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Cardiovascular Pulsatility Increases in Visual Cortex Before Blood Oxygen Level Dependent Response During Stimulus

Niko Huotari, Johanna Tuunanen, Lauri Raitamaa, Ville Raatikainen, Janne Kananen, Heta Helakari, Timo Tuovinen, Matti Järvelä, Vesa Kiviniemi, Vesa Korhonen

2022Frontiers in Neuroscience14 citationsDOIOpen Access PDF

Abstract

The physiological pulsations that drive tissue fluid homeostasis are not well characterized during brain activation. Therefore, we used fast magnetic resonance encephalography (MREG) fMRI to measure full band (0–5 Hz) blood oxygen level-dependent (BOLD FB ) signals during a dynamic visual task in 23 subjects. This revealed brain activity in the very low frequency (BOLD VLF ) as well as in cardiac and respiratory bands. The cardiovascular hemodynamic envelope (CHe) signal correlated significantly with the visual BOLD VLF response, considered as an independent signal source in the V1-V2 visual cortices. The CHe preceded the canonical BOLD VLF response by an average of 1.3 (± 2.2) s. Physiologically, the observed CHe signal could mark increased regional cardiovascular pulsatility following vasodilation.

Topics & Concepts

Stimulus (psychology)Visual cortexNeuroscienceBlood-oxygen-level dependentMedicineCardiologyInternal medicineAnesthesiaPsychologyCognitive psychologyFunctional magnetic resonance imagingOptical Imaging and Spectroscopy TechniquesFunctional Brain Connectivity StudiesTraumatic Brain Injury and Neurovascular Disturbances