Brain correlates of autonomic modulation: Combining heart rate variability with fMRI
- Napadow, Vitaly
- Dhond, Rupali
- Conti, Giulia
- Makris, Nikos
- Brown, Emery N.
- Barbieri, Riccardo
DOIAbstract
The central autonomic network (CAN) has been described in animal models but has been difficult to elucidate in humans. Potential confounds include physiological noise artifacts affecting brainstem neuroimaging data, and difficulty in deriving non-invasive continuous assessments of autonomic modulation. We have developed and implemented a new method which relates cardiac-gated fMRI timeseries with continuous-time heart rate variability (HRV) to estimate central autonomic processing. As many autonomic structures of interest are in brain regions strongly affected by cardiogenic pulsatility, we chose to cardiac-gate our fMRI acquisition to increase sensitivity. Cardiac-gating introduces T1-variability, which was corrected by transforming fMRI d...
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