Advance EKG

Question 1

What is the benefit of using a 5-lead monitoring system vs a 3-lead set-up?

Answer 1

You can look at more than one lead at a time with a 5-lead system compared to the 3-lead system

Question 2

Lead I:
Negative Electrode:
Positive Electrode:

Answer 2

Lead I:
Negative Electrode: Right Arm
Positive Electrode (eyeball): Left Arm

When the heart depolarizes, the + electrode senses electrical movement coming toward it. Lead I is therefore an upright tracing.

Question 3

Lead II:
Negative Electrode:
Positive Electrode:

Answer 3

Lead II:
Negative Electrode: Right Arm
Positive Electrode (eyeball): Left Leg

Question 4

Lead III:
Negative Electrode:
Positive Electrode:

Answer 4

Lead III:
Negative Electrode: Left Arm
Positive Electrode (eyeball): Left Leg

Question 5

To connect this lead, the negative electrode is placed near the left shoulder, usually under the outer third of the left clavicle, and the positive electrode is placed to the right of the sternum in the fourth intercostal space. The QRS in negative deflection in this lead.

Answer 5

MCL-1 or Modified V1

Question 6

Single lead dependence:

Answer 6

Provides only one “look” at the heart
Misses vital information
Drug contraindication (“lidocaine”)

Question 7

If you see asystole on the monitor, how many leads will you need to look at for confirmation?

Answer 7

Confirm asystole in two leads

This is true for any dysrhythmias

Question 8

Why would you stress the importance of shaving chest hair on males or proper lead placement around a woman’s chest?

Answer 8

Appropriate lead placement is crucial:
Assessing looks for underlying conditions.
Axis determination and hemiblocks.
Accurate infarct locations.

Question 9

When getting an EKG, what is the recommended positioning for the patient?

Answer 9

In a perfect world, the patient would be supine.

Sitting position may also be used as some patients will not allow you to lay them flat

Question 10

How many actual electrodes are there in a 12-lead EKG?

Answer 10

10 electrodes
-one for each limb (4)
-6 precordial electrodes

Question 11

Limb lead go on the ______.

Answer 11

LIMBS (LA, RA, LL, RL)

biceps and wrist are ok, avoid the shoulders

Question 12

Name the placements for the following leads:
V1:
V2:
V3:
V4:
V5:
V6:

Answer 12

Name the placements for the following leads:
V1: 4th intercostal space, right of the sternum
V2: 4th intercostal space, left of the sternum
V3: between V2 and V4
V4: 5th intercostal space, left of the sternum (mid-clavicular)
V5: 5th intercostal space, left of the sternum (anterior axillary line)
V6: 5th intercostal. space left of the sternum (mid-axillary line)

Question 13

A normal 12-lead will not get a good view of the _________ side of the heart.

Answer 13

Right view

The 12 lead is designed to look at the left ventricle

Question 14

Name all 12 views of the EKG:
Row 1:
Row 2:
Row 3:
Row 4:

Answer 14

Name all 12 views of the EKG:
Row 1: I, II, III
Row 2: aVR, aVL, aVF
Row 3: V1, V2, V3
Row 4: V4, V5, V6

Question 15

What is the J-point?

Answer 15

The J (junction) point in the ECG is the point where the QRS complex ends and the ST segment begins.

Question 16

What does an RSR’ wave indicate?

Answer 16

The R prime wave represents the second time the complex goes above the isoelectric line. It can represent a conduction abnormality/bundle branch block.

Question 17

What are two reasons why the J-point is important?

Answer 17

1. Point of reference for determining bundle branch block.
2. Point of reference for measuring the ST-segment elevation.

Question 18

The first negative deflection after the p-wave is called the ________.

First positive deflection after the p-wave is called the ___________.

Answer 18

Q-wave

R-wave

Question 19

What is axis?

Answer 19

Axis is how the electricity flows down through the heart, the direction of electricity down the conduction system.

Question 20

How do you determine the axis?

Answer 20

Look at QRS complexes for ventricular axis.

Question 21

As electricity flows towards a positive electrode (eyeball) it makes a _________ deflection on the EKG.

Answer 21

Positive Deflection

Question 22

In a normal axis, describe the deflection in each lead.
Lead I:
Lead II:
Lead III:

What are the degree ranges for a normal axis?

Answer 22

Lead I: Positive
Lead II Positive
Lead III: Positive

0 to 90 degrees

Question 23

In a pathological left axis deviation, describe the deflection in each lead.
Lead I:
Lead II:
Lead III:

What are the degree ranges for pathological left axis deviation?

Answer 23

Lead I: Positive
Lead II: Negative
Lead III: Negative

-40 to -90 degrees

Question 24

In a right-axis deviation, describe the deflection in each lead.
Lead I:
Lead II:
Lead III:

What are the degree ranges for a right-axis deviation?

Answer 24

Lead I: Negative
Lead II: Negative (can also be negative or non-committal)
Lead III: Positive

90 to 180 degrees

Question 25

In an extreme right axis deviation, describe the deflection in each lead.
Lead I:
Lead II:
Lead III:
V1:

What are the degree ranges for an extreme right-axis deviation?

Answer 25

Lead I: Negative
Lead II: Negative
Lead III: Negative
V1: Positive

-90 to -180 degrees

Question 26

In a physiological left axis, describe the deflection in each lead.
Lead I:
Lead II:
Lead III:

What are the degree ranges for a normal axis?

Answer 26

Lead I: Positive
Lead II: Positive or Negative
Lead III: Negative

0 to -40 degrees

Question 27

What kind of axis is a result of an anterior hemiblock?

Answer 27

Pathological Left Axis Deviation

Question 28

What kind of axis is a result of a posterior hemiblock?

Answer 28

Right Axis Deviation

Question 29

What kind of axis will result if the conduction origin is in the ventricles?

Answer 29

Extreme Right Axis Deviation

Question 30

Hypertrophy of either ventricle can shift the axis _________ the area that is hypertrophied.

Answer 30

toward

Question 31

Hypertrophy of the left ventricle is most commonly caused by __________. Other less common causes include:

Answer 31

Hypertension
Hypertrophic Cardiomyopahty
Extreme Exercise
Aortic Disease

Question 32

Hypertrophy of the right ventricle is most commonly caused by ___________. Other less common causes include:

Answer 32

Severe lung disease

Pulmonary embolus
Pulmonary valve disease

Question 33

What is the difference between a physiological left axis and a pathological left axis?

Answer 33

The physiological left axis is a normal variant (obese, athletic)
The pathological left axis means there is a disease process.

Question 34

Is a right axis deviation pathological or physiological?

Answer 34

Pathological

Question 35

Name the axis deviation.

Answer 35

Lead I: Negative deflection
Lead II: Positive deflection
Lead III: Positive deflection

Right axis deviation

Question 36

Name the axis deviation

Answer 36

Lead I: Negative
Lead II: Negative
Lead III: Negative

Extreme right axis deviation

Question 37

Name the axis deviation.

Answer 37

Lead I: Positive
Lead II: Positive
Lead III: Positive

Normal Axis

Question 38

Name the axis deviation

Answer 38

Lead I: Positive
Lead II: Non-committal
Lead III: Negative

Physiological Left Axis Deviation

Question 39

Name the axis deviation

Answer 39

Lead I: Positive
Lead II: Negative
Lead III: Negative

Pathological Left Axis

Question 40

What is a bundle branch?

Answer 40

A fascicle of electrical conduction system cells designed to carry an impulse to the ventricles.

Question 41

Describe the turn signal method to determine whether it is a right or left BBB.
Which lead do you use:
QRS complex much be at least _____ seconds

Answer 41

Which lead do you use: Use MCL-1 (V1)
QRS complex much be at least 0.12 seconds (3 little boxes)

up= Right BBB
down = Left BBB

Question 42

A patient with a BBB is at increased risk for what?

What are other problems associated with BBB?

Answer 42

Complete Heart Block (affects the syncytium of the heart)

Decrease perfusion and decrease blood pressure

Question 43

A bundle branch block represents a ________ times higher mortality rate in the setting of an acute MI.

Answer 43

4 times

MI’s and BBB are bad

Question 44

Determine what type of BBB for each EKG

Answer 44

Question 45

What are the three types of bifascicular block?

Answer 45

RBBB + Anterior Hemiblock

RBBB + Posterior Hemiblock

Left Bundle Branch Block (Anterior Hemiblock + Posterior Hemiblock)

Question 46

What drugs are contraindicated in a bifascicular block?

Answer 46

Lidocaine and Procainamide

Question 47

Patients with bifascicular block will present with signs and symptoms of _____________________.

What are you worried about?

Answer 47

an acute MI.

A patient going into v-fib/v-tach or complete heart block
(Go ahead and get the pads on the patient, high risk for arrest)

Question 48

Patients with bifascicular block will most likely have occlusion to which coronary artery?

Answer 48

Left Descending Coronary Artery (The Widow Maker)

Question 49

What kind of axis deviation can a left bundle branch block present?

Answer 49

A LBBB can present with a normal, right, or left axis deviation depending upon the level at which it is blocked.

Question 50

Where does your Right Coronary Artery supply blood to?

Answer 50

Inferior wall (LV)
Posterior wall (LV)
Right Ventricle
SA and AV node
Posterior Fascicle of the LBB

Question 51

What kind of symptoms will be exhibited by a patient with an RCA occlusion or RCA ischemia?

Answer 51

Bradycardia

(SA and AV node not getting enough blood supply)

Question 52

What will a RCA occlusion look like on a 3-lead EKG?

Answer 52

On a 3-lead EKG, the inferior wall of the LV can be seen so an RCA occlusion there will be an ST elevation depicted.

Question 53

What is another name for the Left Anterior Descending Coronary Artery?

Answer 53

The Widow Maker

Question 54

Where does the LAD supply blood to?

Answer 54

Anterior Wall of the LV
Septal Wall
Bundle of His and Bundle Branches

Question 55

What kind of referred pain can be associated with RCA occlusion?

Answer 55

Acute onset of abdominal pain
Nause and vomiting
Especially in women and diabetic patients

Question 56

Where does the circumflex supply blood?

Answer 56

Lateral Wall of LV
SA and AV nodes
Posterior Wall of LV

Question 57

Genesis of an acute MI is from _____________ formation over time.

Answer 57

Atherosclerotic Plaque

Once the plaque ruptures, the lesion will set off a cascade clot forming biochemistry. Clot forming is a dynamic process.

Question 58

What medication can interrupt the process of clot development?

Answer 58

Aspirin and Heparin

Question 59

Chest pain on exertion = ___________% occlusion.

Answer 59

70 to 85%

Question 60

Chest pain at rest = ___________% occlusion.

Answer 60

90%

Question 61

Chest pain unrelieved by nitro = _________% occlusion

Answer 61

100%

Question 62

How do you treat an acute MI?

Answer 62

Intervention plan: O2, NTG, pain control,
4 baby aspirins, heparin bolus

Morphine might not be the best agent for pain control due to histamine release which can cause hypotension, and decrease coronary perfusion pressure. Fentanyl may be a better option.

Question 63

What are the contraindications for thrombolytics given for an acute MI?

Answer 63

Recent major surgeries (within 3 weeks)
Recent intracranial hemorrhage
Recent Ischemic Strokes
Active Bleeding
Significant Head Injuries
Patients with uncontrolled HTN (SBP >180 or DBP>110)
Age 75+
Pregnant Patients

Question 64

What are the limitations of 12-Lead EKGs?

Answer 64

12 Leads are only 40-60% sensitive and may miss half of AMIs, and OMIs (You only really see the left ventricle).

A quality image is necessary.

Training to read the 12 leads.

EKG evidence is only one piece of the puzzle.

Some non-MI conditions look like MI’s. (aortic tear)

A normal 12 lead does not rule out a MI.

Question 65

What are the benefits of 12-Lead EKGs?

Answer 65

Highly specific (+90% confidence)

If it shows an MI, there probably is an MI

Rapid ID of MI in early stages (consider on-going 12 Leads)

Question 66

What are the 3 phases of infarction?

Answer 66

Ischemia
Injury
Necrosis (Infarction)

Question 67

What is going on in ischemia?

What will the T-wave look like?

Answer 67

Transient reduction of blood flow to the myocardium.

Symmetrical inverted T waves in 2 or more leads. (Usually V2 to V4)

Inverted T-waves are normal in Leads III and V1

Question 68

What precordial leads look at the septal wall?
What precordial leads look at the anterior wall?
What precordial leads look at the lateral walls?

Answer 68

V1 and V2 (septal)
V3 and V4 (anterior)
V5 and V6 (lateral)

Question 69

What is going on in injury?

What will the EKG look like?

Answer 69

When ischemia progresses, but still salvageable.

ST-segment elevation of more than 1mm in 2 related leads.
(all inferior leads)

Question 70

What leads can see the inferior wall?

Answer 70

Lead II
Lead III
aVF

Question 71

What doe a normal 12-lead EKG look like?

Answer 71

Question 72

What are causes of ST depression?

Answer 72

Reciprocal changes to other ST elevation
Can indicate subendocardial injury
Ischemia
Drug/Electrolyte problems (digoxin/hypokalemia)

Question 73

Patients with infarcted tissue will develop what type of wave on the EKG?

Answer 73

Pathological Q-waves.
Greater than 40 ms wide or 1/3 depth of r-wave height

Question 74

When a pathological Q-wave is seen with an ST-segment elevation, an acute MI is ________.

Answer 74

Occurring