Title: | Food composition and acid-base balance: alimentary alkali depletion and acid load in herbivores |
Author(s): | Kiwull-Schone H; Kiwull P; Manz F; Kalhoff H; |
Address: | "Department of Physiology, Faculty of Medicine, Ruhr-University, 44780 Bochum, Germany. heidrun.kiwull-schoene@rub.de" |
ISSN/ISBN: | 1541-6100 (Electronic) 0022-3166 (Linking) |
Abstract: | "Alkali-enriched diets are recommended for humans to diminish the net acid load of their usual diet. In contrast, herbivores have to deal with a high dietary alkali impact on acid-base balance. Here we explore the role of nutritional alkali in experimentally induced chronic metabolic acidosis. Data were collected from healthy male adult rabbits kept in metabolism cages to obtain 24-h urine and arterial blood samples. Randomized groups consumed rabbit diets ad libitum, providing sufficient energy but variable alkali load. One subgroup (n = 10) received high-alkali food and approximately 15 mEq/kg ammonium chloride (NH4Cl) with its drinking water for 5 d. Another group (n = 14) was fed low-alkali food for 5 d and given approximately 4 mEq/kg NH4Cl daily for the last 2 d. The wide range of alimentary acid-base load was significantly reflected by renal base excretion, but normal acid-base conditions were maintained in the arterial blood. In rabbits fed a high-alkali diet, the excreted alkaline urine (pH(u) > 8.0) typically contained a large amount of precipitated carbonate, whereas in rabbits fed a low-alkali diet, both pH(u) and precipitate decreased considerably. During high-alkali feeding, application of NH4Cl likewise decreased pH(u), but arterial pH was still maintained with no indication of metabolic acidosis. During low-alkali feeding, a comparably small amount of added NH4Cl further lowered pH(u) and was accompanied by a significant systemic metabolic acidosis. We conclude that exhausted renal base-saving function by dietary alkali depletion is a prerequisite for growing susceptibility to NH4Cl-induced chronic metabolic acidosis in the herbivore rabbit" |
Keywords: | Acid-Base Equilibrium/*physiology Acidosis/chemically induced Acids/*metabolism Alkalies/*metabolism Ammonium Chloride/adverse effects Animal Nutritional Physiological Phenomena Animals Bicarbonates/metabolism Energy Intake *Food Gastrointestinal Tract/ph; |
Notes: | "MedlineKiwull-Schone, Heidrun Kiwull, Peter Manz, Friedrich Kalhoff, Hermann eng 2008/01/22 J Nutr. 2008 Feb; 138(2):431S-434S. doi: 10.1093/jn/138.2.431S" |