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Acid consumption from poisoning such as methanol ingestion, elevated levels of iron in the blood, and chronically decreased production of bicarbonate may also produce metabolic acidosis. Metabolic acidosis is compensated for in the lungs, as increased exhalation of carbon dioxide promptly shifts the buffering equation to reduce metabolic acid.
3] is the concentration of bicarbonate in the blood [H 2 CO 3] is the concentration of carbonic acid in the blood; When describing arterial blood gas, the Henderson–Hasselbalch equation is usually quoted in terms of pCO 2, the partial pressure of carbon dioxide, rather than H 2 CO 3 concentration.
Aspartic acid: Amino acid 0-3 × 10 −6: In WBCs 2.5-4.0 × 10 −4: 9-12 × 10 −6: Bicarbonate: Buffer in blood 5-5.7 × 10 −4: Bile acids Digestive function, bilirubin excretion 2-30 × 10 −6: 3-30 × 10 −6: Bilirubin: Hemoglobin metabolite 2-14 × 10 −6: 1-10 × 10 −6: Biotin (Vitamin H) Gluconeogenesis, metabolize leucine ...
pK a H 2 CO 3 is the cologarithm of the acid dissociation constant of carbonic acid. It is equal to 6.1. [HCO − 3] is the molar concentration of bicarbonate in the blood plasma. [H 2 CO 3] is the molar concentration of carbonic acid in the extracellular fluid.
[H] is the concentration of hydrogen ions, denoted [H +] in modern chemistry. More correctly, the thermodynamic activity of H + in dilute solution should be replaced by [H +]/c 0, where the standard state concentration c 0 = 1 mol/L. This ratio is a pure number whose logarithm can be defined.
A rise of extracellular (e.g., serum) partial pressure of carbon dioxide (pCO 2) above 45 mmHg leads to formation of carbonic acid, which causes a decrease of pH i as it dissociates: [10] H 2 O + CO 2 ⇌ H 2 CO 3 ⇌ H + + HCO 3 – Since biological cells contain fluid that can act as a buffer, pH i can be maintained fairly well within a ...
3 (i.e., bicarbonate moves from urine back into the blood). [1] The regulation of H + ions and bicarbonate HCO − 3 is determined by the concentration of the two released within the urine. [1] These mechanisms of secretion and reabsorption balance the pH of the bloodstream. [1]
A quantity in square brackets, [X], represents the concentration of the chemical substance X. It is understood that the symbol H + stands for the hydrated hydronium ion. K a is an acid dissociation constant. The Henderson–Hasselbalch equation can be applied to a polybasic acid only if its consecutive pK values differ by at least 3.