Cardiac Electrophysiology

Question 1

What is commotio cardis?

Answer 1

sudden blunt impact to the chest that causes sudden cardiac arrest

Question 2

What is the intrinsic heart rate?

Answer 2

no neural input: 100 bpm

Question 3

What is the meximum effective heart heart?

Answer 3

180 bpm

Question 4

What is the bpm for tachycardia?

Answer 4

greater than 100

Question 5

What is the bpm for bradycardia?

Answer 5

less than 60

Question 6

What is the dynamic range?

Answer 6

20 - 250 bpm

Question 7

What does an ECG measure?

Answer 7

cardiac action potential; events happen quickly

Question 8

What occurs during a P wave?

Answer 8

atria depolarize

Question 9

What happens during a QRS wave?

Answer 9

ventricles depolarize

Question 10

What happens during the T wave?

Answer 10

ventricles repolarize

Question 11

Does ventricular or atrial AP last longer?

Answer 11

ventricular has longer duration

Question 12

What waves are considered ventricular AP?

Answer 12

QRS and T wave

Question 13

What waves are considered atrial AP?

Answer 13

P wave

Question 14

What are the atrial components?

Answer 14

• sino-atrial node
• arterial internodal pathways
• atrial ventricular node
• Bachman’s bundle

Question 15

What is the sinal-atrial node?

Answer 15

• initial packemaker region
• origin of cardiac AP

Question 16

What are the atrial internodal pathways?

Answer 16

Carries sino-atrial node to AV node and spreads AP across the atrial myocardium

Question 17

What is the atrial ventricular node?

Answer 17

• passage of atrial AP to ventricular AP
• conductance slowed; enables atrium time to contract and fill ventricles

Question 18

What is Bachman’s bundle?

Answer 18

passage of right atrial AP to left atrial AP

Question 19

What are the ventricular components?

Answer 19

• AV bundle of HIS
• left and right bundle branches
• Purkinje fibers

Question 20

What is the AV bundle?

Answer 20

secondary pacemaker region

Question 21

What is the function of the left and right bundle branches?

Answer 21

• conducts AV node AP through cardiac septum along left and right branches
• separate left and right ventricular pathways

Question 22

What in the purpose of Purkinje fibers?

Answer 22

• conducts AP throughout ventricular myocardial tissue
• tertiary packemaker site

Question 23

What is the path of AP conduction velocities?

Answer 23

SA node -> internodal atrial fibers -> atrial myocardium -> junction ->AV node -> bundle of HIS -> Purkinje fibers ->ventricular myocardium

Question 24

What are the factors that affect current flow?

Answer 24

• # of cell-cell gap junctions
• cell diameter: small= small conduction velocity; large= large conuction velocity
• cell alignment

Question 25

What is the RR intervak in cardiac excitation?

Answer 25

time from one R wave to the next

inverse= heart rate

Question 26

What is the RR interval in cardiac excitation?

Answer 26

time from one R wave to the next

inverse= heart rate

Question 27

What is the PR interval in cardiac excitation?

Answer 27

start of atrial depolarization to ventricular depolarization

Question 28

What is the QRS interval in cardiac excitation?

Answer 28

time ventricular depolarization occurs

Question 29

What is the ST segment in cardiac excitation?

Answer 29

time after ventricular polarization

Question 30

What is the QT interval in cardiac excitation?

Answer 30

start of deplarization to end of repolarization

Question 31

What has a fast AP and is considered a conducting cell??

Answer 31

• atrial muscle
• ventricular muscle
• bundle branch
• Purkinje fibers

Question 32

What has slow AP and is considered a pacemaker cell?

Answer 32

• SA node pacemaker
• atrioventricular node

Question 33

What is the affect on ion channels during depolarization?

Answer 33

inward Na and Ca currents

Question 34

What is the affect on ion channels during repolarization/hyperpolarization?

Answer 34

outward K currents

Question 35

What happens in phase 0 of ion channels?

Answer 35

• depolarization
• activation of fast voltage gated Na and Ca channels
• inward Na (Ina) and Ca (Ica) flux

Question 36

What happens in phase 1 of ion channels?

Answer 36

• early repolarization
• activation of a transient outward voltage gated K channel
• outward K flux (Ito)
• inactivation of Na channels

Question 37

What happens in phase 2 of ion channels?

Answer 37

• plateau
• activation of voltage gated Ca channels
• activation of delayed rectifier K channels (Ikr and Iks)
• inward Ca flux and outward K flux counteract each other

Question 38

What happens in phase 3 of ion channels?

Answer 38

• late repolarization
• activation of voltage gated Ca current
• activation of delayed rectifier K channels
• inward rectifier K channels (Ik1)
• outward K flux

Question 39

What happens in phase 4 of ion channels?

Answer 39

• diastolic resting potential
• activated inward rectifier K channels
• outward K influx (Ik1)

Question 40

What are the 3 states of voltage gated channels?

Answer 40

• closed: NO ions flow through the channel pore
• open (depolarization): ions flow through the channel pore based on electrochemical force
• inactivated: NO ions flow through the channel pore

Question 41

How many subunits do voltage gated K channels have?

Answer 41

4 subunits with 6 transmembrane domains in each

Question 42

Where does ion selectivity occur?

Answer 42

in the pore, only allowing K to pass

Question 43

The transmembrane region has what sensor in what specific region?

Answer 43

voltage sensor in S4 region

Question 44

Outward currents include what channels?

Answer 44

voltage gated K channels and inward rectifier K channels

Question 45

How many subunits are required to form the ion channel in outward currents?

Answer 45

4 subunits

Question 46

Inward currents include what channels?

Answer 46

Na and voltage gated Ca channels

Question 47

How many subunits are required to form the ion channel in inward currents?

Answer 47

1 alpha subunit with 4 domains

Question 48

Inward currents are produced by what?

Answer 48

single polypeptide chain

Question 49

What is a pore region in inward currents?

Answer 49

one specifically allows Na to come through and another allows Ca to come through

Question 50

What is the similarity between cardiac and neuronal AP?

Answer 50

both fire overshooting all-or-none AP

Question 51

What is the difference between cardiac and neuronal AP?

Answer 51

• duration of cardiac AP is longer than neuronal AP

Question 52

What is a refractory period?

Answer 52

period that causes enough time for heart to fill with blood before the next contraction

Question 53

What is the effective refractory period?

Answer 53

when the cell CANNOT fire another AP

Question 54

What is the relative refractory period?

Answer 54

cell CAN fire another AP but amplitude is reduced

Question 55

Both the effective and relative refractory periods are caused by what?

Answer 55

inactivation state of voltage gated Na or Ca channels

Question 56

What differerntiates pacemaker cells from ventricular cells?

Answer 56

pacemaker cells have:
* slower riding phase in phase 0
* no early repolarization pahse 1
* no plateau phas in phase 2
* slower depolarize in phase 4
* resting potential is more depolarized

Question 57

All cells express what specific channel?

Answer 57

If (funny)

Question 58

What is automaticity?

Answer 58

initiates heart beat

Question 59

What is rhythmicity?

Answer 59

regular pacemaking activity

Question 60

What is the dominant packemaker?

Answer 60

SA node

AV node is the backup

Question 61

What happens in phase 0 of slow pacemakers?

Answer 61

Ica: Ca current voltage dependent Ca channel

Question 62

What happens in phase 3 of slow pacemakers?

Answer 62

Ik: K current voltage-dependent K channel

Question 63

What happens in phase 4 of slow pacemakers?

Answer 63

If: pacemaker cureent cyclic-nucleotide gated Na channel

needed for automaticity

Question 64

What is the threshold potential?

Answer 64

membrane potential for triggering all or nothing AP

Question 65

What are the steps for altering automaticity and firing frequency?

Answer 65

1. change in slope of phase 4
2. hyperpolarization during phase 4
3. change in threshold for firing

Question 66

What is the resting heart rate reduced by?

Answer 66

basal parasympathetic tone

Question 67

Innervation of nodal regions are predominantly what?

Answer 67

parasympathetic

Question 68

How does exercise affect the heart rate regulated by the autonomic nervous system?

Answer 68

• reduces parasympathetic tone
• increases sympathetic tone
• increases HR and force of myocardial contraction

Question 69

How does sympathetic stimulation affect ion channels?

Answer 69

increase If, Ica, and Ik

Question 70

How does parasympathetic stimulation affect ion channels?

Answer 70

• decrease If and Ica
• increase Ik (Ach)