Cardiac A&P

Question 1

The coronary veins empty into the ____ via the ___

Answer 1

Right atrium coronary sinus

Question 2

This valve protects the coronary sinus

Answer 2

Thesbian valve

Question 3

This valve protects the IVC

Answer 3

The Eustachian valve.

In fetal development, this valve helps to direct the flow of blood from the RA to LA. In adults, this mainly exists as a vestigial structure.

Question 4

This muscle bundle of the trabeculae carneae carries the right branch of the AV bundle

Answer 4

The moderator band

Question 5

Which is larger, the L or R atrium?

Answer 5

L

Question 6

These vessels supply blood to the L atrium

Answer 6

The pulmonary veins

Question 7

The upper third of the ventricular septum is ___, which the lower two thirds is ___

Answer 7

Upper third is smooth

Lower 2/3 thirds is muscular and covered with trabecular careener

Question 8

These are the three leaflets of the tricuspid valve

Answer 8

Anterior, posterior, and septal

Question 9

The valve area of the tricuspid valve is normally ___. Symptoms occur once the area is less than ____.

Answer 9

Normally 7 cm2

Symptoms once less than 1.5 cm2.

Question 10

The valve area of the mitral valve is normally ___. Symptoms occur once the area is less than ____.

Answer 10

Normally 4-6 cm2

Symptomatic once 2-3 cm2 (less than 50% normal area)

Question 11

These are the two leaflets of the mitral valve

Answer 11

Anteromedial and posterolateral.

Question 12

The aortic valve has this may cusps

Answer 12

3

All of the valves have 3 cusps except the mitral, which has 2.

Question 13

The valve area of the aortic valve is normally ___. Symptoms occur once the area is less than ____.

Answer 13

Normally 1-3 cm2

Symptomatic once less than 1/2 - 1/3 of normal area.

Question 14

What are the aortic sinuses?

Answer 14

Sinuses that give rise to the two coronary arteries. They are also known as the sinuses of valsalva.

Question 15

The valve area of the pulmonic valve is normally ___. Symptoms occur once the area is less than ____.

Answer 15

4 cm2

Symptomatic once less than 1/2 - 1/3 of normal area.

Question 16

The LAD supplies this part of the heart muscle and can be evaluated by these leads

Answer 16

Supplies the anterior portion of the LV and the inter ventricular groove.

Leads V3-V5 look at the LAD

Question 17

The circumflex coronary artery feeds this part of the heart muscle and is evaluated by this lead

Answer 17

Posterior LV and part of the RV.

Lead I

Question 18

What artery feeds the RA and SA node?

Answer 18

The RCA.

A proximal branch of the RCA, called the right atrial branch feeds the RA. The right atrial branch gives rise to the SA nodal branch, which feeds the SA node.

Question 19

This artery feeds the AV node.

Answer 19

The AV node artery, which is a distal branch off the posterior aspect of the RCA.

Question 20

What vessels feed the RV?

Answer 20

The anterior branches of the RCA

Question 21

What does the PDA supply?

Answer 21

The PDA is the posterior descending artery. It supplies the posterior 1/3 of the inter ventricular septum.

Question 22

These leads can evaluate the integrity of the PDA

Answer 22

II, III, and AVF

Question 23

How is the “dominance” of coronary circulation determined?

Answer 23

Dominance is determined by which major coronary artery feeds the posterior descending coronary artery (PDA).

80% of the population is RIGHT dominant, meaning that the RCA supplies the PDA.

20% of the population is LEFT dominant, meaning that the LCCA supplies the PDA.

The numbers above come from Brash. In Dr. E’s notes, she states that 50% are right dominant, 20% is left dominant, and a balanced pattern exists in the remaining 30%.

Question 24

The LCA provides blood for these structures

Answer 24

LAD
The R&L bundle branches
The anterior and posterior papillary muscles of the mitral valve
The anterolateral left ventricle

Question 25

The circumflex artery (LCCA) provides blood to

Answer 25

The lateral LV

Question 26

The RCA provides blood to these structures

Answer 26

SA and AV nodes
RA
RV
The posterior inter ventricular septum (in 80% of pts)
The intertribal septum

Question 27

The coronary arteries receive this % of the CO

Answer 27

5%, or about 250cc/min

Question 28

What determines flow through the coronaries?

Answer 28

Duration of diastole
Coronary perfusion pressure
CPP = Diastolic BP - LVEDP

Question 29

What is the formula for coronary perfusion pressure (CPP)?

Answer 29

CPP = DBP - LVEDP

Question 30

Flow through the LCA occurs at this point during the cardiac cycle

Answer 30

Diastole

Question 31

Flow through the RCA occurs at this point during the cardiac cycle

Answer 31

During both systole and diastole. This is because the pressures generated by the heart are much lower on the R than the L side of the heart.

Question 32

Myocardial O2 consumption is low or high?

Answer 32

HIGH! So high in fact, that the venous sats in the heart are the lowest in the body (30%)

Question 33

Coronary perfusion pressure (CPP) is usually auto regulated between ___-___ mmHg

Answer 33

50-120

Question 34

What vessel supplies the anterior portion of the RV?

Answer 34

The LAD

Question 35

The LA is mostly fed by this vessel

Answer 35

LCCA

Question 36

When may there be an elevated LVEDP, thus resulting in decreased perfusion through coronary vessels?

Answer 36

CHF

Question 37

This is the primary determinant of coronary vascular tone, and thus, myocardial perfusion

Answer 37

Metabolic factors (such as adenosine which is released under hypoxic conditions)

Question 38

Which coronary artery is able to auto regulate more?

Answer 38

The LCA d/t it’s higher sympathetic innervation.

Question 39

Where does the greatest dilation of vessels occur within the coronary circulation?

Answer 39

At the level of the smallest vessels

Question 40

Where is the SA node located?

Answer 40

At the junction of the SVC and RA

Question 41

These are the two cell types of the SA node

Answer 41

Pacemaker cells (p cells)
Transitional/intermediate cells (these conduct impulses within and away from the node)

Question 42

What is the internodal tract?

Answer 42

The conduction pathway between the SA and AV nodes.
The tract contains both P cells and transitional/intermediate cells.

Made of 3 tracts

1) The anterior internodal tract –> septum
2) Middle internal tract (Wenchebach’s tract) –> SVC
3) Posterior internodal tract (Thorel’s Tract)–> septum

Question 43

Bachmann’s bundle is a branch off of this internal tract

Answer 43

The anterior internodal tract

Question 44

Properties of the AV node

Answer 44

Causes a delay in transmission of the action potential. Accomplishes this by:

• Lower resting membrane potential (-60 vs. -50 for SA node)
• Fewer gap junctions
• Smaller cells

Supplied by vagal ganglionic cells
Intrinsic rate of about 50bpm

Question 45

At rest, cardiomyocytes are more permeable to ____ and less permeable to __ and __

Answer 45

More to potassium

Less to sodium and calcium.
This means that the resting membrane potential is mostly dependent on potassium concentrations

Question 46

5 phases of the cardiac action potential

Answer 46

Phase 0 - depolarization via fast Na+ channels
Phase 1 - depolarization as N+ influx ends
Phase 2 - Plateau as slow Ca++ channels open, allowing an influx of Ca++
Phase 3 - Terminal depolarization as slow Ca++ channels close, but mass efflux of K+ occurs
Phase 4 - Diastolic phase of the heart. Restoration of membrane potential via Na-K pump

Question 47

The absolute refractory period lasts from ___-___

Answer 47

Phase 0 to the middle of phase 3

Question 48

The relative refractory period lasts from ___-___

Answer 48

The middle of phase 3 to phase 4. During this period, a second stimulus will result in a weaker action potential than the first

Question 49

Are the atria electrically isolated from the ventricles?

Answer 49

Yes. The atria are electrically isolated from the ventricles by the heart’s cartilaginous skeleton. As a result, atrial depolarization is directed to the ventricles solely through the AV node.

Question 50

Pathway of sympathetic innervation of the heart

Answer 50

Sympathetic fibers to the hear originate from the stellate ganglion and caudal cervical fibers.

These turn into the dorsal, medial, and lateral cardiac nerves.
These nerves unite to form one large nerve that follows the course of the Left Main CA
It then branches along the anterior descending and circumflex arteries, providing cholinergic fibers to the ventricle.
Ach is released to post-synaptic NICOTINIC receptors.
Norepi will then activate B1 adrenergic receptors at the target site.

Question 51

Pathway of parasympathetic innervation of the heart

Answer 51

PSNS fibers arise from the the medulla (more specifically, the vagal nucleus and the nucleus ambiguus).
These fibers enter the heart via the recurrent laryngeal nerve and thoracic vagal nerves, and form plexuses that give rise to the R and L coronary cardiac nerves, and the L lateral cardiac nerve.
Remember that in the PSNS, ganglia occur close to their target organ. This is true with the heart as well.
In the ganglion, Ach is released onto nicotinic receptors. At the target site, Ach is released onto muscarinic receptors within the heart.

Question 52

Where are vagal receptors most prevalent in the heart?

Answer 52

Most are in the SA node.

The followed by the AV node, RA, LA, and the ventricles.

Question 53

What five factors determine CO?

Answer 53

Cardiac output is determined by:

1) Preload
2) Afterload
3) Contractility
4) HR
5) Ventricular compliance

Question 54

Which is easier for us as anesthesia providers to alter, O2 supply or demand of the heart?

Answer 54

It is easier for us to decrease O2 demand than it is for us to increase O2 supply.

Question 55

How to treat intra-op ischemia

Answer 55

If the cause is low supply (as evidenced by low BP and low PCWP)

• Give vasoconstrictors
• Decrease anesthetic depth (to raise BP)
• Consider phenylephrine and NTG, inotropes, and CCBs

If the cause is high demand (as evidenced by high BP, high PCWP, and higher HR)

• Treat what’s causing the high BP and HR
• Increase anesthetic depth (to reduce HR and BP)
• NTG
• BBs

Question 56

How the heart compensates in early AS

Answer 56

Basically, the heart is responding to the increased pressure needed to overcome the aortic valve by concentric hypertrophy. This hypertrophy leads to less ventricular compliance. As a result, there is less early (passive) diastolic filling, and it relies more on late (active) diastolic filling from the atrial kick. In early stages, SV remains normal.

Question 57

Patho that occurs in late AS

Answer 57

In early AS, the ventricle has normal function, just decreased compliance d/t the hypertrophy.

In late AS, fibrosis occurs, resulting in less compliance, as well as decreased contractility and increased wall tension. This results in LV dilation and decreased stroke volume. The heart is no longer able to compensate.

Question 58

Implications of low ventricular compliance

Answer 58

Pt will be very sensitive to volume depletion (need a lot of preload to stretch the ventricle!)
Pt will depend heavily on atrial kick for adequate filling (don’t want the patient too tacky or in an abnormal rhythm!)
Wide swings will occur in ventricular filling pressure (the patient will be labile)
PCWP will underestimate LVEDP
LVEDP will be higher, and this reduces CPP (remember that CPP = DBP - LVEDP)

Question 59

What are the MAIN goals for a patient with AS?

Answer 59

1) Adequate filling time (prevent tachy)

2) Adequate perfusion pressure (prevent hypotension)

Question 60

This valvular disease predisposes pts to a-fib

Answer 60

Mitral stenosis and mitral regurgitation