Ch5 Respiratory system

Airway anatomy (conducting → respiratory zone)

• trachea
• bronchus
• bronchioles
• terminal bronchioles
• respiratory bronchioles
• alveolar ducts
• alveolar sacs

Lung location and pleura

• the bottom of the lung is attached to the diaphragm
• the lungs lie in the chest cavity, which is separated into two

• pleural structure :

• visceral pleura

• intrapleural fluid
• parietal pleura outside of it

Ventilation mechanics

• inspiration: air in
• expiration: air out

Driven by:

• diaphragm (contracts)
• external intercostal muscles

Gas exchange pathway (high level)

• alveoli → lung capillaries → tissue capillaries → cells

Hemoglobin (Hb) and O\(_2\) binding

O\(_2\) binding curve

Cooperative binding

• Hb has four subunits
• binding of 1 unit of O\(_2\) makes binding of more O\(_2\) more likely (cooperativity)

What Hb can bind

• hemoglobin can bind to oxygen and CO\(_2\)

CO\(_2\) transport in blood

CO\(_2\) is transported:

• via Hb (~30%)
• as HCO\(_3^-\) (~60%)
• dissolved in fluids (~10%)

Carbonic anhydrase (CA)

• carbonic anhydrase facilitates:

• CO\(_2\) + H\(_2\)O → HCO\(_3^-\)

Anion exchanger 1 (AE1)

• AE1 transports 1 HCO\(_3^-\) while Cl\(^-\) moves in the opposite direction
• HCO\(_3^-\) leaves Hb near cells and enters near alveoli

O\(_2\) unloading and tissue metabolism

• Hb can remain bound from ~75% to ~10% with oxygen
• increased metabolism (increased CO\(_2\) content and/or H\(^+\)) in peripheral tissue increases O\(_2\) release by decreasing Hb affinity for O\(_2\)

Ventilatory control: negative feedback loops

Negative feedback loop 1 (peripheral H\(^+\))

• controlled variable: peripheral H\(^+\)
• sensor: chemoreceptor neurons
• controller: brainstem (medulla oblongata)
• actuating signal: motor neurons
• effectors: muscles controlling ventilation

Effect :

• increasing ventilation increases CO\(_2\) release and increases O\(_2\) brought in

Negative feedback loop 2 (central H\(^+\))

• controlled variable: central H\(^+\)
• sensor: chemoreceptor neurons
• controller: brainstem (medulla oblongata)
• actuating signal: motor neurons
• effectors: muscles controlling ventilation

Effect :

• increasing ventilation increases CO\(_2\) release and increases O\(_2\) brought in

Negative feedback loop 3 (peripheral O\(_2\))

• controlled variable: peripheral O\(_2\)
• sensor: chemoreceptor neurons
• controller: brainstem (medulla oblongata)
• actuating signal: motor neurons
• effectors: muscles controlling ventilation

Effect :

• increasing ventilation increases CO\(_2\) release and increases O\(_2\) brought in

Erythropoietin (EPO): long-term O\(_2\) regulation

• erythropoietin increases RBC level (long-term)

EPO control loop

• sensor: peritubular interstitial cells in kidney
• controller: peritubular interstitial cells in kidney
• actuating signal: EPO
• effector: RBC precursor cells in bone marrow
• controlled variable: \(P_{O_2}\) level in kidney interstitial space