Unit 1: Pt 3 Physiology III

Question 1

What are some extrinsic influences on the heart?

Answer 1

• Autonomic NS
• Hormonal influences
• Ionic influences
• Temperature influences

Question 2

What will sympathetic innervation have on the heart?

Answer 2

• Increase HR
• Increase strength of contraction
• Increase conduction velocity

Question 3

What will parasympathetic innervation have on the heart?

Answer 3

• Decrease heart rate
• Decrease strength of contraction
• Decrease conduction velocity

Question 4

How are SNS effects on the heart blocked?

Answer 4

Using propranolol (beta blocker), Which blocks beta receptors (which bind NE and Epi)

Question 5

How are parasympathetic effects on the heart blocked?

Answer 5

Using atropine, which block muscarinic receptors (which bind Ach)

• HR will increase
• Strength of contraction decreases

Question 6

Describe the interaction of the ANA under resting conditions. (What is dominant at rest?)

Answer 6

Parasympathetic NS exerts a dominant inhibitory influence on HR (rate of contraction)

Sympathetic NS exerts a dominate stimulatory influence on strength of contraction

Question 7

If we were to block BOTH sympathetic and parasympathetic autonomic systems, what would occur?

Answer 7

HR will go up and strength of contraction will go down

Question 8

What neurotransmitter does the postganglionic neurons of the SNS and the Parasympathetic neurons release?

Answer 8

SNS— NE

Parasymp— ACh

Question 9

How does the interaction of the SNS and paraysmp. Systems work?

Answer 9

They inhibit each other (think about brake and gas pedal, do not want to push on both at same time)

Question 10

What is the intrinsic rate of the SA when there is no neural influence?

Answer 10

100-110 bpm

Question 11

T/F. Indirect effect of cardiac cells accounts for most of the SNS effect.

Answer 11

False. Direct innervation of cardiac cells accounts for most of the SNS effect

Question 12

Which system is NE acting on beta-1 receptors an example of?

Answer 12

Sympathetic nervous system

Question 13

What would indirect effects of SNS on the heart be?

Answer 13

Due to circulating catecholamines (Epi and NE) released primarily from the adrenal medulla (blood borne), which would find their way to cardiac beta-1 receptors

Question 14

SNS influence on the heart comes from ______ percent Direct innervation, and _____ percent Indirect effects.

Answer 14

85% direct

15% indirect

Question 15

If a heart is de-innervated, can there still be SNS effect on the heart?

Answer 15

YES, due to the circulating catecholamines (80% epi and 20% NE)

Question 16

What percent of the circulating catecholamines released primarily from the adrenal medulla is Epinephrine and NE?

Answer 16

Epi = 80%
NE = 20%

Question 17

When the SNS stimulates the left stellate ganglion, what occurs?

Answer 17

• Decreased ventricular fibrillation threshold
• Prolongation of QT interval
  (worry about LV in D-Fib)

Question 18

When the SNS stimulates the right stellate ganglion, what occurs?

Answer 18

• Increased ventricular fibrillation threshold

puts you in more protective position

Question 19

Is it better to have SNS stimulation of the left or right stellate ganglion?

Answer 19

The right stellate ganglion b/c that will increase ventricular fibrillation threshold, and therefore put you in more protective position

Question 20

Recall: What nerve controls about 75% of the parasympathetic nervous system?

Answer 20

Vagus Nerve

Question 21

Left cardiac sympathetic denervation can increase what activity?

Answer 21

Vagus nerve activity —incrase vagal activity has a lot of benefits, like preventing life threatening arrhythmias like D-Fib
(chiro adjustments are shown to help Vagal activity)

Question 22

What is the Cardioaccelerator reflex?

Answer 22

AKA Brainbridge reflex; stretch on the right atrial wall will stimulate stretch receptors which send signals to medulla oblongata and stimulate SNS outflow of heart

Question 23

What does the Brainbridge/ Cardioaccelerator reflex prevent?

Answer 23

It prevents damning of blood in the heart and central veins

Question 24

What is the Benzold-Jarisch reflex? What nerve(s) are involved?

Answer 24

Are baroreceptors in ventricles (stretch receptors detecting pressure)
- Reflex via CN X, to CNS

Question 25

Where is the site of the majority of the baroreceptors involved in the Benzold-Jarisch reflex?

Answer 25

Inferoposterior wall of LV (supplied by circumflex artery)

Question 26

*What two things does the Benzold-Jarisch reflex result in? (as in when the baroreceptors are detecting too much pressure)

Answer 26

Reflex effects result in:

1. Hypotension
2. Bradycardia

Question 27

What is the Benzold-Jarisch reflex stimulated by?

Answer 27

• occlusion of circumflex artery (inf. wall infarct

- increase in LVP and LV volume (i.e. aortic stenosis)

Question 28

How do Thyroid hormones influence the heart?

Answer 28

• positive inotropic (increase strength of contraction)
• positive chronotropic (increase HR)
• increase in CO by increase in BMR (basal metabolic rate)

Question 29

How is the heart affected in hypothyroidism?

Answer 29

BMR decreases; and therefore heart pumps less blood

also get cold, and decrease weight loss

Question 30

How is the heart affected in hyperthyroidism?

Answer 30

BMR increase; and therefore heart pumps more blood (also get hot, and increases weight loss)

Question 31

What is the effect on cardiac cells of elevated concn. of K+ in extracellular fluid (ECF)?

Answer 31

• dilation of flaccidity of cardiac muscle at concs. 2-3x normal
• decreases resting membrane potential

Question 32

The effect that elevated conc. of K+ is associated with what way of death?

Answer 32

ass. with drowning in fresh water

- b/c increase RBC lysis and the RBC’s release K+

Question 33

What is the effect on cardiac cells of elevated conc. of Ca++ ECF?

Answer 33

spastic contraction

Ca++ binds troponin

Question 34

What does the effect of an elevated body temp have on our Heart Rate?

Answer 34

HR increases about 10 beats for every degree F elevation in body temp.

Question 35

What does the effect of elevated body temp have on the heart’s contractile strength?

Answer 35

Contractile strength will increase TEMPORARILY, but prolonged fever can decrease contractile strength due to exhaustion of metabolic systems

Question 36

What effect does decreased body temp have on the heart?

Answer 36

will decreased HR and strength

Question 37

What is the preferred energy substrate for the heart?

Answer 37

fatty acids – 70% preferred

can also use: Glucose, glycerol, lactate, pyruvate, amino acids

Question 38

Most of the energy the heart utilizes is converted into what? What is the remaining percentage utilized as?

Answer 38

heat; 75%

remaining 25% used for Work

Question 39

How is the 25% of energy utilized for work by the heart broken down?

Answer 39

Pressurization of blood >99%

Acceleration of blood <1%

Question 40

What is most of the Work of the heart used as?

Answer 40

Pressurization >99%

potential energy

Question 41

Pressurization of the blood = _________, where as Acceleration of blood to its ejection velocity = ________.

Answer 41

= potential energy

= kinetic energy

Question 42

What does pressurization of the blood involve?

Answer 42

moving blood from low pressure to high pressure
(volume pressure work or external work)
–is the majority of the work component, at >99%

Question 43

What does the acceleration of blood to its ejection velocity involve?

Answer 43

out the aortic and pulmonary valves; accounts fro less than 1% of work component

can increase to 50% with valvular stenosis

Question 44

What does an EKG measure?

Answer 44

measures potential difference across the surface of the myocardium with respect to time

Question 45

For an EKG, what is the definition of a lead?

Answer 45

= pair of electrodes (one + and one -)

Question 46

For an EKG, what is the line connecting the electrodes called??

Answer 46

axis of lead

Question 47

For an EKG, what is the line perpendicular to axis of lead called?

Answer 47

transition line (this is the weak spot for bipolar limb leads–therefore need the unipolar limb leads)

Question 48

What is the normal rate of the heart?

Answer 48

60-80 bpm

Question 49

What is it called when the HR is greater than 100 bmp?

Answer 49

tachycardia

Question 50

What is it called when the HR is less than 50bpm?

Answer 50

bradycardia

Question 51

What does the PR interval include?

Answer 51

includes the AV node delay

should be ~ .16 sec

Question 52

If the PR interval is greater than .20 seconds what does it equal?*

Answer 52

= 1st degree AV block (longer than normal)

Question 53

If the PR interval is less than .10 seconds, what does this mean?

Answer 53

inadequate delay–> possible accessory conduction pathway from atria to ventricle

Question 54

What does the P wave represent?

Answer 54

atrial depolarization

Question 55

What does the QRS complex represent?

Answer 55

ventricular depolarization

Question 56

What does the T wave represent?

Answer 56

ventricular repolarizaiton

Question 57

What is normally buried in the QRS complex and doesn’t show up on an EKG?

Answer 57

Atrial repolarization

Question 58

What does the U wave represent?

Answer 58

repolarization of purkinje system (not always seen)

Question 59

What is the difference between intervals and segments on an EKG?

Answer 59

intervals = include wave form

segments = on baseline; have no wave form

Question 60

What it comes to the Leads for an EKG, what does the pair of recording electrodes consist of?

Answer 60

+ electrode = active

- electrode = a reference

Question 61

What is the direction of the deflection based on for an EKG?

Answer 61

it can be + or -; and it is based on what the active electrode (+) sees relative to the reference electrode (-)

Question 62

How many leads does a routine EKG consists of?

Answer 62

12 leads:

• 6 frontal plane leads
• 6 chest leads (horizontal/transverse plane)

Question 63

What type of deflection is it when a wave of depolarization is moving toward the + electrode?

Answer 63

a positive deflection (R wave)

Question 64

What type of deflection is it when a wave of repolarization is moving toward the + electrode?

Answer 64

negative deflection

Question 65

What type of deflection is it when a wave of depolarization is moving toward the - electrode?

Answer 65

negative deflection (S wave)

Question 66

What type of deflection is it when a wave of repolarization is moving toward the - electrode?

Answer 66

positive deflection (T wave)

Question 67

What plane are the limb leads in for an EKG?

Answer 67

frontal plane

Question 68

What lane are the chest (V) leads in for an EKG?

Answer 68

view heart in horizontal/transverse plane

Question 69

What are all the bipolar limb leads and where do they go? (may want to draw the triangle)

Answer 69

Lead I (+LA -RA)

Lead II (+LL -RA)

Lead III (+LL -LA)

Question 70

What are all the unipolar limb leads (Augmented)?–may want to draw triangle

Answer 70

(assist with/helps/adds to)

AvR (+RA -LA and LL)

AvL (+LA -RA and LL)

AvF (+LL -RA and LA)

Question 71

Which Unipolar limb lead is perpendicular to Lead I?
Lead II?
Lead III?

Answer 71

Lead I –> AvF (F for foot)
Lead II –> AvL
Lead III –> AvR

Question 72

If the wave is perpendicular to the axis of the bipolar limb lead, will there be a deflection?

Answer 72

no

Question 73

Where are the positive electrodes for the Chest leads? Where are the negative electrodes?

Answer 73

Positive electrodes– all on chest wall

Negative electrodes– all limb electrodes hooked together

Question 74

What does and EKG NOT give us information about?

Answer 74

about the mechanical activity of the heart

- could take a valve out and the EKG would be normal

Question 75

The analysis of an EKG can tell us what 5 things?

Answer 75

• rate
• rhythm and intervals
• axis
• hypertrophy
• infarction/ischemia

Question 76

What are the sequence of numbers one can use to count the big boxes b/w R waves to get the estimated HR?

Answer 76

300-150-100-75-60-50

1 1/2 1/3 1/4 1/5 1/6

Question 77

What on the EKG is the time from SA node to entering the ventricle?

Answer 77

PR interval

Question 78

What on the EKG includes the AV nodal delay?

Answer 78

PR interval

Question 79

If a PR interval is greater than .2 seconds, what is that called?

Answer 79

1st degree AV block

Question 80

If someone has a prolonged QT interval, what are two increased risks they may experience?

Answer 80

• increased incidence of sudden cardiac death

- high propensity to develop ventricular fibrillation

Question 81

What is a sinus arrhythmia?

Answer 81

an irregular heartbeat that is either too slow or too fast

- longest and shortest RR vary by greater than .16 seconds

Question 82

Do we want a heart rate that has increased variability or no?

Answer 82

• less the heart is varying = more at risk you are to die

- increase heart rate variability = the better off you are

Question 83

What is AV block?

Answer 83

Atrioventricular block is a type of heart block where conduction b/w the atria and ventricles of heart is impaired

Question 84

What is 1st degree AV block?

Answer 84

depolarization wave from atria to ventricle is delayed excessively
- PR interval is greater than .2 seconds

Question 85

An occasional P wave with no associated QRS complex (a dropped heart beat) describes what?

Answer 85

2nd Degree AV block

- some depolarization wave pass, others blocked

Question 86

What is a 3rd degree AV block?

Answer 86

ALL depolarization waves from atria to ventricles are blocked
- no relationship b/w P waves and QRS complexes

Question 87

What is the normal duration of QRS complex?

Answer 87

duration .06-.08 seconds

Question 88

A QRS complex that is prolonged, greater than .12 seconds is associated with what?

Answer 88

with ventricular hypertrophy or conduction block in purkinje system

Question 89

What is the Mean Electrical Axis (MEA)?

Answer 89

average direction of ventricular depolarization

Question 90

How does the ventricle depolarize?

Answer 90

A.D.I.O

• from base (above) to apex (down)
• from endocardium (inside) to epicardium (out)

Question 91

What is the axis range for a normal heart beat?

Answer 91

between -30 and +105 degrees

Question 92

What must the QRS of lead I and the AvF must be to be a MEA that is normal?

Answer 92

both are positive

Question 93

What way will the axis shift if there is a problem such as conduction block or hypertrophy?

Answer 93

axis will shift to the side of the problem

Question 94

If there is left bundle branch block, how will the axis shift/ what will the deviation be?

Answer 94

a left axis deviation

Question 95

Hypertrophy may results if the QRS complex is shortened or prolonged?

Answer 95

if it is prolonged to greater than .12 seconds

Question 96

What can be associated with anything that creates an abnormally high work load on the ventricle chamber?

Answer 96

hypertrophy

Question 97

What is an example of something that may increase work load on the left ventricle? What can it cause?

Answer 97

Systemic hypertension; will cause hypertrophy of that left ventricle

Question 98

What supplies the myocardium?

Answer 98

• the coronary arteries and their branches

Question 99

Cells near the endocardium may be able to receive some oxygen from where?

Answer 99

some oxygen from chamber blood

Question 100

When is myocardial blood flow limited? Esp. where in the heart?

Answer 100

during cardiac muscle contraction; esp. limits the LV

Question 101

When does left coronary artery flow peak? When does right coronary artery flow peak?

Answer 101

Left– at onset of diastole
Right– as mid systole

– due to more compression of small blood vessels in wall of LV during systole

Question 102

At resting HR the myocardium will take maximum oxygen out of the perfusing coronary flow, which is what percentage?

Answer 102

70% extraction rate

Question 103

How is any increase demand on the heart met?

Answer 103

by increase coronary flow

Question 104

Normally the ____ cells to depolarize are the ____ cells to repolarize.

Answer 104

first; last

Question 105

T/F. Depolarization and repolarization waves are in the same directions.

Answer 105

False; they are in opposite directions

Question 106

The ___ and the ___ wave point in the same direction.

Answer 106

QRS and T wave

Question 107

What does ischemia prolong? Therefore, what is it delaying?

Answer 107

prolongs depolarization, therefore delays repolarizaiton

Question 108

What does ischemia cause the depolarization and repolarization waves to do?
What will this cause on an EKG?

Answer 108

go in same direction

will cause an inversion in T wave

Question 109

If there is an inversion in T wave (opposite deflection compared to QRS), what do we think is occurring to the heart?

Answer 109

ischemia

Question 110

When an infarction occurs, what do damaged cells lose the ability to do?

Answer 110

repolarize

Question 111

When does most of the frank damage occur when an infarction occurs?

Answer 111

upon reperfusion and is associated with free radical damage

Question 112

The damaged area from an infarction is in an abnormal what?

Answer 112

in an abnormal state of depolarizaiton

Question 113

What occurs when normal myocardium is in a resting polarized state, but there is damage from an infarction on part of the heart?

Answer 113

there is a “current of injury” b/w damaged and normal myocardium

Question 114

What is created on an EKG when there is a “Current of injury” b/w damaged and normal myocardium?

Answer 114

creates a depressed baseline which appears as an elevated ST segment

Question 115

When we see a depressed baseline, which is appearing as an elevated ST segment on an EKG, what do we think occurred?

Answer 115

an infarciton, and therefore why there is a “current of injury” b/w damaged and normal myocardium when normal myocardium is in a resting polarized state

Question 116

What are preferred blood markers to tell if there has been an infarction?

Answer 116

cardiac troponins T and I are preferred markers for myocardial injury

Question 117

What have the highest sensitivities and specificities for the diagnosis of acute myocardial infarction?

Answer 117

cardiac troponins T and I

Question 118

Why is troponin used as an elevated marker in a myocardial infarction?

Answer 118

b/c troponin is a contractile protein NOT normally found in serum
- is released ONLY when myocardial necrosis occurs