Contraction alkalosis

Determination of toxicity is based on observation as there is no milligram per kilogram toxic dose established. Ingestion of amounts exceeding maximum daily doses has been tolerated in children. Overdose may result in diuresis with accompanying fluid and electrolyte loss, lethargy, and coma. Clinical effects seen, which are secondary to the fluid and electrolyte loss, include hypotension, tachycardia, contraction alkalosis, muscle weakness, headache, and dysrhythmias. 

Henle (e.g., furosemide, bumetanide, and torsemide) and distal convoluted tubule (thiazides), have most commonly been associated with the generation of metabolic alkalosis. These agents promote the excretion of sodium and potassium almost exclusively in association with chloride, without a proportionate increase in bicarbonate excretion. Collecting duct hydrogen ion secretion is stimulated directly by the increased luminal flow rate and sodium delivery, and indirectly by intravascular volume contraction, which results in secondary hyperaldosteronism. Renal ammoniagenesis may also be stimulated by concomitant hypokalemia, further augmenting net acid excretion. 

Hypokalemia is common in the patient with liver failure who has normal renal function. Poor nutritional intake and vomiting may initiate this disorder. Severe vomiting may lead to volume contraction metabolic alkalosis, with increased renal excretion of potassium. Secondary hyperaldosteronism, seen in the liver failure patient with intravascular depletion, also increases renal excretion of potassium. Loop diuretic therapy causes increased renal excretion of potassium, whereas diarrhea from lactulose therapy increases fecal excretion of potassium. All these conditions can lead to profound hypokalemia. Therefore, potassium requirements in the liver failure patient receiving specialized nutritional support often are increased substantially. 

These actions on electrolyte transport, in the kidney and in other tissues e.g., colon, salivary glands, and sweat glands), appear to account for the physiological and pharmacological activities that are characteristic of mineralocorticoids. Thus, the primary features of hyperaldosteronism are positive Na balance with consequent expansion of extracellular fluid volume, normal or slight increases in plasma Na+ concentration, hypokalemia, and alkalosis. Mineralocorticoid deficiency, in contrast, leads to Na+ wasting and contraction of the extracellular fluid volume, hyponatremia, hyperkalemia, and acidosis. Chronically, hyperaldosteronism can cause hypertension, whereas aldosterone deficiency can lead to hypotension and vascular collapse. 

Alkalosis causes overexcitability, resulting in excessive initiation of impulses, muscle contraction, and even convulsions. 

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