1.2 Cardiovascular and respiratory systems 2

Question 1

What is an autonomic nervous system (ANS)

Answer 1

the part of the nervous system responsible for control of the bodily functions not consciously directed, such as breathing, the heartbeat, and digestive processes.

involuntarily regulates heart rate and determines firing rate of the SA node

-higher firing rate of the SA node higher heart rate

Question 2

What is the cardiac control centre

Answer 2

control centre in the medulla oblongata that controls the heart rate

Question 3

Name the 3 main control mechanisms that determine the action of the cardiac control centre

Answer 3

-neural control
-intrinsic control
-hormonal control

Question 4

What is neural control

Answer 4

chemoreceptors ->detect ^ in acidity in blood

proprioceptors -> detect movement in tendons & muscle fibres

baroreceptors -> detect increase in pressure in blood vessels

Question 5

What is intrinsic control

Answer 5

temperature changes affect viscosity (thickness) of blood and speed of nerve impulse transmission

venous return changes affect stretch in ventricle walls, force of ventricular contraction, stroke volume

Question 6

What is hormonal control

Answer 6

adrenaline and noradrenaline- released from adrenal glands-

increase force of ventricular contraction (therefore SV) - increasing spread of electrical activity through heart

Question 7

What is the vascular system

Answer 7

network of blood vessels and blood
-ensures oxygen and nutrients are delivered to all respiring cells for energy production
- waste is removed efficiently

Question 8

Name 3 functions of the blood

Answer 8

• transports oxygen and glucose
• protect and fight disease
• maintain the internal stability of the body

Question 9

What are the three types of blood vessels

Answer 9

• arteries
• veins
• capillaries

Question 10

What do arteries and arterioles do

Answer 10

transport oxygenated blood from the heart to muscles and organs

Question 11

Name the main artery and what it does

Answer 11

aorta
-carries blood at a high pressure directly from left ventricle
-subdivides arterioles slowing blood flow

Question 12

Name 3 characteristics of arteries

Answer 12

• large layer of smooth muscle
• elastic tissue to cushion and smooth blood
• small lumen

Question 13

Explain what arterioles are

Answer 13

Small branch of an artery leading into capillaries

Question 14

What are pre capillary sphincters

Answer 14

• ring of smooth muscle surrounding the entry of capillary bed.
• they dilate and constrict to control blood flow through capillary bed

Question 15

What process occurs in capillaries

Answer 15

gas exchange

-O2 passes through capillary wall & into tissues

-CO2 passes from tissues -> blood through capillary wall

Question 16

Explain characteristics of capillaries

Answer 16

• walls have a single layer, thin enough to allow gas, nutrient and waste exchange

Question 17

What do veins and venules do

Answer 17

they transport deoxygenated blood from the muscles and organs back to the heart.

Question 18

What is vasodilation

Answer 18

the widening of the arteries, arterioles and pre-capillary sphincters

Question 19

What is vasoconstriction

Answer 19

narrowing of arteries, arterioles and pre-capillary sphincters

Question 20

What is the main vein

Answer 20

vena cava

Question 21

Name the characteristics of veins and venules

Answer 21

• small layer of smooth muscle allowing them to venodilate and venoconstrict to maintain the slow flow of blood towards the heart
  -veins have one-way pocket valves which prevent backflow of blood

Question 22

What is venous return

Answer 22

return of blood to the heart through the venules and veins back to the right atrium, largely against gravity

Question 23

Why is a greater venous return needed during exercise

Answer 23

greater demand for oxygen -> more oxygenated blood requires greater venous return-> so stroke volume, cardiac output can increase.

Question 24

What are the five mechanisms that aid venous return

Answer 24

• pocket valves
• smooth muscle
• gravity
• muscle pump
• respiratory pump

Question 25

How does smooth muscle aid venous return

Answer 25

-found in vein wall -> venoconstricts

-pushing blood back towards heart

Question 26

How do pocket valves aid venous return

Answer 26

• valves prevent backflow of blood

Question 27

How does gravity aid venous return

Answer 27

blood from upper body, above heart, helped to return by gravity

Question 28

How is muscle pump an aid in venous return

Answer 28

during exercise, skeletal muscle contract compressing veins located between them, squeezing blood back to heart

Question 29

How does the respiratory pump aid venous return

Answer 29

• during inspiration and expiration, pressure difference between thoracic and abdominal cavity is created, squeezing blood back to heart

Question 30

How does a cooling down help recovery

Answer 30

• low intensity exercise maintains muscle and respiratory pump

aiding return of blood to heart

Question 31

What is cardiac output at rest

Answer 31

5 l/ min

Question 32

What is the vascular shunt mechanism

Answer 32

redistribution of cardiac output around body from rest to exercise

increases % of blood flow to skeletal muscles

Question 33

what is the sympathetic nervous system

Answer 33

part of ANS- responsible for increasing HR during exercise

Question 34

how does vasoconstriction and vasodilation occur

Answer 34

vasomotor control centre (VCC) stimulates vasonstriction and vasodilation to occur

Question 35

what is the parasympathetic nervous system

Answer 35

part of ANS- responsible for decreasing HR, specifically during recovery

Question 36

what do arterioles lead to and what does this do

Answer 36

lead to capillary beds- brings blood in close contact with organ and muscle cells

Question 37

what is blood flow into capillary beds controlled by

Answer 37

pre-capillary sphincters

Question 38

what 2 things can pre-capillary sphincters do which controls how much blood flows

Answer 38

-constrict- limits blood flow through capillary bed

-dilate- maximises blood flow into capillary bed

Question 39

what occurs at rest in terms of cardiac output

Answer 39

-high % cardiac output goes to organs
-low % cardiac output goes to muscles

Question 40

what do the aterioles do when the body is at rest

Answer 40

-aterioles to organs vasodilate- increasing blood flow
-aterioles to musces- vasoconstrict- limiting blood flow

Question 41

what do the pre-capillary sphincters do when the body is at rest

Answer 41

-pre-capillary sphincters dilate- opening up capillary beds to allow more blood to organ cells

-pre-capillary sphincters constrict- closing capillary beds to muscle cells

Question 42

what is vasomotor control centre

Answer 42

-control centre in medulla oblongata responsible for cardiac distribution

Question 43

what controls vascular shunt mechanism

Answer 43

vasomotor control centre

Question 44

what is vasomotor tone

Answer 44

partial state of smooth muscle constriction in arterial walls

Question 45

what 2 things does the vasomotor control centre receive information from and what info does it receive

Answer 45

-chemoreceptors- regarding chemical changes (CO2 , lactic acid rising during exercise

-barorecptors- regarding pressure changes on aterial walls

Question 46

describe the steps in which occurs in the vasomotor control of cardiac output in response to exercise

Answer 46

-chemoreceptors detect increase in lactic acid, CO2

-barorecptors detect increased stretch on vessel walls

-send this info to VCC

-VCC uses SNS to increase or decrease sympathetic stimulation to arterioles and pre-capillary sphincters

-sympathetic stimulation = decreased

-arterioles and pre-capillary sphincters dilate

-blood flow to muscle cells increases

-sympathetic stimulation increased

-aterioles and pre-capillary sphincters constrict

-blood flow decreases to organ cells

Question 47

describe the steps in which occurs in the vasomotor control of cardiac output in response to exercise

Answer 47

-chemoreceptors detect increase in lactic acid, CO2

-barorecptors detect increased stretch on vessel walls

-send this info to VCC

-VCC uses SNS to increase or decrease sympathetic stimulation to arterioles and pre-capillary sphincters

-sympathetic stimulation = decreased

-arterioles and pre-capillary sphincters dilate

-blood flow to muscle cells increases

-sympathetic stimulation increased

-arterioles and pre-capillary sphincters constrict

-blood flow decreases to organ cells

Question 48

describe what the VCC does when it receives the sensory info from the baroreceptors and chemoreceptors

Answer 48

-sympathetic stimulation will either be increased/ decreased to alter level of vasoconstriction of arterioles, pre-capillary sphincters

Question 49

why does sympathetic stimulation increase

Answer 49

-to vasoconstrict arterioles, pre-capillary sphincters, to limit blood flow to areas such as muscles at rest

Question 50

why does sympathetic stimulation decrease

Answer 50

-to vasodilate arterioles, pre-capillary sphincters, to increase blood flow to area such as muscles during exercise

Question 51

What is the point of venous return mechanisms

Answer 51

work to maximise/ ^ blood flow back to heart