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Am J Physiol Renal Physiol. 2007 Aug;293(2):F521-5. Epub 2007 May 23.

Dietary sodium chloride intake independently predicts the degree of hyperchloremic metabolic acidosis in healthy humans consuming a net acid-producing diet.

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Dept. of Medicine and General Clinical Research Center, University of California, San Francisco, CA 94143, USA.


We previously demonstrated that typical American net acid-producing diets predict a low-grade metabolic acidosis of severity proportional to the diet net acid load as indexed by the steady-state renal net acid excretion rate (NAE). We now investigate whether a sodium (Na) chloride (Cl) containing diet likewise associates with a low-grade metabolic acidosis of severity proportional to the sodium chloride content of the diet as indexed by the steady-state Na and Cl excretion rates. In the steady-state preintervention periods of our previously reported studies comprising 77 healthy subjects, we averaged in each subject three to six values of blood hydrogen ion concentration ([H]b), plasma bicarbonate concentration ([HCO(3)(-)]p), the partial pressure of carbon dioxide (Pco(2)), the urinary excretion rates of Na, Cl, NAE, and renal function as measured by creatinine clearance (CrCl), and performed multivariate analyses. Dietary Cl strongly correlated positively with dietary Na (P < 0.001) and was an independent negative predictor of [HCO(3)(-)]p after adjustment for diet net acid load, Pco(2) and CrCl, and positive and negative predictors, respectively, of [H]b and [HCO(3)(-)]p after adjustment for diet acid load and Pco(2). These data provide the first evidence that, in healthy humans, the diet loads of NaCl and net acid independently predict systemic acid-base status, with increasing degrees of low-grade hyperchloremic metabolic acidosis as the loads increase. Assuming a causal relationship, over their respective ranges of variation, NaCl has approximately 50-100% of the acidosis-producing effect of the diet net acid load.

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