2016
DOI: 10.1152/ajpheart.00254.2016
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Identification of human sympathetic neurovascular control using multivariate wavelet decomposition analysis

Abstract: The dynamic regulation of cerebral blood flow (CBF) is thought to involve myogenic and chemoreflex mechanisms, but the extent to which the sympathetic nervous system also plays a role remains debated. Here we sought to identify the role of human sympathetic neurovascular control by examining cerebral pressure-flow relations using linear transfer function analysis and multivariate wavelet decomposition analysis that explicitly accounts for the confounding effects of dynamic end-tidal Pco2 (PetCO2 ) fluctuations… Show more

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Cited by 22 publications
(57 citation statements)
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“…1. Implications of the findings from Saleem et al (16) showing direct influences of the sympathetic nervous system on the regulation of blood flow in the brain after disruption of descending sympatho-excitatory pathways. Injury to descending pathways that carry supraspinal signals responsible for mediating sympathetic tone would impair the capacity of the sympathetic nervous system to effectively regulate cerebrovasculature tone and may underlie why stroke risk is increased 3-to 4-fold in clinical conditions, such as spinal cord injury, when these pathways are disrupted.…”
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confidence: 98%
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“…1. Implications of the findings from Saleem et al (16) showing direct influences of the sympathetic nervous system on the regulation of blood flow in the brain after disruption of descending sympatho-excitatory pathways. Injury to descending pathways that carry supraspinal signals responsible for mediating sympathetic tone would impair the capacity of the sympathetic nervous system to effectively regulate cerebrovasculature tone and may underlie why stroke risk is increased 3-to 4-fold in clinical conditions, such as spinal cord injury, when these pathways are disrupted.…”
mentioning
confidence: 98%
“…In the current issue of the American Journal of PhysiologyHeart and Circulatory Physiology, Saleem et al (16) present results of a blinded randomized placebo-controlled trial designed to determine the effects of sympathetic blockade on cerebral autoregulatory dynamics at rest in healthy young individuals. The rationale was to understand 1) the role the SNS plays in CBF regulation at rest and 2) the relative impact of changes in partial pressure of arterial CO 2 in the relationship between perfusion pressure and CBF when examining the role of the SNS.…”
mentioning
confidence: 99%
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