10/25

Question 1

what is the serous layer that is connected to the bottom side of the fibrous layer?

Answer 1

serous parietal layer

Question 2

what is the name of the thin, very elastic, completely clear membrane that sits between the actual heart tissue and the parietal pericardium

Answer 2

serous, visceral pericardial layer

Question 3

Is there a bunch of fast sodium channels in the purkinje fiber?

Answer 3

Yes

Question 4

if the fast sodium channels can’t reset for some reason in a fast action potential, what happens?

Answer 4

It turns fast action potentials into slow AP which effects the contraction of the heart

Question 5

How are AP propagated through cells in the heart?

Answer 5

entirely through gap junctions

Question 6

What primarily goes through gap junctions?

Answer 6

Na+ and a little Ca++

If it was only Ca++ then the AP would probably be pretty slow

Question 7

what is one of the down sides to using gap junctions?
What is the upside?

Answer 7

because it isn’t a chemical synapse, it is bidirectional.
Ectopic AP can travel through Gap junctions and move in both directions which can cause problems.

Upside is that it is fast

Question 8

what protects our heart from having a ton of retrograde action potentials when we’re sick?

Answer 8

refractory periods. Specifically during that time that does not allow another AP to be fired

Question 9

Which plane is used for a 3 lead EKG?

Answer 9

frontal plane/coronal plane

Question 10

what are the augmented leads?

Answer 10

leads that are oriented in a different way from the frontal plane 3 leads.
aVR
aVL
aVF

Question 11

What do the augmented leads look at?

Answer 11

the amount of electrical movement and the direction of the movement in the frontal plane

Question 12

what is the old school way of placing the 3 leads on the body?

Answer 12

placing leads on both wrists and the left ankle

Question 13

what is the new school way of placing the 3 leads on the body?

Answer 13

placing leads on both shoulders/upper lateral chests and the left lower side of the torso

Question 14

For Dr. Smidt’s class, what is the best way to think about the positive lead?

Answer 14

as an eye ball or sensor that is looking at depolarization moving towards it or away from it

Question 15

depolarization moving towards the “eyeball” will show up as a ______ deflection in both the EKG as well as the individual meter.

depolarization moving away from the “eyeball” will show up as a ______ deflection in both the EKG as well as the individual meter.

Answer 15

positive

negative

Question 16

Lead 2 is going to have the best picture of

Answer 16

the depolarization wave going towards the positive lead in the right ankle

Question 17

where is the metaphorical eyeball?

Answer 17

where the positive electrode is.

Question 18

If things are normal in the heart, you would expect to see what kind of deflection in lead 2?

Answer 18

a big positive deflection

Question 19

Where is the positive electrode (metaphorical eyeball) placed for
lead 1?
lead 2?
lead 3?

Answer 19

Left shoulder
left ankle
left ankle

Question 19

What are the angles of the triangle formed with a 3 lead EKG?

Answer 19

60 degrees.
it is an equilateral triangle.

Question 19

what is the deconstructed triangle called on a 3 lead EKG?

Answer 19

Einthoven’s triangle

Question 19

On a 3 lead EKG, which extremity has 2 positive electrodes?

Answer 19

left ankle

Question 20

On a 3 lead EKG, which extremity has 2 negative electrodes?

Answer 20

right arm

Question 21

On a 3 lead EKG, which extremity has a positive and negative electrode?

Answer 21

left arm

Question 22

How is Einthoven’s triangle helpful?

Answer 22

It allows us to look at the angles and better describe what we’re seeing in the 3 leads.

Question 23

what are the parts of the machine recording a 3 lead EKG?

Answer 23

display or recorder
amplifier- turns the information into something the recorder and sort out.
leads

Question 24

What is the name of the Dutch (somewhere in Europe) scientist that developed a triangle regarding the 3 lead EKG?

Answer 24

Einthoven

Question 25

what is the value of the normal mean electrical axis?

Answer 25

59 degrees

Question 26

what is the normal angle of lead 2?

Answer 26

60 degrees

Question 27

What is the definition of a Left axis deviation?

Answer 27

mean electrical axis less than 0 degrees

for Smidt’s class it is anything less than 59 degrees

Question 28

If the entire heart is depolarized, what kind of deflection would you expect to see in leads 1, 2, & 3?

Answer 28

They should all read 0 at this point because there is no electrical current moving when the entire heart is depolarized.

Question 29

If you tilt the heart to the left what kind of axis deviation would you have?

Answer 29

Left axis deviation

Question 30

If you tilt the heart to the right what kind of axis deviation would you have?

Answer 30

right axis deviation

Question 31

what is the definition of a right axis deviation?

Answer 31

a mean electrical axis >90 degrees

for Smidt’s class it is anything more than 59 degrees

Question 32

what is the net electrical axis?
which way does it normally go?

Answer 32

the overall direction of electrical activity generated by the heart during depolarization

59 degrees towards the left foot

Question 33

what can cause electrical axis deviations?

Answer 33

• Bundle branch block
• changes in the position of the heart in the chest(breathing)
• COPD (really big lungs)
• one side of the heart being enormous

Question 34

as lung volume decreases what way does the heart tilt?

Answer 34

Left

Question 35

If you take in a really deep breath, which way does the heart tilt?

Answer 35

right

Question 36

If you have a starting horizontal (0 degrees) electrical axis, and you rotate it pointing down perfectly perpendicular, what degree would you call this?

Answer 36

90 degrees

Question 37

If you have a starting horizontal (0 degrees) electrical axis, and you rotate it pointing down halfway to perfectly perpendicular, what degree would you call this?

Answer 37

60 degrees

Question 38

If you have a starting horizontal (0 degrees) electrical axis, and you rotate it pointing horizontally in the other direction, what degree would you call this?

Answer 38

180 degrees

Question 39

If you have a starting horizontal (0 degrees) electrical axis, and you rotate it pointing up perfectly perpendicular, what degree would you call this?

Answer 39

270

Question 40

If you have a starting horizontal (0 degrees) electrical axis, and you rotate it in a complete circle so that it is pointing in the same direction, what degree would you call this?

Answer 40

360 degrees synonymous with 0 degrees

Question 41

If the textbook tells you that the mean electrical axis is -60, what do they mean by that?

Answer 41

the electrical axis would rotate counterclockwise from horizontal.
This would also be 300 degrees

Question 42

If the mean electrical axis is a positive number it is moving in what direction?
Negative?

Answer 42

clockwise
counterclockwise

Question 43

Where are the negative and positive electrodes in lead 2?

Answer 43

Negative=right arm
Positive=left leg

Question 44

Where are the negative and positive electrodes in lead 3?

Answer 44

Negative=left arm
Positive=left leg

Question 45

what is Einthoven’s law?

Answer 45

The net positive deflection we see in lead 2 must be equal to the sum of the deflections in leads 1 and 3

Question 46

How do you find the net height in lead 1,2 and 3?
in regards to Einthoven’s law

Answer 46

On an EKG:
Subtract the portion of the AP below baseline from the portion of the AP above baseline

Question 47

At the beginning of the QRS complex when most of the septum is depolarized you would have most of the endocardium and lateral walls still resting. What type of deflections would you expect to see in Leads 1, 2, and 3 at this point?

Answer 47

lead 1- small positive deflection
lead 2- small (but larger than lead 1 &2) positive deflection
Lead 3-small (but larger than lead 1) positive deflection

Question 48

When half of the ventricular tissue is depolarized and half is resting, What type of deflections would you expect to see in Leads 1, 2, and 3 at this point?

Answer 48

lead 1- large positive deflection
lead 2- large (still larger than lead 1 &2) positive deflection
Lead 3-large (still larger than lead 1) positive deflection

There’s more current so the leads recognize this as the max amount of current

Question 49

When more than 50% of the ventricular tissue is depolarized, what type of deflections would you expect to see in Leads 1, 2, and 3 at this point?

Answer 49

lead 1- a less positive deflection(NOT NEGATIVE) than shown when half of the tissue is depolarized.

lead 2- a less positive deflection(NOT NEGATIVE) (but larger than lead 1 &2) positive deflection

Lead 3-a less positive deflection(NOT NEGATIVE) (but larger than lead 1) positive deflection

There’s only a small piece of resting tissue left for current to go to so the leads see this as less current

Question 50

At the end of the QRS complex when almost the entire ventricular tissue is depolarized, what type of deflections would you expect to see in Leads 1, 2, and 3 at this point?

Answer 50

lead 1- a less positive deflection(NOT NEGATIVE) than shown when >50% of the tissue is depolarized.

lead 2- a small negative deflection

Lead 3-a large negative deflection

The mean electrical current changes directions at this time to point towards the left upper arm. This changes the view that the leads have.

Question 51

which ventricle is thinner in the heart?

why?

Answer 51

right

it only has to pump against the resistance in the pulmonary circulation

Question 52

what is the last place on the ventricles to depolarize?
Why is it the last?

Answer 52

a little sliver on the superior portion of the left ventricle.

because it is farthest away from the start of depolarization so the AP has a lot of tissue to go through.

Question 53

If the mean electrical axis was oriented at 90 degrees straight down, what would you expect to see in lead 2?

Answer 53

a fairly large positive deflection bc that is still pretty close to the orientation of lead 2.

Question 54

What are the 2 questions to ask when something doesn’t look right on the EKG?

Answer 54

what is happening?- can use a 3 lead EKG to solve this
where is it happening?- can use more chest leads to solve this for a better view of the heart

Question 55

Where are the negative and positive electrodes in lead 1?

Answer 55

negative= right arm
positive = left arm

Question 56

which direction does the depolarization of the atria take?

Answer 56

at an angle towards the left foot. This is why you’d see a positive deflection

Question 57

repolarization happens in the same ______ and same _________ as depolarization in the atria

Answer 57

sequence

direction

Question 58

atrial repolarization -opposite of depolarization headed towards the left foot would give us what kind of deflection?

Answer 58

This is called the atrial t wave. It would be negative but we normally don’t see it because the ventricular depolarization is hiding it

Question 59

what can you use to diagnose pretty much any conduction problem in the heart?

Answer 59

a 3 lead EKG

Question 60

why doesn’t the repolarization of the atria obscure the depolarization of the ventricles?

Answer 60

The walls of the atria are very thin compared to the ventricular muscle mass so they don’t create a strong enough AP to overcome the ventricular AP

Question 61

When can you see atrial depolarization waves making a big difference in the EKG?

Answer 61

If there is something wrong with the SA node and AP are being sent bidirectional from the AV node.

Question 62

Why is the atrial T wave more spread out than the P wave?

Answer 62

When the conduction system is working retrograde (repolarization happening from right to left) it doesn’t have the same properties as when it is working in the normal direction.

Question 63

what is the mean axis degree of lead 1?

Answer 63

0 degrees

Question 64

what is the mean axis degree of lead 2?

Answer 64

60 degrees

Question 65

what type of deflection would you expect to see in the 3 main events(P, QRS, and T) when viewing lead 2?

Answer 65

large and positive deflection

Question 66

Which lead would you normal see the largest P, QRS or T wave?

Why?

Answer 66

lead 2

because all of those AP are shooting almost directly towards the left foot where the positive electrode is and lead 2 is oriented to see this.

Question 67

Which lead cannot view the entire depolarization wave heading towards the Left foot?

Answer 67

Lead 1

Question 68

what is the mean axis degree of lead 3?

Answer 68

120 degrees

Question 69

How does the positive deflection seen in lead 1 compare to a positive deflection in lead 2?

Answer 69

It will be smaller in lead 1 d/t Lead 1 pointing horizontally and not being able to see the entire depolarization wave

Question 70

How can you determine how much smaller the deflection should be in Lead 1 compared to lead 2?

Answer 70

You would have to draw a line from lead 1 until it meets with the net electrical axis and determine the length of the base of that triangle.

It is the amount of right to left movement of depolarization

Question 71

If our mean electrical axis is 90 degrees, what would you see in lead 1?

Answer 71

nothing.
Lead 1 can’t see this movement.

Question 72

If our mean electrical axis is >90 degrees, what would you see in lead 1?

Answer 72

a negative deflection

Question 73

If our mean electrical axis is parallel to lead 1 and moving from left to right, what would you see in lead 1?

Answer 73

a large negative deflection

Question 74

what is a zero degree electrical axis?

Answer 74

when the net depolarization is moving from the right arm towards the left arm like in lead 1 which is oriented in a horizontal position.

Question 75

If our mean electrical axis that is parallel to lead 1, moving from right to left, what would you see in lead 1?

Answer 75

a large positive deflection

Question 76

Which lead is less likely to have an S wave?

Answer 76

Lead 1
(it never sees the deflection going negative)

Question 77

How do the leads interpret the “arrow” of depolarization pointing towards the right arm when looking at the interventricular septum having depolarization start on the left side?
Lead 1,2,3

What does this relate to?

Answer 77

Lead 1- largely (compared to lead 2) negative deflection
Lead 2- slightly negative deflection
Lead 3- Largely positive deflection

the q wave