Lecture 07 Heart Rhythmicity and Normal ECG

Question 0

What is composed of special cardiac muscle fibers?

Answer 0

SA node

Question 1

What fibers are connected directly to atrial fibers?

Answer 1

SA node

Question 2

How fast does the AV node receives signal from the SA node after origin?

Answer 2

.03 seconds

Question 3

How long is signal delayed in the AV node?

Answer 3

for .09 sec

Question 4

Why are signals delayed in the AV node?

Answer 4

Due to small size of cells, low amplitude of action potential, and slow rate of depolarization during excitation.

Question 5

Where does the final delay of .04 seconds occur?

Answer 5

In the penetration bundles

Question 6

How long is the delay from the initial origin of the signal until onset of ventricular contraction?

Answer 6

.16 sec delay

Question 7

What is slow conduction caused by?

Answer 7

Mainly by diminished numbers of gap junctions along pathway resulting in an increase in the resistance to conduction

Question 8

What is the pacemaker of the heart?

Answer 8

SA Node

Question 9

What is the resting membrane potential of SA node fiber?

Answer 9

-55 to -60mV

Question 10

What is the threshold of the SA node fiber action potential?

Answer 10

-40mV

Question 11

Why are fast sodium channels already inactivated at resting potential?

Answer 11

Because activation gates close when membrane potential is less negative than -55mV

Question 12

What causes the membrane potential to become more positive?

Answer 12

At -60mV only sodium-calcium channels can open. There is a slow leak of sodium ions back into the cells and the membrane potential becomes more positive

Question 13

Since slow sodium-calcium channels are the only ones that can open at -60mV, what are two results of this?

Answer 13

Atrial nodal action potential is slower to develop

Repolarization is also slower

Question 14

At what point do ALL sodium-calcium channels become activated?

Answer 14

Threshold has been met at -40mV

Question 15

What channels become open at the time the sodium calcium channels become inactivated after phase 1?

Answer 15

Large numbers of potassium channels open

Question 16

When potassium ions move out of the SA node what stage is the action potential at?

Answer 16

Repolarization of the nodal cells. And potassium channels remain open for a few tenths of a second

Question 17

What is the resting potential of SA node vs Ventricular fiber?

Answer 17

SA node -60

Ventricular fiber -90

Question 18

When the SA node is the pacemaker of the heart what is the rhythm called?

Answer 18

Sinus

Question 19

When anything other than the SA node creates the pacemaker of the heart what is the rhythm called?

Answer 19

Ectopic focus or pacemaker

Question 20

What nerve distributes mainly to the SA and AV nodes?

Answer 20

Vagus Nerve

Question 21

What neurotransmitter does Vagus nerve have?

Answer 21

Acetylcholine

Question 22

What type of receptors does the vagus nerve involve?

Answer 22

Muscarinic receptors

Question 23

Involving the vagus nerve what does it decrease?

Answer 23

Decreases the rate of rhythm of SA node and excitability of the AV junctional fibers, slowing transmission of the cardiac impulse into the ventricles.

Question 24

The decrease rate of rhythm of the SA node is what type of effect?

Answer 24

Negative chronotropic effect

Question 25

How does the vagus nerve cause hyperpolarization?

Answer 25

Increases permeability of fiber membranes to potassium ions and cause the potential to go down to -70 to -65

Question 26

Where is sympathetic innervation distributed to?

Answer 26

To all parts of the heart, mainly the ventricles

Question 27

What is the neurotransmitter for sympathetic innervation?

Answer 27

Norepinephrine

Question 28

What receptors do the sympathetic innervation stimulate?

Answer 28

beta-1 adrenergic receptors

Question 29

Sympathetic innervation increases what?

Answer 29

Depolarization rate (positive chronotropic effect)
May increase permeability of fiber membranes to sodium and calcium ions

Question 30

In a typical ECG, what wave occurs at the beginning of the contraction of the atria?

Answer 30

P

Question 31

What event is generally not seen on a typical ECG?

Answer 31

Atrial repolarization

Question 32

What waves represents the depolarization of the heart?

Answer 32

P = atrial depolarization
QRS = Ventricular depolarization

Question 33

Repolarization of the heart on the ECG is represented by what wave?

Answer 33

T Wave = ventricular repolarization

Question 34

When using a ECG where is the current coming from?

Answer 34

The surface of the heart rather than a transmembrane event.

Question 35

What is a graphic representation of the electrical activity in cardiac muscle tissue produced by regions of depolarization and repolarization?

Answer 35

ECG

Question 36

Does an ECG measure Transmembrane potential?

Answer 36

No it measure extracellular potential

Question 37

When does a deflection from 0 occur in an ECG?

Answer 37

Only when there is current flow between regions of the heart(when there is variation in the membrane potential in different regions of the heart)

Question 38

Why does current flow not occur when only the atria and the ventricles have different potentials?

Answer 38

Because the atrial musculature and ventricular musculature are electrically isolated.

Question 39

When is potential recorded on an ECG?

Answer 39

Only when the muscle is partly polarized or partly depolarized does current flow from one part of the ventricle to another

Question 40

When depolarization and repolarization happen in a single phase but stretch out is what type of action potential is it?

Answer 40

monophasic

Question 41

What is the time interval of P-Q?

Answer 41

about .16 sec

Question 42

What is the interval of Q-T?

Answer 42

about .35 sec

Question 43

What is the direction of bipolar lead III?

Answer 43

120 degrees

Question 44

What bipolar lead is connected to both left and right arms?

Answer 44

Lead I

Question 45

Where are the terminals of recording limb lead I? How does it look at the heart?

Answer 45

Negative terminal connected to right arm
Positive terminal connected to left arm
Looks at the heart from left to right

Question 46

Where are the terminals located with the recording limb lead II? How does it look at the heart?

Answer 46

Negative terminal of ECG is connected to the right arm
Positive terminal of ECG is connected to the left leg
Looks at the heart from upper right to lower left

Question 47

Where are the terminals involving recording limb lead III and how does it look at the heart?

Answer 47

Negative terminal connected to left arm
Positive terminal connected to the left leg
Looks at heart from upper left to lower left

Question 48

What is Einthoven’s triangle?

Answer 48

Two arms and left leg form apices of triangle

Question 49

What is einthoven’s law?

Answer 49

If the electrical potentials of any two of the three bipolar limb ECG leads are known at any given instant, the third can be determined by summing of the first two

Question 50

How does current flow in the ventricles?

Answer 50

Flows from negative to positive primarily in the direction from the base of the heart toward the apex for most of the heart cycle until the very end

Question 51

Where will the electrode be negative in reference to the ECG? Where will it be positive?

Answer 51

Negative nearer the base of the heart

Positive nearer the apex of the heart

Question 52

When does the ECG record positive with recording limb lead I?

Answer 52

When the point where the right arm connects to the chest is negative with respect to the point where the left arm connects, the ECG records positive

Question 53

For lead II what part of the body is negative and what is positive?

Answer 53

Right arm is negative with respect to the left leg, the ECG records positive

Question 54

When the left arm is negative with respect to the left leg what will the ECG record? What recording limb does this represent?

Answer 54

Positive

Limb lead III

Question 55

What is a vector?

Answer 55

An arrow that points in the direction of the electrical potential generated by the current flow, with the arrow head in the positive direction

Question 56

What does the length of the vector arrow represent?

Answer 56

Drawn proportional to the voltage of the potential

Question 57

On the axis for lead I, where are the electrodes, what is the direction and what is the charge?

Answer 57

Two electrodes on two arms
Right is negative
Left is positive
The direction of lead is 0 degrees

Question 58

On the axis for lead II, where are the electrodes, what is the charge, and the direction?

Answer 58

Electrodes on right arm and left leg
Right is negative
Left is positive
Direction 60 degrees

Question 59

On the axis for lead III, what is the charge and direction of the electrodes and where are the placed?

Answer 59

Electrodes on left arm and left leg
Right is negative
Left is positive
Direction is 120 degrees

Question 60

When is the voltage recorded in the ECG of this lead is very low means what?

Answer 60

Vector in the heart is in a direction almost perpendicular to the axis of the lead

Question 61

When the heart vector has almost the same axis as the axis of the lead, how much voltage of the vector will be recorded

Answer 61

Entire voltage

Question 62

What is instantaneous mean vector

Answer 62

Sum mated vector of the generated potential at a particular instant

Question 63

What is reference vector?

Answer 63

Vector is horizontal and extends towards a persons left side, the reference direction equals 0 degrees

Question 64

The average direction of the vector during spread of the depolarization wave through the ventricles results in the apex of the heart remaining as what charge with respect to the base of the heart?

Answer 64

Positive

Question 65

The QRS vector has what angle in relation to the zero reverence point?

Answer 65

59 degrees (positive)

Question 66

What is the mean electrical axis of the heart?

Answer 66

+59 degrees

Question 67

What does the T - wave represent?

Answer 67

Reploarization of the ventricle

Question 68

What is the greatest portion of the ventricle to repolarize first?

Answer 68

Entire outer surface of the ventricles, especially near the apex

Question 69

What areas normally repolarize last?

Answer 69

Endocardial areas

Question 70

What does the ventricular vector point towards during repolarization?

Answer 70

Apex of the heart

Question 71

Is a normal T wave in all three bipolar leads is negative or positive?

Answer 71

Positive as is most of the QRS complex

Question 72

Where does atrial depolarization begin?

Answer 72

Sinus node

Question 73

What is the vector direction in a P-wave?

Answer 73

Generally in the direction of the axes of the three standard bipolar limb leads

Question 74

During the P wave what does the ECG read in each lead?

Answer 74

Its normally positive in all three leads

Question 75

Where is the spread of depolarization slower?

Answer 75

Slower through atrial muscle than the ventricles

Question 76

In an atrial T-wave what is the first part to become repolarized?

Answer 76

Sinus node area

Question 77

Where is the atrial t-wave on an ECG?

Answer 77

Obscured by QRS wave

Question 78

How many leads does a typical ECG use?

Answer 78

12

Question 79

What are the names of the six standard leads?

Answer 79

V1-V6

Question 80

What are the names of the augmented leads?

Answer 80

aVR, aVL, aVF

Question 81

Which of the following represents the mean electrical axis of the normal ventricles?

Answer 81

59 degrees

Question 82

What is the definition of mean electrical axis?

Answer 82

The direction of the electrical potential (negative and positive) from the base of the ventricles towards the apex

Question 83

What are conditions that can cause mean electrical axis deviation?

Answer 83

Change in position of the heart in the chest
Hypertrophy of one ventricle
Bundle branch block
Fluid in pericardium
Pulmonary emphysema

Question 84

If there is an increased voltage in the standard bipolar leads, this could be a result of what reading from the QRS complex? Give a most common cause

Answer 84

Sum of the voltages of all the ARS complexes of the three standard leads is greater than 4mV. most common cause is hypertrophy of the ventricle

Question 85

What are causes of decreased voltage in the standard bipolar leads?

Answer 85

Cardiac myopathies

Caused by conditions surrounding the heart

Question 86

How long does a normal QRS last?

Answer 86

.06 to .08 seconds

Question 87

In hypertrophy or dilation of the left or right ventricle causes the QRS time to be ________?

Answer 87

Prolonged to .09 to .12 seconds

Question 88

What are conditions that cause bizarre complexes?

Answer 88

Destruction of cardiac muscle and replacement by scar tissue

Multiple small local blocks in the conduction impulses at many points in the Purkinje system

Question 89

What can cause parts of the heart to remain partially or totally depolarized all the time? And what does this do to current flow?

Answer 89

Different cardiac abnormalities. Since there is always a difference in polarity there will be a current of injury flows between the pathologically depolarized and the normally polarized areas even between heart beats

Question 90

What are abnormalities causing current of injury?

Answer 90

Mechanical trauma
Infectious processes
Ischemia (most common cause)

Question 91

What is the effect of current of injury on QRS complex?

Answer 91

Abnormal negative current flows from infarcted area and spreads toward the rest of the ventricles

Question 92

What is the J point?

Answer 92

Reference point for analyzing current of injury

Question 93

Where does the J point occur?

Answer 93

At the very end of the QRS wave and is the point at which all parts of the ventricle, including the injured areas, have become depolarized.

Question 94

How can an ECG show where the injury of the heart is?

Answer 94

Find the vector between Lead I and III and the vector points to the injury