use 2nd as good pics PAPER 1 - Cardiovascular & Respiratory System

Question 1

Define SYSTEMIC CIRCUIT by filling in the gaps
Reponsible for the T——— of O———– B—- around the body from the L— V——- through A——- and A——– and returns D——— B—- to the R—– side of the heart through V—–

Answer 1

Reponsible for the TRANSPORT of OXYGENATED BLOOD around the body from the LEFT VENTRICLE through ARTERIES and ATERIOLES and returns DEOXYGENATED BLOOD to the RIGHT side of the heart through VEINS

Question 2

Define PULMONARY CIRCUIT by filling in the gaps

D———— B—– leaves the R—– V——— to the L—– via the P———- A—— where it is then R——–with oxygen and returns to the L— side of the heart via the P——— V—

Answer 2

DEOXYGENATED BLOOD leaves the RIGHT VENTRICLE to the LUNGS via the PULMONARY ARTERY where it is then RESATURATED with oxygen and returns to the LEFT side of the heart via the PULMONARY VEIN

Question 3

Define MYOGENIC

Answer 3

the capacity of the heart to generate its own electrical impulse, which causes the cardiac muscle to contract

Question 4

Define DIASTOLE

Answer 4

the RELAXATION phase of cardiac muscle where the chambers fill with blood

Question 5

Define SYSTOLE

Answer 5

the CONTRACTION phase of cardiac muscle where the blood is forcibly ejected into the aorta and pulmonary artery

Question 6

Explain the Atrial Diastole Phase - 4 pointsto

Answer 6

• Atria fill with blood
• AV valves are closed
• Semi lunar valves are open
• Works together with Ventricular Systole

Question 7

Explain the Ventricular Systole Phase - 4 points

Answer 7

• Pressure increases in the ventricle
• Ventricles contract
• Blood forced into the aorta and pulmonary artery
• AV valved forced to close as it works with Atrial Diastole

Question 8

Explain the Atrial Systole Phase - 3 points

Answer 8

• Atria contract forcing blood into the ventricles
• AV valves open
• Semi lunar valves close

Question 9

Explain the Ventricular Diastole Phase - 3 points

Answer 9

• Rising pressure in the atria causes the AV valves to open
• Ventricles fill with blood
• Semi-lunar valves close

Question 10

Define CARDIAC OUTPUT

Answer 10

the volume of blood ejected from the left ventricle per minute.

Question 11

Define STROKE VOLUME

Answer 11

the volume of blood ejected from the left ventricle per beat

Question 12

How does VENOUS RETURN affect stroke volume?

Answer 12

• more blood to pump out

- greater venous return=greater stroke volume

Question 13

How does ELASTICITY OF CARDIAC FIBRES affect stroke volume?

Answer 13

• greater the stretch = greater the contraction
• leads to an increase in SV
• AKA Starlings Law

Question 14

How does CONTRACTILITY OF CARDIAC FIBRES affect stroke volume?

Answer 14

• greater force of contraction = increase in SV
• partly due to Ejection Fraction increase= % of blood activity actually pumped out of LV per contraction can go from 55% to 85%

Question 15

Define HEART RATE

Answer 15

the number of times the heart beats per minute

Question 16

What is the pathway of blood ? (VAVA ect)

Answer 16

vena cava
right atrium
(tricuspid valve)
right ventricle
pulmonary artery 
(lungs)
pulmonary vein
(bicuspid valve)
left atrium
left ventricle 
aorta 
(body)

Question 17

What is the equation for cardiac output ?

Answer 17

HR x SV = Q

Question 18

What is the CARDIAC CYCLE ?

Answer 18

Atrial Diastole
Ventricular Diastole
Atrial Systole
Ventricular Systole

Question 19

What is the CONDUCTION SYSTEM ?

Answer 19

SA Node
AV Node
Bundle of HIS
Purkinje Fibres

Question 20

Describe the SA Node

Answer 20

• Sinoatrial Node
• Specialised cardiac muscle fibres
• Located in the muscle walls of Right Atrium
• Acts as a pacemaker

Question 21

Describe the AV Node

Answer 21

• Atrioventricular node
• Recieves impulse and delays passing it on
• Ensures atria contract before ventricles

Question 22

Describe the Bundle of His

Answer 22

• Where the impulse arrives next via the septum

- In the middle of the chambers

Question 23

Describe the Purkinje Fibres

Answer 23

• Via these the impulse is sent through the muscular walls of the ventricles
• Causing them to contract to force blood out
• at the bottom of the heart

Question 24

Describe the structure of veins/venules

Answer 24

• Thin layer of smooth muscle
• Wider lumen
• Passes pocket valves

Question 25

Describe the structure of pre-capillary sphincters

Answer 25

• Small ring of smooth muscle at the opening of the capillary bed

Question 26

Describe the structure of capillaries

Answer 26

• Narrow diameter

- One cell thick

Question 27

Describe the structure of arteries/arterioles

Answer 27

• Thick elastic walls
• Small lumen
• Smooth muscle layer

Question 28

Describe the function of arteries/arterioles

Answer 28

• Carry blood away from the heart

- Essential to the redistribution of blood

Question 29

Describe the function of capillaries

Answer 29

• Facilitate the exchange of gases and other nutrients between the blood and tissues

Question 30

Describe the function of veins/venules

Answer 30

• Essential in the return of blood back to the heart

Question 31

Complete this passage about the VASCULAR SHUNT MECHANISM

As we begin to exercise the distribution of B—– F— changes dramatically. Through V——– C—— and the S———- N——- S——, blood is diverted away from the non-essential T—— and O—– and redirected towards those which are active during exercise.

Answer 31

As we begin to exercise the distribution of BLOOD FLOW changes dramatically. Through VASOMOTOR CONTROL and the SYMPATHETIC NERVOUS SYSTEM blood is diverted away from the non-essential TISSUES and ORGANS and redirected towards those which are active during exercise.

Question 32

Complete this process about what happens to the vascular shunt

At R— the P————- S——— are O— and the blood flows easily through them

During exercise the P————- S———– are C—— so blood flow bypasses the O—– and M—– to areas where it is M— N——

Answer 32

At REST the PRE-CAPILLARY SPHINCTERS are OPEN and the blood flows easily through them

During exercise the PRE-CAPILLARY SPHINCTERS are CLOSED so blood flow bypasses the ORGANS and MOVES to areas where it is MOST NEEDED.

Question 33

Describe the function of pre-capillary sphincters

Answer 33

• Regulate blood flow back into the capillary bed

- Help the vascular shunt process

Question 34

How do the CARDIAC CYCLE and the CONDUCTION SYSTEM work together?

Answer 34

Atrial Diastole
Ventricular Diastole 
SA Node
AV Node 
Atrial Systole
Bundle of HIS
Purkinje Fibres
Ventricular Systole

Question 35

Define AUTONOMIC

Answer 35

involuntary or unconscious

Question 36

Define SYMPATHETIC NERVOUS SYSTEM

Answer 36

part of the autonomic nervous system responsible for increasing HR

Question 37

Define PARASYMPATHETIC NERVOUS SYSTEM

Answer 37

part of the autonomic nervous system responsible for decreasing HR

Question 38

Define MEDULLA OBLONGATA

Answer 38

a portion of the hindbrain that controls autonomic functions

Question 39

Define CCC

Answer 39

Cardiac Contol Centre

Question 40

Define HORMONAL

Answer 40

containing a hormone or hormones

Question 41

Define VENOUS RETURN

Answer 41

the return of the blood to the right atria through the veins

Question 42

Define ADRENALINE

Answer 42

a hormone secreted by the adrenal glands that increases rates of blood circulation, breathing, and carbohydrate metabolism and prepares muscles for exertion

Question 43

Define FIRING RATE

Answer 43

the amount of neurons firing at a giving time

Question 44

What are the 3 components of NEURAL FACTORS ?

Answer 44

chemoreceptors - increase in CO2
proprioreceptors - muscle and tendon movement
baroreceptors - blood pressure

Question 45

What is the one component of HORMONAL FACTORS ?

Answer 45

adrenaline - increases HR

Question 46

What are the components of INTRINSIC FACTORS ?

Answer 46

temperature

venous return

Question 47

What are the 5 components in VENOUS RETURN ?

Answer 47

• pocket valve
• smooth muscle
• gravity
• skeletal muscle pump
• respiratory pump

Question 48

What is RCC ?

Answer 48

Respiratory Control Centre

Question 49

What are the 2 centres in the RCC ?

Answer 49

• expiratory centre

- inpiratory centre

Question 50

What nerve is linked with the EXPIRATORY CENTRE and where does it go to ?

Answer 50

INTERCOSTAL NERVE - external intercostal muscles

Question 51

What nerve is linked with the INSPIRATORY CENTRE and where does it go to ?

Answer 51

PHRENIC NERVE - diaphragm

Question 52

What 3 components are in the VASCUALR SHUNT ?

Answer 52

• vasoconstriction
• vasodialation
• pre-capillary sphinter

Question 53

What is VASOCONSTRICTION ?

Answer 53

when the lumen gets smaller - limiting blood flow

Question 54

What is VASODIALATION ?

Answer 54

when the lumen gets bigger - increasing blood flow

Question 55

What do PRE-CAPILLARY SPHINTERS do ?

Answer 55

open and close to allow blood to flow through capillaries

Question 56

How does temperature link to venous return ?

Answer 56

temp increases - viscosity decrease - venous return increase - (SV) stroke volume increase = (Q) cardian output increase.

Question 57

INSPIRATION REST active or passive ?

Answer 57

active

Question 58

EXPIRATION REST active or passive ?

Answer 58

passive

Question 59

INSPIRATION EXERCISE active or passive ?

Answer 59

active

Question 60

EXPIRATION EXERCISE active or passive ?

Answer 60

active

Question 61

What muscles are involved with IR ?

Answer 61

diaphragm

external intercostal

Question 62

What muscles are involved with ER ?

Answer 62

none

Question 63

What muscles are involved in IE ?

Answer 63

diaphragm
external intercostal
sternocleidomastoid
pectoralis minor

Question 64

What muscles are involved in EE ?

Answer 64

internal intercostal

rectus abdominalis

Question 65

IR : DIAPHRAGM

Answer 65

contracts and flattens

Question 66

IR : RIBS

Answer 66

up and out

Question 67

ER : DIAPHRAGM

Answer 67

relaxes

Question 68

ER : RIBS

Answer 68

down and in

Question 69

IE : RIBS

Answer 69

further up and out

Question 70

EE : RIBS

Answer 70

forced down and in

Question 71

IR : RESULT

Answer 71

decrease in pressure in THORATIC CAVITY

air is brought into the lungs

Question 72

ER : RESULT

Answer 72

increase in pressure in THORATIC CAVITY

air is pushed out

Question 73

IE : RESULT

Answer 73

decrease in pressure in THORATIC CAVITY

MORE air is brought in

Question 74

EE : RESULT

Answer 74

increase in pressure in THORATIC CAVITY

air is FORCED OUT

Question 75

What is PARTIAL PRESSURE ?

Answer 75

concentration of gas in a space

Question 76

What is DIFFUSION GRADIENT ?

Answer 76

gas moves from high pp to low pp

Question 77

What is DIFFUSION ?

Answer 77

movement of particles across a partially permeable membrane (1 cell thick) down a diffusion gradient

Question 78

What are the 2 “features” in the EXTERNAL SITE ?

Answer 78

alveoli and capillary

Question 79

What are the 2 “features” in the INTERNAL SITE ?

Answer 79

muscle fibre and capillary

Question 80

How many oxygen can haemoblobin hold ?

Answer 80

4

Question 81

What is the product of oxygen and haemoglobin ?

Answer 81

oxyhaemoglobin

Question 82

Where is there a high PP of O2 at the external site ?

Answer 82

in the alveoli / lungs

Question 83

Where is there a high PP of CO2 at the external site ?

Answer 83

in the capillary

Question 84

Where is there a low PP of O2 at the external site ?

Answer 84

in the capillary

Question 85

Where is there a low PP of CO2 at the external site ?

Answer 85

in the alveoli / lungs

Question 86

What is a partially permeable membrane ?

Answer 86

a membrane that is one cell thick

Question 87

After the external site, where does the blood go ?

Answer 87

LA / LV / AORTA / MUSCLE

Question 88

How many oxygen disassociate from the haemoglobin at the internal site ?

Answer 88

2

Question 89

How many CO2 diffuse out of the muscle fibre ?

Answer 89

an equal amount - PP should always be equal

Question 90

Where is there a high PP of 02 at the internal site ?

Answer 90

in the capillary

Question 91

Where is there a high PP of CO2 at the internal site ?

Answer 91

in the muscle fibre

Question 92

Where is there a low PP of O2 at the internal site ?

Answer 92

in the muscle fibre

Question 93

Where is there a low PP of CO2 at the internal site ?

Answer 93

in the capillary

Question 94

Does the capillary only contain O2 ?

Answer 94

no it carries some CO2

Question 95

HEART RATE : REST : UNTRAINED

avg?

Answer 95

60 - 80

-avg=72bpm

Question 96

HEART RATE : REST : TRAINED

and define bradycardia

Answer 96

> 60

reduction of resting heart rate to below 60bpm

Question 97

HEART RATE : MAX

Answer 97

220 - age

Question 98

STROKE VOLUME : REST : UNTRAINED

Answer 98

75 ml

Question 99

What 3 factors is stroke volume determined by?

Answer 99

• venous return
• elasticity of cardiac fibres
• contractility of cardiac tissue

Question 100

STROKE VOLUME : REST : TRAINED

Answer 100

up to 120ml

Question 101

CARDIAC OUTPUT can reach

Answer 101

20-40l/min

Question 102

BREATHING FREQUENCY : REST : UNTRAINED

Answer 102

12 - 15 breaths per min

Question 103

BREATHING FREQUENCY : REST : TRAINED

Answer 103

11 - 12 breaths per min

Question 104

BREATHING FRQUENCY : MAX : UNTRAINED

Answer 104

40 - 50 breaths per min

Question 105

BREATHING FREQUENCY : MAX : TRAINED

Answer 105

50 - 60 breaths per min

Question 106

TIDAL VOLUME : REST : UNTRAINED

Answer 106

0.5 l

Question 107

TIDAL VOLUME : REST : TRAINED

Answer 107

0.5 l

Question 108

TIDAL VOLUME : MAX : UNTRAINED

Answer 108

2.5 - 3 l

Question 109

TIDAL VOLUME : MAX : TRAINED

Answer 109

3 - 3.5 l

Question 110

MINUTE VENTILATION : REST : UNTRAINED

Answer 110

6 - 7.5 l/min

Question 111

MINUTE VENTILATION : REST : TRAINED

Answer 111

5.5 - 6 l/min

Question 112

MINUTE VENTILATION : MAX : UNTRAINED

Answer 112

100 - 150 l/min

Question 113

MINUTE VENTILATION : MAX : TRAINED

Answer 113

160 - 210 l/min

Question 114

Describe the structure of arteries/arterioles

Answer 114

• Thick elastic walls
• Small lumen
• Smooth muscle layer

Question 115

Describe the structure of arteries/arterioles

Answer 115

• Thick elastic walls
• Small lumen
• Smooth muscle layer

Question 116

Describe the function of arteries/arterioles

Answer 116

• Carry blood away from the heart

- Essential to the redistribution of blood