2015
DOI: 10.1152/ajpheart.00096.2015
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Should the sympathetic nervous system be a target to improve cardiometabolic risk in obesity?

Abstract: The sympathetic nervous system (SNS) plays a key role in both cardiovascular and metabolic regulation; hence, disturbances in SNS regulation are likely to impact on both cardiovascular and metabolic health. With excess adiposity, in particular when visceral fat accumulation is present, sympathetic activation commonly occurs. Experimental investigations have shown that adipose tissue releases a large number of adipokines, cytokines, and bioactive mediators capable of stimulating the SNS. Activation of the SNS a… Show more

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Cited by 92 publications
(67 citation statements)
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“…While certainly some of these effects are the result of the changes to endothelial function impacting the constrictor responses (29,42,43), there is previous evidence to support increases in adrenergic activity (6), receptor sensitivity (52), or downstream signaling gain (41) as potential contributors to increased constrictor responses in many of these models. While this would potentially reduce attractor variability further and would represent an additional, and possibly extremely robust, depressor of arteriolar function and flexibility in the control of tissue perfusion, it is unclear that a simple "increase in adrenergic constrictor reactivity" accurately represents the prevailing condition in conditions of elevated PVD risk that are associated with obesity and hypertension (28,30,37). If this was a widespread phenomenon, it would result in either enormous elevations in perfusion pressure or dramatic reductions in blood flow.…”
Section: H499mentioning
confidence: 99%
“…While certainly some of these effects are the result of the changes to endothelial function impacting the constrictor responses (29,42,43), there is previous evidence to support increases in adrenergic activity (6), receptor sensitivity (52), or downstream signaling gain (41) as potential contributors to increased constrictor responses in many of these models. While this would potentially reduce attractor variability further and would represent an additional, and possibly extremely robust, depressor of arteriolar function and flexibility in the control of tissue perfusion, it is unclear that a simple "increase in adrenergic constrictor reactivity" accurately represents the prevailing condition in conditions of elevated PVD risk that are associated with obesity and hypertension (28,30,37). If this was a widespread phenomenon, it would result in either enormous elevations in perfusion pressure or dramatic reductions in blood flow.…”
Section: H499mentioning
confidence: 99%
“…This artery was chosen for several reasons. 1) The superior mesenteric artery is in the viscera, and it is visceral fat that is associated with the greatest cardiovascular risk (21,46,47).…”
Section: This Research Is Noteworthy In That It Supports a New Mechamentioning
confidence: 99%
“…In the general population, obesity, in particular central obesity [144] , is associated with increased SNS activity, even in the absence of hypertension [145] contributing to left ventricular hypertrophy and cardiovascular dysfunction [146] . MSNA is at least 50% higher in obese than lean subjects, indicating SNS activation [144] .…”
Section: The Impact Of Obesity On Pcos Cardiometabolic Risk Factorsmentioning
confidence: 99%
“…MSNA is at least 50% higher in obese than lean subjects, indicating SNS activation [144] . Potential mediators of obesity-associated SNS stimulation include (1) adipokines [145,147] and (2) stimulation of pro-opiomelanocortin neurons, with subsequent activation of the melanocortin receptors in the central nervous system [148] . Chronic SNS activation may be associated with impaired catecholaminergic signalling in adipose tissue, resulting in reduced metabolism and increased IR [149] .…”
Section: The Impact Of Obesity On Pcos Cardiometabolic Risk Factorsmentioning
confidence: 99%