The broad, long-term objective of this proposal is to investigate the osmotic regulation of sympathetic nervous system activity in humans. Sympathetic hyperactivity is observed in many disease states, including most forms of hypertension, yet the mechanisms responsible for this increase have not been clearly identified. While the baroreflex arc is an important mechanism controlling sympathetic outflow, evidence demonstrating that baroreceptors """"""""reset"""""""" and baroreceptor dennervation studies suggest that other factors are involved. Recent in vivo animal models suggest a role for plasma osmolality in controlling short- and long-term sympathetic activity; thus, prospective studies are needed to test this hypothesis in humans. The first specific aim of this proposal is to determine if changes in osmolality alter indices of sympathetic activity in healthy, normotensive humans. The hypothesis is that increases in plasma osmolality will lead to increases in muscle sympathetic nerve activity. The second specific aim is to determine if the osmotic control of sympathetic activity differs in those with essential hypertension. The hypothesis is that increases in plasma osmolality will lead to greater increases in sympathetic activity in hypertensive compared to normotensive adults. Protocol: Normotensive and hypertensive adults (men and women, minorities) will be randomly assigned to undergo 1) a 60-minute hypertonic saline (3 percent) infusion (designed to raise plasma osmolality approximately 5 percent) and 2) a volume / time control (0.9 percent saline) performed on another day (cross-over design). Sympathetic activity will be directly recorded via peroneal microneurography during the protocol. Ancillary measures of sympathetic outflow will also be assessed (plasma norepinephrine concentration and limb vascular resistance). Because direct sympathetic recordings will be performed, these data will provide firm evidence that either supports or refutes the hypothesis that plasma osmolality participates in the control of sympathetic outflow in humans. These data will also enhance our understanding of the pathophysiology of essential hypertension. Consistent with the goals of the AREA program, the findings from these initial studies will lead to future NIH proposals. For example, because inorganic salts - mainly sodium chloride - contribute importantly to osmolality and are consumed in large quantities, these data will provide the basis for investigating the mechanisms underlying """"""""salt sensitive hypertension"""""""", a problem that is especially common in subgroups of the population (e.g., black hypertensives and older adults).

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Academic Research Enhancement Awards (AREA) (R15)
Project #
1R15HL074851-01
Application #
6701137
Study Section
Special Emphasis Panel (ZRG1-CCVS (01))
Program Officer
Velletri, Paul A
Project Start
2004-02-23
Project End
2007-01-31
Budget Start
2004-02-23
Budget End
2007-01-31
Support Year
1
Fiscal Year
2004
Total Cost
$226,500
Indirect Cost
Name
University of Delaware
Department
Other Health Professions
Type
Schools of Allied Health Profes
DUNS #
059007500
City
Newark
State
DE
Country
United States
Zip Code
19716
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Wenner, Megan M; Edwards, David G; Ray, Chester A et al. (2011) Celecoxib does not alter cardiovascular and renal function during dietary salt loading. Clin Exp Pharmacol Physiol 38:543-9
Delaney, Erin P; Greaney, Jody L; Edwards, David G et al. (2010) Exaggerated sympathetic and pressor responses to handgrip exercise in older hypertensive humans: role of the muscle metaboreflex. Am J Physiol Heart Circ Physiol 299:H1318-27
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Farquhar, William B; Paul, Erin E; Prettyman, Allen V et al. (2005) Blood pressure and hemodynamic responses to an acute sodium load in humans. J Appl Physiol 99:1545-51