Anissa Pelouto scite author profile

Background: Hyponatremia is the most common electrolyte disorder with a prevalence of up to 30% in hospitalized patients. In contrast to acute hyponatremia where the need for immediate treatment is well-recognized, chronic hyponatremia is often considered not clinically relevant. This is illustrated by reports showing that appropriate laboratory tests are ordered in <50% of patients and that up to 75% are still hyponatremic at discharge. At the same time, emerging evidence suggests an association between hyponatremia and adverse events including increased risk of mortality and rehospitalization.Methods: This is a randomized (1:1 ratio) controlled, superiority, parallel-group international multi-center trial with blinded outcome assessment. In total 2,278 participants will be enrolled. Participants will be randomly assigned to undergo either targeted correction of plasma sodium levels or standard of care during hospitalization. The primary outcome is the combined risk of death or re-hospitalization within 30 days.Discussion: All data on hyponatremia and mortality are derived from observational studies and often lack methodologic robustness. Consequently, the direct impact of hyponatremia on mortality and rehospitalization risk is still debated, resulting in a clinical equipoise whether in-hospital chronic hyponatremia should be treated or not. Therefore, a randomized controlled trial is required to study whether targeted plasma sodium correction reduces the risk of mortality and rehospitalization associated with hyponatremia.Clinical Trial Registration:www.ClinicalTrials.gov, identifier: NCT03557957.

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Serum sodium, cognition and incident dementia in the general population

Burgh

Pelouto

Mooldijk

et al. 2023

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Background Low serum sodium may be associated with cognitive impairment and dementia in the general population, but the data remain inconclusive. Therefore, we aimed to determine the association of low serum sodium with cognitive function and incident dementia in the general population. Methods Participants from a prospective population-based cohort were eligible if data on serum sodium (collected between 1997 and 2008), dementia prevalence and dementia incidence were available (follow-up until 2018). Global cognitive function was assessed with the Mini-Mental State Examination (MMSE) and the general cognitive factor (G-factor, derived from principal component analysis of individual tests). Linear regression and Cox proportional-hazards models were used to assess associations of standardised continuous and categorised low serum sodium (mean − 1.96*SD: cut-off of 137 mmol/L) with overall cognitive function and incident dementia, respectively. Results In all, 8,028 participants free of dementia at baseline (mean age 63.6 years, 57% female, serum sodium 142 ± 2 mmol/L), including 217 participants with low serum sodium, were included. Cross-sectionally, continuous serum sodium and/or low serum sodium were not associated with the MMSE or G-factor. However, participants with low serum sodium performed worse on the Stroop and Purdue Pegboard tests. During a median follow-up of 10.7 years, 758 subjects developed dementia. Continuous serum sodium (hazard ratio (HR) 0.98, 95% confidence interval (CI) 0.92;1.05) and low serum sodium (HR 1.27, 95% CI 0.90;1.79) were not associated with a higher risk of incident dementia. Conclusion We identified no significant associations of low serum sodium with overall cognitive functioning and risk of dementia. However, low serum sodium—including levels above the clinical cut-off for hyponatremia—was associated with impairments in selected cognitive domains including attention and psychomotor function.

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Overcorrection and undercorrection with fixed dosing of bolus hypertonic saline for symptomatic hyponatremia

Pelouto

Refardt

Zandbergen

et al. 2023

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Objective Current guidelines recommend treating symptomatic hyponatremia with rapid bolus-wise infusion of fixed volumes hypertonic saline regardless of body weight. We hypothesize that this approach is associated with overcorrection and undercorrection in patients with low and high body weight. Design Single-center, retrospective cohort study. Methods Data were collected on patients treated with ≥ 1 bolus 100 or 150 mL 3% NaCl for symptomatic hyponatremia between 2017–2021. Outcomes were overcorrection (plasma sodium rise >10 mmol/L/24 h, > 18 mmol/L/48 h or relowering therapy) and undercorrection (plasma sodium rise < 5 mmol/L/24 h). Low and high body weight were defined according to lowest (≤ 60 kg) and highest (≥ 80 kg) quartiles. Results Hypertonic saline was administered to 180 patients and caused plasma sodium to rise from 120 mmol/L to 126.4 mmol/L (24 h) and 130.4 mmol/L (48 h). Overcorrection occurred in 32 patients (18%) and was independently associated with lower body weight, weight ≤ 60 kg, lower baseline plasma sodium, volume depletion, hypokalemia and less boluses. In patients without rapidly reversible causes of hyponatremia, overcorrection still occurred more often in patients ≤ 60 kg. Undercorrection occurred in 52 patients (29%) and was not associated with body weight or weight ≥ 80 kg, but was associated with weight ≥ 100 kg and lean body weight in patients with obesity. Conclusion Our real-world data suggest that fixed dosing of bolus hypertonic saline may expose patients with low and high body weight to more overcorrection and undercorrection, respectively. Prospective studies are needed to develop and validate individualized dosing models.

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Anissa Pelouto

Hyponatremia Intervention Trial (HIT): Study Protocol of a Randomized, Controlled, Parallel-Group Trial With Blinded Outcome Assessment

Serum sodium, cognition and incident dementia in the general population

Overcorrection and undercorrection with fixed dosing of bolus hypertonic saline for symptomatic hyponatremia

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