Cardiovascular Physiology

Question 1

Characteristics of myocardium

Answer 1

• can undergo hypertrophy from aerobic or resistance training, and disease
• fibers connected by intercalated disks
• 1 fiber type (similar to type 1)
• works via calcium induced calcium release

Question 2

How does the blood flow through the heart?

Answer 2

1. enters through the SVC/IVC into the right atrium
2. tricuspid valve opens and fills the right ventricle
3. right ventricle pumps blood through pulmonary valve and into the pulmonary arteries
4. blood picks up oxygen in the alveolus of the lungs
5. blood flows through the pulmonary veins and into the left left atrium
6. mitral valve opens and blood flows into the left ventricle
7. left ventricle pumps the blood through the aortic valve and into the aorta and throughout the body

Question 3

What is the purpose of the heart valves?

Answer 3

prevent backflow

Question 4

What is a murmur?

Answer 4

slight backflow of blood in the heart

Question 5

What node initiates signal

Answer 5

sinoatrial (SA) node

Question 6

What node delays signal?

Answer 6

atrioventricular (AV) node

Question 7

What are the steps of the electrical conduction system?

Answer 7

1. SA node initiates signal
2. signal passes through atria stimulating contraction
3. AV node delays signal
4. the bundle of HIS ferries the sign signal through skeleton to interventricular septum
5. right and left branches convey signal to apex
6. purkinje fibers carry signal up through ventricles stimulating contraction from the bottom upward

Question 8

What is sinus rhythm and the value of sinus rhythm?

Answer 8

SA node rhythm (~100 bpm)

Question 9

How long does the AV node delay the signal?

Answer 9

~ 0.13 seconds

Question 10

How much faster does the purkinje fibers transmit signals?

Answer 10

~ 6x faster than the rest of the system

Question 11

Where does the parasympathetic originate?

Answer 11

medulla oblongata

Question 12

How does a signal through the parasympathetic reach the heart?

Answer 12

vagus nerve

Question 13

Process of signal from parasympathetic to heart

Answer 13

1. vagues nerve
2. SA & AV nodes
3. ACh release
4. hyperpolarization of conduction cells

Question 14

What would our resting heart rate be without vagal tone?

Answer 14

100 bpm (average resting is between 60 and 80 bpm)

Question 15

What happens to depolarization with the sympathetic nervous system?

Answer 15

increases

Question 16

When is the sympathetic nerve activated (bpm)?

Answer 16

100 bpm

Question 17

What are the two catecholamines?

Answer 17

epinephrine and norepinephrine

Question 18

What system causes the release of catecholamines?

Answer 18

sympathetic nervous system

Question 19

With training, the autonomic neural hypothesis states?

Answer 19

parasympathetic signaling (vagal tone)

Question 20

With training, the intrinsic rate hypothesis states?

Answer 20

SA node intrinsic rate decreases

Question 21

Equation for cardiac output

Answer 21

CO = stroke volume * heart rate

Question 22

Equation for stroke volume

Answer 22

SV = end diastolic volume - end systolic volume

Question 23

Equation for ejection fraction

Answer 23

EF = (end diastolic volume - end systolic volume) / end diastolic volume

Question 24

What is the average normal value for cardiac output?

Answer 24

4.2 - 5.6 L/min

Question 25

What is the average normal value for stroke volume?

Answer 25

60 - 80 ml/beat

Question 26

What is the average normal value for ejection fraction?

Answer 26

60%

Question 27

What is the heart’s primary function?

Answer 27

pump blood throughout the body

Question 28

Where is the site of most sympathetic blood pressure control?

Answer 28

arterioles

Question 29

Where is the site of oxygen and carbon dioxide exchange?

Answer 29

capillaries

Question 30

What carries blood away from the heart?

Answer 30

arteries

Question 31

What carries blood to the heart?

Answer 31

veins

Question 32

Equation for Mean Arterial Pressure

Answer 32

MAP = (2/3 DBP + 1/3 SBP) or DBP + (0.333 * (SBP - DBP))

Question 33

Equation for Pulse Pressure

Answer 33

SBP - DBP

Question 34

What does blood flow rely on?

Answer 34

pressure gradient

Question 35

How is the pressure gradient maintained?

Answer 35

vessel resistance

Question 36

Equation for resistance

Answer 36

blood viscosity (n) 8 length of vessel (L) / radius^4 (r)

Question 37

What is viscosity?

Answer 37

thickness (blood viscosity = blood thickness)

Question 38

Equation for blood flow

Answer 38

pressure / resistance

Question 39

What are the byproducts of metabolism that stimulate vasodilation?

Answer 39

carbon dioxide (CO2), hydrogen (H+), lactate, potassium (K+)

Question 40

What is released from alpha motor neurons during contractions?

Answer 40

acetylcholine (ACh)

Question 41

What releases with pressure on the walls, but go right back to where they got released?

Answer 41

prostaglandins

Question 42

What are dilator substances from endothelium?

Answer 42

nitric oxide (NO), prostaglandin, endothelium-derived hyperpolarizing factor (EDHF)

Question 43

What does smooth muscle do when the pressure increases?

Answer 43

contracts (relaxes with decreased pressure)

Question 44

What factors help with blood flow control?

Answer 44

extrinsic regulation, metabolic regulation, dilator substance from endothelium, myogenic response

Question 45

What nervous system response is extrinsic regulation?

Answer 45

sympathetic

Question 46

What nervous system is activated when muscles contract?

Answer 46

sympathetic

Question 47

What is functional sympatholysis?

Answer 47

turning off sympathetic activity

Question 48

The sympathetic activity is turned off by an upregulation of what?

Answer 48

nitric oxide (NO) and prostaglandin I2 (PGI2)

Question 49

What is activated when blood flow is reduced (vasoconstriction) due to muscle contraction?

Answer 49

functional sympatholysis

Question 50

What are the baroreceptors?

Answer 50

aortic arch and carotid arteries

Question 51

What do chemoreceptors do?

Answer 51

sense change in chemical environment

Question 52

What do mechanoreceptors do?

Answer 52

sense change in muscle length and tension (important during exercise)

Question 53

Where is most blood stored?

Answer 53

veins

Question 54

What is a muscle pump?

Answer 54

mechanical compression of veins during skeletal muscle contractions

Question 55

What is a respiratory pump?

Answer 55

pressure changes in abdominal and thoracic cavity during breathing create a pressure gradient

Question 56

What does oxygen bind to?

Answer 56

hemoglobin (more specifically the heme)

Question 57

What does carbon dioxide bind to?

Answer 57

globin (the protein of hemoglobin)

Question 58

What is a hematocrit?

Answer 58

formed element

Question 59

How many hemoglobin are in a single red blood cell?

Answer 59

250 million

Question 60

What are the steps to the electrical conduction system of the heart?

Answer 60

1. sinoatrial (SA) node initiates signal
2. signal passes through atria stimulating contraction
3. atrioventricular (AV) node delays signal
4. the bundle of His ferries the signal through fibrous skeleton to interventricular septum
5. right and left branches convey signal to apex
6. purkinje fibers carry signal up through ventricles, stimulating contraction from the bottom upward