The development of hypertension is potentiated by synergistic interactions between high sodium intake and behavioral factors, but the mediating physiological mechanisms remain to be clarified. An animal model of hypertension suggests that sodium sensitivity may be influenced by a hypoventilatory breathing pattern evoked by aversive conditioning procedures. Previous studies with an ambulatory respiration monitor have shown that episodes of low frequency/normal tidal volume breathing can be observed in humans in the natural environment. Ongoing laboratory studies with human subjects are showing that the inhibitory breathing pattern is accompanied by increases in pCO2, decreases in pH, increases in renal sodium reabsorption, increases in urinary excretion of endogenous digitalis- like factors, decreases in sodium pump activity, and increases in blood pressure, but not heart rate. This physiological pattern provides an alternative to the sympathetic nervous system as a mechanism whereby behavioral factors may interact with high sodium intake to produce sustained hypertension in laboratory animals and humans. These studies may lead to nonpharmacological interventions for prevention and reversal of hypertension and associated disorders of aging.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Intramural Research (Z01)
Project #
1Z01AG000600-05
Application #
3767842
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
5
Fiscal Year
1993
Total Cost
Indirect Cost
Name
National Institute on Aging
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Anderson, David E; Parsons, Beverly A; McNeely, Jessica C et al. (2007) Salt sensitivity of blood pressure is accompanied by slow respiratory rate: results of a clinical feeding study. J Am Soc Hypertens 1:256-263
Scuteri, Angelo; Stuehlinger, Markus C; Cooke, John P et al. (2003) Nitric oxide inhibition as a mechanism for blood pressure increase during salt loading in normotensive postmenopausal women. J Hypertens 21:1339-46
Anderson, D E; Scuteri, A; Metter, E J et al. (2001) Association of high resting end tidal CO2 with carotid artery thickness in women, but not men. J Hypertens 19:459-63
Anderson, D E; Scuteri, A; Agalakova, N et al. (2001) Racial differences in resting end-tidal CO2 and circulating sodium pump inhibitor. Am J Hypertens 14:761-7
Anderson, D E; Parsons, D J; Scuteri, A (1999) End tidal CO2 is an independent determinant of systolic blood pressure in women. J Hypertens 17:1073-80