VENTILATION
MECHANISM
Presenters
1; YOHANA N RAPHAEL
2; SARAH IRUNGU
3;ALFRED
Breathing
The processes of inspiration (breathing in) and
expiration (breathing out) are vital for providing
oxygen to tissues and removing carbon dioxide from
the body.
Inspiration occurs via active contraction of muscles
,such as the diaphragm – whereas expiration tends to
be passive, unless it is forced.
Ventilation
• The ventilation – the process of inspiration and
expiration, how this differs between quiet and
forced breathing, and their clinical correlations.
The Lungs and Breathing
• The space between the outer surface of the lungs
and inner thoracic wall is known as the pleural
space.
• This is usually filled with pleural fluid, forming a
seal which holds the lungs against the thoracic wall
by the force of surface tension.
• This seal ensures that when the thoracic cavity
expands or reduces, the lungs undergo expansion or
reduction in size accordingly.
Cont..
• During breathing, the contraction and relaxation of
muscles acts to change the volume of the thoracic
cavity.
• As the thoracic cavity and lungs move together, this
changes the volume of the lungs, in turn changing
the pressure inside the lungs.
Cont..
• Boyle’s law, states that the volume of gas is
inversely proportional to pressure (when
temperature is constant).
Therefore:
• When the volume of the thoracic cavity increases –
the volume of the lungs increases and the pressure
within the lungs decreases.
• When the volume of the thoracic cavity decreases –
the volume of the lungs decreases and the pressure
within the lungs increases.
Demonstration of Boyles law
Process of Inspiration
Inspiration is the phase of ventilation in which air
enters the lungs.
• It is initiated by contraction of the inspiratory
muscles:
• Diaphragm – flattens, extending the
superior/inferior dimension of the thoracic cavity.
Cont…
• External intercostal muscles – elevates the ribs
and sternum, extending the anterior/posterior
dimension of the thoracic cavity.
Cont…
• The action of the inspiratory muscles results in an
increase in the volume of the thoracic cavity.
• As the lungs are held against the inner thoracic wall
by the pleural seal, they also undergo an increase in
volume.
Cont..
• As per Boyle’s law, an increase in lung volume
results in a decrease in the pressure within the
lungs.
• The pressure of the environment external to the
lungs is now greater than the environment within
the lungs, meaning air moves into the lungs down
the pressure gradient.
Process of Passive Expiration
• Expiration is the phase of ventilation in which air
is expelled from the lungs. It is initiated by
relaxation of the inspiratory muscles:
• Diaphragm – relaxes to return to its resting
position, reducing the superior/inferior dimension of
the thoracic cavity.
Cont…
• External intercostal muscles – relax to depress the
ribs and sternum, reducing the anterior/posterior
dimension of the thoracic cavity.
• The relaxation of the inspiratory muscles results in a
decrease in the volume of the thoracic cavity.
• The elastic recoil of the previously expanded lung
tissue allows them to return to their original size.
Cont..
• The relaxation of the inspiratory muscles results in a
decrease in the volume of the thoracic cavity.
• The elastic recoil of the previously expanded lung
tissue allows them to return to their original size.
• As per Boyle’s law, a decrease in lung volume
results in an increase in the pressure within the
lungs.
• The pressure inside the lungs is now greater than in
the external environment, meaning air moves out of
the lungs down the pressure gradient.
Cont..
Forced Breathing
• Forced breathing is an active mode of breathing which
utilizes additional muscles to rapidly expand and
contract the thoracic cavity volume.
• It most commonly occurs during exercise.
Active Inspiration
• Active inspiration involves the contraction of the
accessory muscles of breathing (in addition to those of
quiet inspiration, the diaphragm and external
intercostals).
• All of these muscles act to increase the volume of the
thoracic cavity:
Cont..
All of these muscles act to increase the volume of the
thoracic cavity:
Scalenes – elevates the upper ribs.
Sternocleidomastoid – elevates the sternum.
Pectoralis major and minor – pulls ribs outwards.
Serratus anterior – elevates the ribs (when the
scapulae are fixed).
Latissimus dorsi – elevates the lower ribs.
Active Expiration
• Active expiration utilizes the contraction of several
thoracic and abdominal muscles.
• These muscles act to decrease the volume of the
thoracic cavity:
• Anterolateral abdominal wall – increases the
intra-abdominal pressure, pushing the diaphragm
further upwards into the thoracic cavity.
• Internal intercostal – depresses the ribs.
• Innermost intercostal – depresses the ribs.

BREATHING MECHANISM IN RESPIRATORY PHYSIOLOGY

  • 1.
    VENTILATION MECHANISM Presenters 1; YOHANA NRAPHAEL 2; SARAH IRUNGU 3;ALFRED
  • 2.
    Breathing The processes ofinspiration (breathing in) and expiration (breathing out) are vital for providing oxygen to tissues and removing carbon dioxide from the body. Inspiration occurs via active contraction of muscles ,such as the diaphragm – whereas expiration tends to be passive, unless it is forced.
  • 3.
    Ventilation • The ventilation– the process of inspiration and expiration, how this differs between quiet and forced breathing, and their clinical correlations.
  • 4.
    The Lungs andBreathing • The space between the outer surface of the lungs and inner thoracic wall is known as the pleural space. • This is usually filled with pleural fluid, forming a seal which holds the lungs against the thoracic wall by the force of surface tension. • This seal ensures that when the thoracic cavity expands or reduces, the lungs undergo expansion or reduction in size accordingly.
  • 5.
    Cont.. • During breathing,the contraction and relaxation of muscles acts to change the volume of the thoracic cavity. • As the thoracic cavity and lungs move together, this changes the volume of the lungs, in turn changing the pressure inside the lungs.
  • 6.
    Cont.. • Boyle’s law,states that the volume of gas is inversely proportional to pressure (when temperature is constant). Therefore: • When the volume of the thoracic cavity increases – the volume of the lungs increases and the pressure within the lungs decreases. • When the volume of the thoracic cavity decreases – the volume of the lungs decreases and the pressure within the lungs increases.
  • 7.
  • 8.
    Process of Inspiration Inspirationis the phase of ventilation in which air enters the lungs. • It is initiated by contraction of the inspiratory muscles: • Diaphragm – flattens, extending the superior/inferior dimension of the thoracic cavity.
  • 9.
    Cont… • External intercostalmuscles – elevates the ribs and sternum, extending the anterior/posterior dimension of the thoracic cavity.
  • 10.
    Cont… • The actionof the inspiratory muscles results in an increase in the volume of the thoracic cavity. • As the lungs are held against the inner thoracic wall by the pleural seal, they also undergo an increase in volume.
  • 11.
    Cont.. • As perBoyle’s law, an increase in lung volume results in a decrease in the pressure within the lungs. • The pressure of the environment external to the lungs is now greater than the environment within the lungs, meaning air moves into the lungs down the pressure gradient.
  • 12.
    Process of PassiveExpiration • Expiration is the phase of ventilation in which air is expelled from the lungs. It is initiated by relaxation of the inspiratory muscles: • Diaphragm – relaxes to return to its resting position, reducing the superior/inferior dimension of the thoracic cavity.
  • 13.
    Cont… • External intercostalmuscles – relax to depress the ribs and sternum, reducing the anterior/posterior dimension of the thoracic cavity. • The relaxation of the inspiratory muscles results in a decrease in the volume of the thoracic cavity. • The elastic recoil of the previously expanded lung tissue allows them to return to their original size.
  • 14.
    Cont.. • The relaxationof the inspiratory muscles results in a decrease in the volume of the thoracic cavity. • The elastic recoil of the previously expanded lung tissue allows them to return to their original size. • As per Boyle’s law, a decrease in lung volume results in an increase in the pressure within the lungs. • The pressure inside the lungs is now greater than in the external environment, meaning air moves out of the lungs down the pressure gradient.
  • 15.
    Cont.. Forced Breathing • Forcedbreathing is an active mode of breathing which utilizes additional muscles to rapidly expand and contract the thoracic cavity volume. • It most commonly occurs during exercise. Active Inspiration • Active inspiration involves the contraction of the accessory muscles of breathing (in addition to those of quiet inspiration, the diaphragm and external intercostals). • All of these muscles act to increase the volume of the thoracic cavity:
  • 16.
    Cont.. All of thesemuscles act to increase the volume of the thoracic cavity: Scalenes – elevates the upper ribs. Sternocleidomastoid – elevates the sternum. Pectoralis major and minor – pulls ribs outwards. Serratus anterior – elevates the ribs (when the scapulae are fixed). Latissimus dorsi – elevates the lower ribs.
  • 17.
    Active Expiration • Activeexpiration utilizes the contraction of several thoracic and abdominal muscles. • These muscles act to decrease the volume of the thoracic cavity: • Anterolateral abdominal wall – increases the intra-abdominal pressure, pushing the diaphragm further upwards into the thoracic cavity. • Internal intercostal – depresses the ribs. • Innermost intercostal – depresses the ribs.