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Publication
Focus on: II – physiological principles of acid-base balance: an integrative perspective
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Authors
Advisor(s)
Abstract(s)
Normal human metabolism leads to the daily production of large amounts of volatile and non-volatile
acids. The maintenance of the pH within physiological limits is a demanding task in which several mechanisms
are involved. The most immediate answer comes from several physiological buffers that quickly neutralize
pH deviations caused by the addition of strong acids or bases to the body. Bicarbonate/carbonic acid is the
most important buffer pair of the extracellular milieu, but is chemically inefficient and depends on the continuous
activity of the lung and kidney. Other physiological buffers have higher efficacy and are very important
in the intracellular environment and renal tubules. The capacity of the various chemical buffers is kept by
operating in an open system and by several controlling mechanisms. The lung is responsible for the elimination
of the carbon dioxide (CO2) produced in the body. In metabolic disorders, respiratory adjustment of the
elimination of CO2 prolongs the effect of the bicarbonate/carbonic acid buffer, but this process consumes
bicarbonate. The kidney contributes to acid-base balance through several mechanisms: 1) controls the reabsorption
of filtered bicarbonate; 2) regenerates bicarbonate consumed in buffer reactions; 3) eliminates
non-volatile acids. Renal elimination of acid and bicarbonate regeneration is only possible due to the existence of several urinary buffers and to the ability of the kidneys to produce ammonia
Description
Keywords
Acid-base equilibrium
Citation
Port J Nephrol Hypert 2015; 29(2): 123-129
Publisher
Sociedade Portuguesa de Nefrologia