Acid-Base Balance KNH 413.

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Presentation transcript:

Acid-Base Balance KNH 413

Acid-Base Balance Acids Donate or give up H+ ions Nonvolatile acids or fixed acids Inorganic acids that occur through metabolism of CHO, protein, lipid Average amount 50-100 mmol/day Proteins contribute the most Lungs cannot eliminate

Acid-Base Balance Bases Can accept or receive H+ ions Bicarbonate HCO3 Kidneys provide primary regulation

Acid-Base Balance pH Acidosis Acidemia Alkalosis Alkalemia Accumulation of acid or loss of base Acidemia pH < 7.35 Alkalosis Accumulation of base or loss of acid Alkalemia pH > 7.45

Regulation of Acid-Base Balance Chemical buffers Respiratory regulation Kidney regulation

Regulation of Acid-Base Balance Respiratory regulatory control Change in respiration rate Depth of breathing Release or retention of CO2

Regulation of Acid-Base Balance Renal regulatory control Control of HCO3 by the kidneys Increased or decreased based on need Formation of dibasic phosphate and sulfur in the urine Accepts H+

Regulation of Acid-Base Balance Electrolyte Balance Hydrogen and bicarbonate both electrolytes Other electrolytes affected to maintain electroneutrality Potassium, chloride, sodium

Acid-Base Disorders 4 major types Respiratory acidosis Respiratory alkalosis Metabolic acidosis Metabolic alkalosis

Acid-Base Disorders Respiratory acidosis Excess acid in blood secondary to carbon dioxide retention Hypercapnia Common causes d/t respiratory dysfunction – renal regulatory systems compensate

Acid-Base Disorders Respiratory acidosis Labs Hypoxemia Decreased pH, elevated pCO3 Slightly elevated bicarbonate Increase in serum Ca, K, Cl Hypoxemia Restlessness, apprehension, lethargy, muscle twitching, tremors, convulsions, coma

Acid-Base Disorders Respiratory acidosis Treatment Correct underlying condition Increase oxygenation Mechanical ventilation

Acid-Base Disorders Respiratory alkalosis Relative excess amount of base d/t reduction of CO2 Hyperventilation Common causes - see Table 9.6 Shift of acid from ICF to ECF Bicarbonate moved into cells in exchange for chloride – renal compensation

Acid-Base Disorders Respiratory alkalosis pH > 7.45 Plasma HCO3 low in chronic, PaCO3 low in acute Cardiac, CNS, respiratory symptoms Treat underlying cause Correction of hypoxia

Acid-Base Disorders Metabolic Acidosis All types not caused by excessive CO2 Common causes Diarrhea most common cause d/t excessive loss of bicarbonate – bicarbonate- carbonic acid buffer system is stimulated

© 2007 Thomson - Wadsworth

Acid-Base Disorders Metabolic Acidosis Kussmaul breathing Cardiac and neurological Treat underlying cause Raise pH to safe level – not too quickly

Acid-Base Disorders Metabolic Alkalosis Excess amount of base Fluid imbalance – with volume decrease Without fluid imbalance – without volume decrease Common causes Underlying event determines pathophysiology

Assessment of Acid-Base Disorders © 2007 Thomson - Wadsworth