regurgitation, 3. endocarditis

Question 51

Surgical options for valve replacement

4

Answer 51

1. Mechanical valve
2. Tissue valve (animal donor tissue) aka bioprosthetic
3. Ross Procedure
4. TAVI/TAVR procedure (Transcatheter aortic valve replacement)

Question 52

What is the benefit of mechanical valve replacement?

Downside?

Answer 52

long-lasting valve made of durable materials

Lifelong anticoagulation

Question 53

Benefit of Tissue valve (animal donor tissue) aka bioprosthetic?

Answer 53

Short term anticoagulation

Question 54

Some valves can be repaired instead of replaced depending on the disease process. WHich ones are common?
3

There is one that we dont usually repair. why?

Answer 54

1. Mitral
2. Tricuspid
3. Pulmonic
4. Short term results
5. Risk of stroke
   Only do it for palliation of symptoms