This study uses magnetic resonance imaging to determine whether 3 weeks of repeated exposure to Acute Intermittent Hypoxia can improve brain blood flow or blood flow regulation in healthy adults.
This study aims to identify an intervention to improve the function of blood vessels in the human brain, in order to mitigate damage to overall brain function and improve health outcomes across the lifespan. Hypoxia is a potent driver of angiogenesis and vascular plasticity, and acute intermittent hypoxia (AIH) protocols, in which an individual alternates between breathing mildly hypoxic air and normal air, are being rigorously examined for their potential in improving human physiology. This study tests whether AIH evokes beneficial vascular plasticity in the human brain, using a randomized crossover design to determine the impact of different daily AIH or sham interventions on MRI measures of cerebrovascular physiology. Healthy, able-bodied participants between 21 and 50 years old will be invited to participate in this study. The daily AIH intervention consists of repeated visits to the PI laboratory over a three-week period to have an AIH or sham protocol administered via a hypoxia generator and face mask (Hyp-123, Hypoxico). Blood pressure readings will be taken before and after all intervention visits, and SpO2 levels continuously recorded for safety monitoring. The effectiveness of the different interventions at improving cerebrovascular function will be assessed using MRI. In the week prior to each intervention period the participant will undergo MRI scanning. In addition to structural and diffusion weighted scans, multiple perfusion metrics will be extracted. Whole-brain cerebral blood flow will be measured using phase-contrast MRI, and quantitative CBF maps of regional perfusion will be measured using arterial spin labeling MRI. These perfusion metrics will be acquired three times: during normoxic (baseline), hypoxic, and hypercapnic conditions. Changes in perfusion values during gas challenges will measure whole-brain and regional cerebrovascular reactivity. The MRI protocol will be repeated one day after the last intervention visit.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
SINGLE
Enrollment
33
Participants will wear a non-rebreathing face mask and alternate between breathing 9% O2 gas mixture for up to 1 minute, or until the target SpO2 of 85 percent is reached, and normal room air (21 percent O2) until 2 minutes are complete. This cycle will be repeated 15 times, resulting in a 30-minute protocol.
Participants will wear a non-rebreathing face mask and breathe normal air (21 percent O2) for 30-minutes.
Northwestern University
Chicago, Illinois, United States
Resting cerebral blood flow
Phase-contrast MRI and Arterial Spin Labeling MRI will be used to quantify whole-brain and cortical gray matter perfusion (ml/100g/min) before and after the 3-week intervention.
Time frame: 4 weeks
Cerebrovascular reactivity
Phase-contrast MRI and Arterial Spin Labeling MRI will be used to quantify the change in perfusion caused by a vasodilatory gas challenge (inhaled hypoxia or hypercapnia), before and after the 3-week intervention.
Time frame: 4 weeks
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