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Cortical Regions Associated With Autonomic Cardiovascular Regulation During Lower Body Negative Pressure In Humans., Derek S Kimmerly, Deborah D O'Leary, Ravi S Menon, Joseph S Gati, J Kevin Shoemaker
Cortical Regions Associated With Autonomic Cardiovascular Regulation During Lower Body Negative Pressure In Humans., Derek S Kimmerly, Deborah D O'Leary, Ravi S Menon, Joseph S Gati, J Kevin Shoemaker
Kinesiology Publications
The purpose of the present study was to determine the cortical structures involved with integrated baroreceptor-mediated modulation of autonomic cardiovascular function in conscious humans independent of changes in arterial blood pressure. We assessed the brain regions associated with lower body negative pressure (LBNP)-induced baroreflex control using functional magnetic resonance imaging with blood oxygen level-dependent (BOLD) contrast in eight healthy male volunteer subjects. The levels of LBNP administered were 5, 15 and 35 mmHg. Heart rate (HR; representing the cardiovascular response) and LBNP (representing the baroreceptor activation level) were simultaneously monitored during the scanning period. In addition, estimated central venous pressure …
Neonatal Brain: Regional Variability Of In Vivo Mr Imaging Relaxation Rates At 3.0 T-Initial Experience, L. A. Williams, N. Gelman, P. A. Picot, D. S. Lee, J. R. Ewing, V. K. Han, R. T. Thompson
Neonatal Brain: Regional Variability Of In Vivo Mr Imaging Relaxation Rates At 3.0 T-Initial Experience, L. A. Williams, N. Gelman, P. A. Picot, D. S. Lee, J. R. Ewing, V. K. Han, R. T. Thompson
Anatomy and Cell Biology Publications
PURPOSE: To retrospectively investigate regional in vivo magnetic resonance,(MR). imaging transverse and longitudinal relaxation rates at 3.0 T in neonatal brain, the p relationship between these rates, and their potential use for gray matter (G),versus-M white matter (WM) tissue discrimination. MATERIALS AND METHODS: I Informed parental consent for performance of imaging procedures was obtained in each infant. Informed consent for retrospective image analysis was not required; ethics approval was obtained from institutional review board. At 3.0 T, R1 and R2 were measured in brain regions (frontal WM, posterior WM, periventricular WM, frontal GM, posterior GM, basal ganglia, and thalamus) in …