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Abstract

Hyponatremia is a complex process caused by dysregulation of total body sodium and total body water that can be seen in hypovolemic, euvolemic, and hypervolemic states. Rapid correction of hyponatremia can also lead to serious complications. The development of V2 antagonists, such as tolvaptan, has changed and simplified the management of dilutional hyponatremia by allowing the targeting of antidiuretic hormone (ADH) action and blocking its effect on the V2 receptor. This will decrease the synthesis and relocation of aquaporin 2 to the cortical collecting duct apical membrane. Tolvaptan is approved to be used in euvolemic and hypervolemic hyponatremia, specifically in the syndrome of inappropriate antidiuretic hormone secretion and heart failure. The SALT-1 and SALT-2 studies suggested a starting dose of 15 mg of tolvaptan based on pharmacokinetic data, and while this is an effective dose, multiple studies have shown that patients can overcorrect with this starting dose. At least 1 case of osmotic demyelination – the dreaded complication of overly rapid hyponatremia correction – has been observed with tolvaptan use. While strategies for rapid attenuation of this overcorrection exist, and are discussed, starting tolvaptan at a lower dose of 7.5 mg initially and up-titrating even within the first day is another strategy that can avoid overcorrection. This was noted to be especially important in cases of hyponatremia due to the syndrome of inappropriate ADH secretion. We note that this approach can more slowly correct the hyponatremia with less attendant neurological risks than the currently recommended minimum starting dose of tolvaptan.

Keywords

Aquaresis Elderly patient Free water clearance Hyponatremia Overcorrection SIADH

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Risk of Serum Sodium Overcorrection with V2 Antagonists in SIADH and Other High Risk Patients

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