Investigation of baroreflex autonomic control by spectral coherence of fMRI independent components and neck suction stimulation signal

Functional Magnetic Resonance Imaging (fMRI) has proved to be a powerful technique for the analysis of the central autonomic control on the cardiovascular system. The carotid stimulation represents a viable non-invasive tool to investigate the brain areas involved in the central autonomic control. In this paper a resting-state fMRI protocol has been carried out on normal subjects, during bilateral carotid stimulation by neck suction using a custom MRI-compliant device. Two suction levels (60 mmHg and 10 mmHg) were applied in two consecutive sessions, using rectangular pulses with a duration of 8 s spaced by 4 s. To detect the brain region involved in processing the carotid baroreceptor efferent signals, a combined approach of independent component analysis (ICA) and spectral coherence (SC) has been used: ICs have been estimated from fMRI data using the GIFT toolbox, the SC between each IC and the neck stimulation signal has been computed, and finally we have identified the stimulusrelated ICs on the basis of the spectral coherence at the frequency of interest. SC greater than 0.5 were observed in all but one subjects, during the neck suction at 60 mmHg. The SC significantly dropped during the stimulation at IO mmHg. Frequency analysis of the neck suction stimulation signal in conjunction with ICA of fMRI can identifY the brain structures involved in the central processing and integration of afferent signals from the carotid baroreceptors in healthy human subjects.