Control of Respiration

Neuronal control of respiration stems from the DRG and VRG nuclei in the medullary reticular formation, with imput from the pons. The cerebral cortex modifies breathing by conscious control.

 

Sensors

Central chemoreceptors in the medulla detect changes in pH, PaCO2, and PaO2.

Peripheral chemoreceptors in the carotid body are most sensitive to PaO2

Mechanoreceptors in the lung receptors respond to stretch. J receptors, located in the juxtacapillary regions of the lung periphery, respond to vascular engorgement. Irritant receptors respond to physical and chemical stimuli. Lung receptors signal via the vagus nerve.

 

 

Normally, PaCO2 is the main stimulus for breathing, acting on the central receptor and carotid and aortic chemoreceptors. Hockey stick curves demonstrate how small increases in PaCO2 can have a dramatic effect on ventilation at various PaO2.

PaO2 normally plays little role in the stimulus to breathe until it drops very low; the increase in ventilation becomes steep when PaO2 drops below 40 mm Hg.

 

During exercise, stretch receptors in joints become activated and induce the lungs to breathe.

 

Having COPD reduces the PaCO2= mediated stimulus to breathe, giving them the name carbond dioxide retainers. Administering oxygen can eliminate the drive to breathe, killing them.

 

The sympathetic nervous system controls size of airways, glands, blood vessels.