Lecture 2: Physiological Basis of the ECG

Question 1

How is a electrocardiogram conducted?

Answer 1

9 electrons are placed on the surface of the skin at various locations, obtaining 12 different readings (called leads). Each records the voltage difference between itself and another electrode on the body. If there is a difference–> deflection. If not, no deflection.

Question 2

What exactly does a ECG measure?

Answer 2

It measures the change in electrical activity of cardiac muscle by measuring the extracellular potential .

Question 3

What causes a deflection on the ECG?

Answer 3

1. When the cardiac tissue has a different membrane potential than the rest of the heart.
2. Current flow between regions.

Question 4

Do the electrodes record voltage differences in either the ventricles or the atria OR between the atria and ventricles?

Answer 4

In EITHER the ventricles or the atria; because there is insulation between the two.

Question 5

What are the X and Y axis of a ECG?

Answer 5

Y axis–> changes in mV.

X axis–> time

Question 6

Each electrode of an ECG will look at the _______.

Answer 6

Voltage changes in the heart from different directions.

Question 7

With an ECG, we measure the intracellular/extracellular potential.

Answer 7

EXTRACELLULAR

Question 8

What cells are the first to repolarize in cardiac muscle?

Answer 8

The last to depolarize

Question 9

At rest, the cells are (-) compared to the (+) outside environment.

As cells depolarize, what happens?

Answer 9

The cells become (+) compared to the negative (-) outside environment.

Depolarization is occuring towards the positive electrode, thus, there will be a positive deflection representing depolarization

Question 10

What does the ECG look like once ALL cells are depolarized?

Answer 10

There is no voltage difference between the two electrodes; thus, we go the isoelectricpoint point.

Image B

Question 11

What will repolarization look like on the ECG?

Answer 11

Repolarization will reflect an upward reflection (+) the first cells to repolarize are the ones that depolarize last. See before image.

Question 12

The average current flow occur with ______ towards the base of the heart and with _______ towards the apex.

Answer 12

The average current flow occur with negativity towards the base of the heart and with positivity towards the apex.

Question 13

Describe and label a normal ECG

Answer 13

1. P wave- atrial depolarization
2. PR interval-time it takes the SA node to send message to the AV node (normal= .12-.20 seconds)

3. QRS complex- ventricular depolarization from R–>L ventricle; apex–> base; interior to exterior (normal= .05- .1 second)

4. ST segment–> phase 2 of AP delays repolarization; still a part of ventricular depolarization. Ventricles are in absolute refractory period because it is ejecting blood.
5. T wave- ventricular repolarization from L–> R, base to apex; although still a part of ventrilar depolarization because not all cells have depolarized so they will and continue to eject the remaining blood.

Question 14

What leads are the P wave upright, inverted and variable?

P waves goes towards a leads, making it ____.

Answer 14

• Upright in: leads 1, 2, V4, V6 and AVF.
• Inverted in: AVR.
• Variable in all other leads.
• P waves go towards a lead, making it positive.

Question 15

What is a normal PR interval?

Answer 15

.12 –> .20 seconds.

Around 0.16 seconds

Question 16

What does it mean if our PR interval is more than .2 seconds?

Answer 16

AV block.

Question 17

Describe the QRS complex

-What is the normal time?

Answer 17

The QRS complex is the period of ventricular depolarization.

Normal time:.05 seconds–> .1 second.

• Blood is currently in the L ventricle. In this stage, isovolumetric ventricle contraction is occuring: no change in volume; thus, all valves are closed. Ventricular muscle is building up pressure to allow ejection through the semilunar valves.

Question 18

Describe the P wave

Answer 18

P wave- atrial depolarization

-Represents phase 0 of AP in the atria muscle.

At the end of the P wave, all cells are depolarized and we are now at our isoelectric point, but the AP is still occuring because the atria is still contracting.

We do not see repolarization of the atria because it is masked by the atrial T wave.

Question 19

Describe the QRS complex, ST interval and T wave

What phase of ventricular m. AP does this correspond with?

Answer 19

QRS- ventricular depolarization

• Q (phase 0) of the AP in the ventricular muscle
• At the ST segment, all of the cells are depolarized; thus here is a plateua because mv=0.
• T wave (phase 3) is the repolarization (and some depolarization) of the ventricles. At the end, we are at isoelectric point and everything is back to baseline.

Question 20

What is a U wave?

Answer 20

U waves are not typically seen. If they are; they follow the T wave.

It can represent many things such as delayed depolarization of the purkinje fibers, prolonged repolarization of mid-myocardial M cells, etc.

Question 21

At what point are most ventricular myocutes contracting?

Answer 21

At the S-T segment.

Question 22

When will contraction begin compared to the AP?

Answer 22

Contraction will begin at the begining of the AP, but will not peak until well afterwards.

Question 23

When is peak atrial contraction?

Answer 23

PR segment.

Question 24

When is Na+ most permeable?

Answer 24

P wave. Phase 0

Question 25

What is a segment?

Answer 25

The duration of a single event on the ECG

Question 26

What is a interval?

Answer 26

The duration of two or more events.

Question 27

Duration and voltage are tracked on the ECG.

Horizontally, what do 5 large boxes represent.

Vertically, what do 2 large boxes represent?

Answer 27

Horizontally, 5 large boxes are one second. Each small box is .04 seconds.

Vertically, 2 large boxes is 1mV.

Question 28

What is the PR interval?

Answer 28

From the begining of the P wave–> begining of the QRS complex. Usually lasts 0.16 ms.

Question 29

What is the QT interval?

Answer 29

begining of the QRS interval until the T wave.

Usually .35 ms.

Question 30

What is the PR segment?

Answer 30

End of atrial depolarization until the begining of QRS

Question 31

Where is the ST segment?

Answer 31

End of QRS –> begining of the T wave.

Question 32

The ST segment likes to move when there is a problem. What does this tells us?

Answer 32

Ventricles are not reaching a consistent period where they all contract at the same ti

Isoelectric point is not reached.

Question 33

T/F: Electrode placement does not matter for voltage.

Answer 33

False

It DOES

Question 34

What are the normal voltages for QRS, P wave and T wave?

Answer 34

QRS- 1.0- 1.5 mV from the top of the R wave to the bottom of the S wave

P wave- 0.1- 0.3 mV

T wave- 0.2 -0.3 mV

Question 35

How can we determine rate?

Answer 35

Count from R wave–> R wave (depolarization of ventricles to the next depolarization of ventricles)

After the first R wave that falls on a black line; label 300–> 150–>100–> 75–> 60–> 50–> 43 bpm

We often look at lead 2 to consider.

Question 36

Why do we conduct 12 leads?

Answer 36

Each lead shows voltage differences in the myocardium from different perspectives by different electrodes.

Question 37

What are our standard bipolar limb leads?

Draw them out.

Answer 37

These are the only 3 leads that only use 2 electrodes.

Lead 1: goes from RA–> LA

Lead 2: goes from RA–> LL

Lead 3: goes from LA–> LL.

Vectors are all moving towards + electrode so they should be upward deflections.

Question 38

What are our augmented limb leads?

Draw them out.

Answer 38

1. aVF (foot)–> compares the average of the RA+LA to the LL.
2. aVR–> augmented vector, right–> Compares the average of LL+ LA to RA.
3. aVL (LA) augemented vector, left–> compares the average of LL+RA to LA.

Question 39

What are the chest/prechordial leads?

Which ones usually have a negative QRS?

Whivh ones usually have a positive QRS?

Answer 39

V1-V6.

Negative QRS- V1 and V2 (R is small, S is deep)

Positive ORS–> V4, V5, V6.

If not seeing this, something is wrong.

Question 40

Next; what do we do with with bipolar limb leads and augmented limb leads?

DO IT.

Answer 40

Superimpose them on a chart

Question 41

As the heart depolarizes, the leads see different things.

If the AP is going to the + electrode–> _______ deflection

If the AP is going to the - electrode–> _____ deflection

Answer 41

If the AP is going to the + electrode–> POSITIVE deflection

If the AP is going to the - electrode–> NEGATIVE deflection

Question 42

Are the chest/prechordial lead assigned an axis?

Answer 42

No. They are not. Instead, they are assigned REGIONS of the heart and each lead is a positive electrode.

Question 43

Inferior part of the heart is best detected by what leads?

Answer 43

II

III

aVF

Question 44

Septal part of the heart is best detected by what leads?

Answer 44

V1

V2

Question 45

Anterior part of the heart is best detected by what leads?

Answer 45

V2

V3

V4

Question 46

Lateral part of the heart is best detected by what leads?

Answer 46

V4

V5

V6

I

aVL

Question 47

What leads are associated with the lateral circumflex artery?

Answer 47

Lead 1

aVL

V5

V6

Question 48

What leads are associated with the inferior part of the RCA?

Answer 48

Lead II

Lead III

aVF

Question 49

What leads are associated with the septal/left anterior descending artery?

Answer 49

V1

V2

Question 50

What leads are associated with the anterior/left anterior descending?

Answer 50

V3

V4

Question 51

What does the axis of deviation tell us and how to we figure it out?

How do we figure out the axis of deviation?

Answer 51

—-Tells us the average direction of the AP in the ventricles and helps us to determine conditions in the heart—–

Consider only the QRS complex of lead 1 and aVF.

1. Use thumb trick: put both thumbs out and up; L thumb represents LEAD 1; R thumb represents aVF.
2. The average of the areas of the QRS complexes in both should be +. Thus, average them. If the average areas correspond with a downward deflection, move that finger down. If not, keep it up. Whichever thumb is up the axis you are deviated.
   - Both thumbs up= normal axis deviation
   - Left thumb up and right thumb down= left axis deviated.

Right thumb up and left thumb down= right axis deviated

THIS IS THE DIRECTION OF POLARIZATION

3. Now to find the degree of polarization

A. Find lead at the isolectric point (area of QRS curve cancels out)

B. Axis of deviation would be the degrees that are perpendicular to the isoelectric point on the graph.

3.

Question 52

If leads I and aVF are ______, then there is a normal mean electrical axis.

Answer 52

Positive.

Question 53

How do we become extreme R.A.D?

Answer 53

If both lead I and lead aVF are negative.

Question 54

Generally, depolarization goes from _________–>________

Answer 54

Upper left–> lower right.

Question 55

What does a right axis deviation and left axis deviation signify?

Answer 55

RAD–> right ventricle hypertrophy

LAD–> left ventricle hypertrophy

Question 56

P wave begins before/after atrial contraction.

Answer 56

before

Question 57

QRS complex begins before/after ventricular contraction.

T wave begins before/after ventricular relaxation.

Answer 57

Before

Before