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286970
LUNG FUNCTION
Descripción
Lung Volumes and Capacities Gaseous Exchange Mechanics of Breathing A bit on Control of Breathing (expanded in other mind map)
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lung function
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harmonyhennessy
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harmonyhennessy
hace alrededor de 11 años
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Resumen del Recurso
LUNG FUNCTION
MECHANICS OF BREATHING
Inspiration
External intercostals and diaphragm contract, causing cavity to increase in size
This also decreases pressure inside the lungs, causing air to rush in via nose and mouth
DURING EXERCISE not only do the external intercostals and diaphragm contract, so do the scaleni and sternocleidomastoids
Helps raise first and secnd rib, causing a bigger thoracic activity
Expiration
External intercostals and diaphragm relaxes, causing them to move back to original positions
As ribs move inwards and diaphragm upwards, pressure in lungs is greater than atmosphere outside, forcing air out of lungs
DURING EXERCISE internal intercostals and abs contract, moving ribs and diaphragm quicker
ALVEOLI - tiny thin-walled air sacs found in large numbers in the lungs
INSPIRATION - the act of breathing in
EXPIRATION - the act of breathing out
LUNG VOLUMES AND CAPACITIES
TIDAL VOLUME - amount of air breathed in or out per breath
INSPIRATORY RESERVE VOLUME - maximal amount of air forcibly inspired in addition to tidal volume
EXPIRATORY RESERVE VOLUME - maximal amount of air forcibly expired in addition to tidal volume
VITAL CAPACITY - maximal amount of air exhaled after a maximal inspiration
TV + IRV + ERV
RESIDUAL VOLUME - amount of air left in lungs after a maximal expiration
TOTAL LUNG CAPACITY - vital capacity plus residual volume
TV + IRV + ERV + RV
VC + RV
MINUTE VENTILATION - the amount of air moved in and out of the lungs in one minute. (ml. min-1)
Ve = frequency of breathing x tidal volume
GASEOUS EXCHANGE
DIFFUSION - the movement of gas molecules from an area of high concentration to an area of low concentration
PARTIAL PRESSURE - the pressure a gas exerts in a mixture of gases
mmHg - mm of mercury
OXYGEN IN THE LUNGS Alveoli PO2 = 100mmHg Capillaries PO2 = 40mmHg
Diffusion gradient causes O2 to move from alveoli into pulmonary capillaries
OXYGEN IN THE MUSCLES Capillaries PO2 = 40mmHg Muscle PO2 = 105mmHg
DURING EXERCISE Capillaries PO2=40mmHg Muscle PO2=>40mmHg
During exercise, the breakdown of glucose to provide energy for the reformation of ATP increases
CARBON DIOXIDE IN THELUNGS Alveoli PCO2 = 40mmHg Capillaries PCO2 45mmHg
Diffusion gradient causes CO2 to move from pulmonary capillaries to alveoli
CARBON DIOXIDE IN MUSCLES Capillaries PCO2=45mmHg Muscle PCO2=40mmHg
Diffuse from capillaries into muscle
DURING EXERCISE Capillaries PCO2 =45mmHg Muscle PCO2 = 90mmHg
STRUCTURE OF LUNGS TO AID GASEOUS EXCHANGE
One-cell thick capillary walls (thin)
Semi-permeable membrane
Short distance between alveoli and capillary
Steep diffusion gradients caused by partial pressures
Large surface of alveoli
Moisture for enhancing uptake of O2
CONTROL OF BREATHING
CARBON DIOXIDE 5% dissolved in blood plasma 20% combined with haemoglobin 60-80% combines with water (bicarbonate)
CHANGES IN RESPIRATION
Controlled by medulla oblongata (found between spial cord and upper brain)
Controls depth and rate of breathing
At rest inspiratory centre sends nerve impulses to diaphragm and external intercostal muscles to contract
During exercise increase in CO2 blood
=increased acidity
=increase in lactic acid
Detected by chemoreceptors, where sympathetic nerve is stimulated (contraction)
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