Lungs By the end of the chapter you should be able to: Label the internal structures of the lungs ...
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Transcript of Lungs By the end of the chapter you should be able to: Label the internal structures of the lungs ...
![Page 1: Lungs By the end of the chapter you should be able to: Label the internal structures of the lungs State the features of the alveoli which allow efficient.](https://reader035.fdocuments.in/reader035/viewer/2022062322/56649efe5503460f94c13226/html5/thumbnails/1.jpg)
LungsLungsBy the end of the chapter you should be
able to: Label the internal structures of the lungs State the features of the alveoli which
allow efficient gas exchange Explain the role of diffusion in gas
exchange State the features of the capillary
network that allow efficient gas exchange
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Gaseous exchange
How are the structure and functions of the cardiovascular system and gaseous exchange linked?
How are they affected by physical activity and our overall level of health?
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gaseous exchange system
- links the circulatory system with the atmosphere
clean warmed air enters during breathing
surface area is maximized for the diffusion of O2 and CO2 between the blood and the atmosphere
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gaseous exchange system
minimize the distance for diffusion maintain adequate gradients for this
diffusion
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Breathing
footprints breathing
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The lungs
organs that allow gas exchange
oxygen in / CO2 out
trachea- has rings of cartilagebronchi (bronchus)bronchiolesalveoli (alveolus)
computer animation
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Lungs
- site of gaseous exchange between air and blood
huge surface area in/out in the thoracic (chest) cavity surrounded by an airtight space
between the pleural membranes
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Lungs
small quantity of liquid in this area allows friction-free movement
pleurisy – inflammation of the pleural membranes
ventilated by the movement of the diaphragm and ribs
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Trachea, bronchi, bronchioles
lungs ventilated when air passes through a branching system of airways
trachea – leads from the throat to the lungs
bronchi (two) – at base of the trachea
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Trachea, bronchi, bronchioles
bronchus – subdivide and branch extensively forming bronchial tree
cartilage – in the trachea and bronchi keep the airways open, air resistance low, and keeps them from collapsing or bursting as the air pressure changes during breathing
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Trachea, bronchi, bronchioles
trachea - C-shaped rings of cartilage bronchi – irregular blocks of cartilage small bronchioles lack cartilage –
surrounded by smooth muscle which can contract or relax to adjust the diameter of the bronchioles allowing greater air flow to the alveoli during exercise
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Warming and cleaning the air
air warmed (to body temperature) and moistened (from evaporation from the lining) as it travels through the nose and trachea
warming and moistening the air protects the inside of the lungs from desiccation (drying out)
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Warming and cleaning the air
hairs and mucus lining the nasal passages – remove particles larger than 5-10 μm (dust, pollen, bacteria, fungal spores, sand, and viruses)
goblet cells – cells of the ciliated epithelium that produce mucus
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Warming and cleaning the air
upper part of each goblet cell is swollen with mucin droplets
mucin – slimy solution of glycoproteins with many carbohydrates chains (makes it sticky and able to trap inhaled particles)
rest of cell contains the nucleus and is quite slender like the stem of a goblet
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Warming and cleaning the air
mucus – also made by glands beneath the epithelium
some pollutants – sulphur dioxide and nitrogen dioxide can dissolve in mucus to form acid and irritate the lining of the airways
ciliated cells – between goblet cells
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Warming and cleaning the air
continual beating carries the carpet of mucus upwards towards the larynx at a speed of 1 cm/min
mucus usually then swallowed and the pathogens are destroyed by stomach acids
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Warming and cleaning the air
macrophages – phagocytic white blood cells patrol the surfaces of the airways scavenging small particles such as bacteria and fine dust particles
during infections - macrophages are joined by other phagocytic cells which leave the capillaries
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Alveoli
alveoli – at the end of the pathway bewteen the atmosphere and bloodstream
very thin epithelial lining surrounded by many blood capillaries carrying deoxygenated blood
short distance – allows efficient diffusion
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Alveoli
elastic fibers - in alveolar walls stretch during breathing and recoil during expiration to help force air out
fully expanded during exercise – surface area for diffusion increases
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Alveoli (air sacs)
provide large surface area for gas exchange
one lung equivalent to a tennis court of surface area using alveoli
footprints alveoli
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air sac in lungs deoxygenated blood
oxygenated blood
body cells
air in
air out
skool gas exchange
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hyaline cartilage,mucousglands
ciliated epithelium,goblet cells
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ciliated, stratified appearance.
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cartilage ring-like•in appearance.
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more smooth musclesas progress into
bronchiole.-less mucus glands & cartilage
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terminal respiratory bronchioles
alveoli
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macrophage in alveoli
monkey lung
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Features of Alveoli for Features of Alveoli for efficient gas exchange - efficient gas exchange -
summarysummary
large surface area to absorb oxygen.
moist surface to allow oxygen to dissolve.
Surfactant – reduces surface tension, keeps alveoli from recoiling and sticking together
thin lining to allow easy diffusion of gases..skool adaptation of alveoli
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Features of capillaries for Features of capillaries for efficient gas exchangeefficient gas exchange
dense network to carry CO2 and O2
Large surface area to transport gases
Lining is one cell thick so gases can pass through quickly and easily.
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Airway Number
Approx.diamet
er
Cartilage Goblet
cells
Smooth
muscle
Cilia
Site of gas
exchange
trachea 1 1.8 cm yes yes yes yes no
bronchus 2 1.2 cm yes yes yes yes no
terminal bronchiole 48 000 1.0 mm no no yes yes no
respiratory bronchiole
300 000
0.5 mm no no no yes no
alveolar duct 9X106 400 μm no no no no yes
alveoli 3X109 250 μm no no no no yes
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Breathing rate and heart rate
as body activity varies the rate cells need oxygen also varies
rate of supply of oxygen to the cells is determined by the rate and depth of 1) breathing and 2) rate at which the heart pumps blood
around the body
breathing refreshes the air in the alveoli
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Breathing rate and depth
changing the depth and rate of breathing - maintains a constant concentration of O2 and CO2 no matter the level of activity
at rest – ventilate about 6.0 dm3 of air per minute
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Breathing rate and depth about 0.35 dm3 of new air enters the
alveoli with each breath, only 1/7th of the total volume of air in the alveoli
means large changes in the composition of alveolar air never occur
impossible to empty the lungs completely even during forced exhalation
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Breathing rate and depth
residual volume - about 1.0 dm3 of air remains in the alveoli and airways
about 2.5 dm3 of air remains in the lungs after breathing out normally
breathing deeply – lungs can increase volume by as much as 3 dm3
exercise increases the depth of breathing and breathing rate
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Breathing rate and depth
Tidal volume – volume in a single normal breath
Vital capacity - volume breathed in after maximum expiration
ventilation rate – total volume of air moved into lungs in one minute
ventilation rate = tidal volume x breathing rate
expressed as dm3min-1
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Breathing rate and depth
well trained athlete – achieve adequate ventilation by increasing the tidal volume with only a small increase in the breathing rate, training improves efficiency of the muscles involved with breathing
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Pulse rate
ventricles contract – a surge of blood flows into the aorta and the pulmonary arteries under pressure
stroke volume – volume of blood pumped out from each ventricle
cardiac output – total volume pumped out per minute
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Pulse rate pulse – a blood surge distends the arteries
(which contain elastic tissue) which stretch and subsequently recoil of aorta and arteries travels as a wave along all the arteries
pulse rate – identical to the heart rate pulse measured – at wrist where the
radial artery passes over bone or at the carotid artery in the neck
resting pulse – an indication of fitness
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Pulse rate at rest – cardiac output is about 5
dm3 of blood every minute cardiac output – achieved by large
stroke volume with a low pulse rate or small stroke volume with a high pulse
more efficient – to pump slowly as the heart uses less energy than when pumping at a high rate
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Pulse rate
physically fit – resting pulse low, stroke volume high, only a small increase in pulse is necessary to achieve the required blood supply – pulse rates return to resting level quickly after exercise
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Pulse rate
normal range – adult resting pulse rates 60-100 bpm
average fit young adult – 70 bpm, falls with age
pulse rate higher during/after exercise, after easting or smoking
pulse rate lowest when sleeping
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Blood pressure
systole – both ventricles contract left ventricle force oxygenated blood
out of the heart to supply the body maximum arterial pressure –
systolic pressure during active stroke, when blood leaves the heart through the aorta
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Blood pressure heart relaxes – left ventricular
pressure falls, high pressure in the aorta closes the semilunar valve
head of pressure – elastic recoil of the aorta and the main arteries provides a steady flow of blood in the arteries towards the capillaries
diastolic pressure – minimum pressure in the arteries
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Blood pressure
reflect resistance – of the small arteries and capillaries to blood flow and therefore the load against which the heart must work
resistance high, so is the diastolic pressure – results from arteries not stretching well because they may have hardened
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Blood pressure
sphygmomanometer – measures blood pressure
systolic – 120 mm Hg (15 kPa) diastolic – 80 mm Hg (10.5 kPa) 120/80 – typical blood pressure
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Blood pressure
BP – rise and fall during the day young adult – 110/75 60 years – 130/90 exercise – systolic 200 mm Hg, while
diastolic rarely changes
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Hypertension
hypertension - high systolic and diastolic blood pressures at rest
no sharp distinction between ‘normal’ and ‘high’ blood pressure
risk of stroke and coronary heart disease increases considerably with blood pressures in excess of 140/90 (hypertensive)
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Hypertension causes generally unknown short term hypertension - because
of the contraction of smooth muscle in the walls of small arteries and arterioles
may be as a result of increase in the concentration of the hormone noradrenaline which stimulates the arterioles to contract
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Hypertension contraction increases the resistance
of the blood vessels and the heart works harder to force blood through the circulatory system
long term hypertension – imposes a strain on the cardiovascular system
can lead to heart failure when heart muscles weaken and are unable to pump properly
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Category Blood pressure (mmHg)
systolic diastolic
optimal < 120 < 80
normal < 130 < 85
high normal 130-140 85-90
hypertension > 140 > 90
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Hypertension
‘silent killer’ – no prior symptoms to give a warning of impending heart failure
90% of cases the exact cause of hypertension is unknown but linked to: excessive alcohol intake, smoking, obesity, too much salt in the diet, and genetic factors
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LungsLungs
Can you? Label the internal structures of the lungs State the features of the alveoli which
allow efficient gas exchange Explain the role of diffusion in gas
exchange State the features of the capillary
network that allow efficient gas exchange
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[PA] Using Figure 9.3 as your microscope view, make a labeled drawing of each slide; a, b, & c and provide a description of the structure of the walls of the trachea, bronchioles, and alveoli with their associated blood vessels. Why is there a folded membrane in c? [9]