4 Patients with acute hyponatremia, developing in the course of ≤12 hours, are more likely to develop symptoms including seizures and coma than those with
chronic hyponatremia (≥3 days).5 Optimal management of hyponatremia is still evolving despite awareness of this electrolyte disturbance since the mid 1900s.4, 5 Most authorities recommend correction of [Na+] in severely hyponatremic and symptomatic patients Inhibitors,research,lifescience,medical by 2 to 4 mEq/L within 2 to 4 hours, <12 mEq/L in 24 hours, and to <18 mEq/L in 48 hours.4, 5 Guidelines for infusion rates of hypertonic saline and monitoring procedures have been introduced, most notably the Adrogué-Madias formula.6 Caution in the use of these formulae has been recommended,7 especially Inhibitors,research,lifescience,medical given that they were designed for use in static conditions. Retrospective studies have found a risk of physicians underestimating the increase in [Na+] after hypertonic saline therapy, particularly
in the setting of extracellular volume depletion.8, 9 A common criticism of these formulae is that they fail to account for ongoing renal and extrarenal fluid and electrolyte losses. Whereas the formulae apply to static conditions, the dynamic nature of the patient’s Inhibitors,research,lifescience,medical hospital course, including intravenous drips and gastrointestinal losses, affects the accuracy of [Na+] replacement by Selleck BMN 673 standard calculated deficits. To this effect, more elaborate formulae have been developed7 that better allow the clinician to follow [Na+] levels at close time Inhibitors,research,lifescience,medical intervals to adjust medical management. Treatment guidelines published in 2007 evaluated the situations in which
vasopressin receptor antagonists should be considered as alternatives or supplements to standard therapies.4 Conivaptan is one of these alternative therapies.10, 11 Conivaptan is a nonselective V1AR/V2R vasopressin receptor antagonist available in IV form and approved by the FDA to treat euvolemic hyponatremia in 2005 and hypervolemic hyponatremia in 2007. There is a caveat to the use of conivaptan in hypervolemia: although vasopressin receptor antagonism Inhibitors,research,lifescience,medical could have potentially beneficial effects in congestive heart failure by decreasing afterload, attenuating coronary vasoconstriction, and potentially diminishing cardiac remodeling, DNA ligase current data do not support its use in this condition.11 On the contrary, the potential exists for increasing portal pressure, resulting in bleeding in the hyponatremia of cirrhosis related to increased splanchnic blood flow. Conivaptan leads to an increase in [Na+] by blocking V2 receptors, thus promoting water excretion while sparing electrolyte excretion.2 Although rapid correction of [Na+] with use of conivaptan has been documented,12 its use is still thought to be a more effective method to treat hyponatremia by virtue of its unique ability to increase solute-free water excretion by the kidneys.