Exercise and control of heart rate 7.9 Flashcards
What two things happen when you exercise?
- Increased breathing rate and depth to get more oxygen and get rid of CO2
- Increased heart rate to deliver oxygen to muscles faster and to remove extra CO2
What part of the brain controls breathing rate + what areas does it contain?
The medulla oblongata contains two ventilation centres: inspiratory centre and expiratory centre
Describe how the rate of breathing is controlled:
- Sends nerve impulses to intercostal muscles and diaphragm = contraction which increases the volume of the lungs which lowers pressure
- Nerve impulses sent to expiratory centre which inhibit action
- Air enters the lungs due to pressure differences between outside and inside
- Lungs inflate causing stretch receptors to become stimulated = nerve impulse back to MO which inhibit action of inspiratory centre
- Expiratory centre no longer inhibited do nerve impulses sent to diaphragm and lungs to relax = lungs deflate = stretch receptors no longer active and process repeated
How does exercise trigger an increase in breathing rate? Describe the steps:
It decreases blood pH
- Level of CO2 in blood increases = decrease of pH
- Chemoreceptors detect a decrease in blood pH and send nerve impulses to MO which sends more frequent nerve impulses to intercostal muscles and diaphragm = increase rate and depth of breathing
- Gaseous exchange speeds up and pH and breathing rate returned to normal
What are chemoreceptors?
Monitor oxygen, CO2 and pH levels in the blood found in the aortic bodies, carotid bodies and MO
Define ventilation rate:
The volume of air breathed in or out in a period of time
What part of the brain controls heart rate?
Controlled by the cardiovascular control centre in the medulla oblongata
What does the cardiovascular centre control the rate of?
The rate at which the sino-atrial node fires
What does the SAN do?
Generates electrical impulses that cause the atria to contract which sets the rhythm of the heartbeat
What are baroreceptors?
Receptors that detect pressure found in the aortic and carotid bodies
What are the two types of neurones that the cardiovascular centre can send impulses along to the SAN?
Sympathetic and parasympathetic
Describe the sympathetic nervous system:
Helps increase heart rate during exercise – fight or flight
Describe the parasympathetic nervous system:
Helps decrease heart rate after exercise – rest and digest
How does the heart respond to high blood pressure?
- Baroreceptors detect high blood pressure
- Impulses sent to cardiovascular centre = send impulse along parasympathetic neurones that secrete acetylcholine which bind to receptors on the SAN
- SAN fires impulses less frequently = heart rate slows = reduces blood pressure
How does the heart respond to low blood pressure?
- Baroreceptors detect low blood pressure
- Impulses sent to cardiovascular centre = send impulse along sympathetic neurones that secrete noradrenaline which bind to receptors on the SAN
- SAN fires impulses more frequently = heart rate increases = increases blood pressure
