Pulmonary Ventilation Flashcards
Define residual volume
The volume of air remaining in the lungs after a maximum forced expiration
Define vital capacity
The total volume of air an individual is able to breath in going from a maximum forced expiration to a max forced inspiration
Define total lung capacity
The volume of air within the lungs at the end of maximum inspiration
Define inspiratory reserve volume
The additional volume of air that can be inspired at the end of a resting inspiration
Define tidal volume
The volume of air inspired/expired at rest during quiet/normal breathing pattern
Define expiratory reserve volume
The additional volume of air that can be expired at the end of a resting expiration
Define functional residual volume
The volume of air within the lungs at the end of a resting expiration
What is pulmonary ventilation
Pulmonary ventilation is the movement of air from the atmosphere to gas exchange surfaces within the lungs
What is the importance of pulmonary ventilation
- Required to maintain adequate oxygen supply and carbon dioxide removal from respiring tissues
- Maintains gradients of oxygen and carbon dioxide between alveolar air and arterial blood
- This enables sufficient level of gas exchange to take place ensuring adequate supply and waste removal to and from respiring tissues
What is ventilation dependent on
Ventilation depends on the volume (depth) and rate of breathing
State the equation for finding the minute volume (include definition of components)
Minute volume (total volume of air inhaled in all breaths over one minute) =
Vt (tidal volume (ml) - (volume of air inhaled in each breath) x f (frequency (min-1) - the number of breaths per minute)
V = Vt x f
Explain why the alveolar air is not the same as the air inspired
- The lungs contain a mixture of ‘fresh’ (air that has just entered the respiratory system) and ‘stale’ (residual air from the previous breath) air
- Gas exchange takes place in the alveoli but air must first pass through the airways ‘anatomic dead space’
- The respiratory system is a two way system - air enters and leaves via the same path and there is a residual volume of air that remains in the airways/lungs at the end of expiration
- This means that the final ‘dead space volume’ (around 150ml in an adult) of each inspiration never reaches the alveoli or takes part in gas exchange
State the equation for alveolar minute volume and include definitions of all included components
Alveolar minute volume (ml) (the total volume of fresh air entering alveoli across all breaths in one minute =
Va = (Vt - Vd) x f
Vt = tidal volume (ml)
Vd = dead space volume - the volume of air remaining in the respiratory system at the end of expiration
F = frequency (min-1)
Vt - Vd = the volume of fresh air entering the alveoli in each breath
State boyles law and how it is relevant to pulmonary ventilation
- Pressure is proportional to the number of molecules/the volume
- Hence, if the no of molecules stays constant as volume increases pressure will decrease
Describe the process of inspiration
- The diaphragm moves down and flattens
- The external intercostal muscles contract
- The thoracic volume increases which decreases the intrapleural pressure to become more negative and decreases pressure inside the lungs
- The negative pressure created means that the pleural membranes are pulled closer together aiding the expansion of the lungs - the intrapleural pressure force must be greater than the force generated by the elastic recoil of the lung for expansion to occur
- When the pressure has decreased below the atmospheric pressure air moves down a pressure gradient and into the lungs
