Modeling of regional dynamic CO<inf>2</inf> reactivity in respiratory related brain areas using BOLD fMRI
Mitsis GD., Harvey AK., Dirckx S., Mayhew SD., Rogers R., Tracey I., Wise RG., Pattinson KTS.
The cerebrovascular bed is very sensitive to CO2 changes, particularly the areas responsible for generation and control of respiratory rhythm. We have used BOLD functional magnetic resonance imaging (fMRI) and externally induced CO2 challenges that stimulate respiration, to identify respiratory areas in-vivo in humans and to quantify the dynamic effects of CO2 on the BOLD fMRI signal (dynamic CO2 reactivity). We sought to identify regional differences in dynamic reactivity within the brainstem and other respiratory related areas (thalamus) by using linear impulse response (IR) and nonlinear Volterra models, as well as experimental measurements obtained during spontaneous breathing and larger externally induced step CO2 changes (end-tidal forcing). The results revealed areas in the brainstem and thalamus that responded strongly to the external CO 2 stimuli, which correspond to respiratory nuclei identified in recent rodent studies, as well as pronounced regional differences in CO 2 reactivity.