Water and electrolyte homeostasis during decongestion in heart failure

doi:10.1002/ejhf.3727

Review

. 2025 Jun 18.

doi: 10.1002/ejhf.3727. Online ahead of print.

Water and electrolyte homeostasis during decongestion in heart failure

Jef Van den Eynde¹, Frederik H Verbrugge^{2

3}

Affiliations

¹ Department of Cardiovascular Sciences, KU Leuven, Leuven, Belgium.
² Centre for Cardiovascular Diseases, University Hospital Brussels, Jette, Belgium.
³ Faculty of Medicine and Pharmacy, Vrije Universiteit Brussel, Brussels, Belgium.

PMID: 40530753
DOI: 10.1002/ejhf.3727

Review

Water and electrolyte homeostasis during decongestion in heart failure

Jef Van den Eynde et al. Eur J Heart Fail. 2025.

. 2025 Jun 18.

doi: 10.1002/ejhf.3727. Online ahead of print.

Authors

Jef Van den Eynde¹, Frederik H Verbrugge^{2

3}

Affiliations

¹ Department of Cardiovascular Sciences, KU Leuven, Leuven, Belgium.
² Centre for Cardiovascular Diseases, University Hospital Brussels, Jette, Belgium.
³ Faculty of Medicine and Pharmacy, Vrije Universiteit Brussel, Brussels, Belgium.

PMID: 40530753
DOI: 10.1002/ejhf.3727

Abstract

In heart failure, sodium retention generally occurs out of proportion to water retention and may occur disproportionate to chloride retention, requiring excretion of other cations (i.e. potassium, magnesium, and hydrogen). Renal homeostatic mechanisms keep chloride levels in balance, making it the primary regulator of intravascular tonicity. Excess total body sodium stores and potassium depletion increase the vulnerability to dehydration, especially in the intracellular compartment. With decompensation, extracellular volume expansion with sodium and chloride overload occurs, further enhancing potassium losses. While diuretics are vital to treat fluid overload, they derange important electrolyte and water balances. Diuretic therapies in heart failure produce disproportionate electrolyte-free water excretion, further exacerbate potassium depletion, and cause chloride losses disproportionate to natriuresis. This can be mitigated by allowing liberal electrolyte-free water intake, providing aggressive potassium and chloride supplementation, and using upfront proximal diuretics to preserve the chloride balance.

Keywords: Chloride; Diuretics; Heart failure; Homeostasis; Potassium; Sodium.

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References

1. Verbrugge FH, Dupont M, Steels P, Grieten L, Malbrain M, Tang WHW, et al. Abdominal contributions to cardiorenal dysfunction in congestive heart failure. J Am Coll Cardiol 2013;62:485–495. https://doi.org/10.1016/j.jacc.2013.04.070
1. Verbrugge FH, Guazzi M, Testani JM, Borlaug BA. Altered hemodynamics and end‐organ damage in heart failure: Impact on the lung and kidney. Circulation 2020;142:998–1012. https://doi.org/10.1161/CIRCULATIONAHA.119.045409
1. Wilcox CS, Mitch WE, Kelly RA, Skorecki K, Meyer TW, Friedman PA, et al. Response of the kidney to furosemide. I. Effects of salt intake and renal compensation. J Lab Clin Med 1983;102:450–458.
1. Van den Eynde J, Verbrugge FH. Renal sodium avidity in heart failure. Cardiorenal Med 2024;14:270–280. https://doi.org/10.1159/000538601
1. Grodin JL, Simon J, Hachamovitch R, Wu Y, Jackson G, Halkar M, et al. Prognostic role of serum chloride levels in acute decompensated heart failure. J Am Coll Cardiol 2015;66:659–666. https://doi.org/10.1016/j.jacc.2015.06.007

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[1] Verbrugge FH, Dupont M, Steels P, Grieten L, Malbrain M, Tang WHW, et al. Abdominal contributions to cardiorenal dysfunction in congestive heart failure. J Am Coll Cardiol 2013;62:485–495. https://doi.org/10.1016/j.jacc.2013.04.070

[2] Verbrugge FH, Dupont M, Steels P, Grieten L, Malbrain M, Tang WHW, et al. Abdominal contributions to cardiorenal dysfunction in congestive heart failure. J Am Coll Cardiol 2013;62:485–495. https://doi.org/10.1016/j.jacc.2013.04.070

[3] Verbrugge FH, Guazzi M, Testani JM, Borlaug BA. Altered hemodynamics and end‐organ damage in heart failure: Impact on the lung and kidney. Circulation 2020;142:998–1012. https://doi.org/10.1161/CIRCULATIONAHA.119.045409

[4] Verbrugge FH, Guazzi M, Testani JM, Borlaug BA. Altered hemodynamics and end‐organ damage in heart failure: Impact on the lung and kidney. Circulation 2020;142:998–1012. https://doi.org/10.1161/CIRCULATIONAHA.119.045409

[5] Wilcox CS, Mitch WE, Kelly RA, Skorecki K, Meyer TW, Friedman PA, et al. Response of the kidney to furosemide. I. Effects of salt intake and renal compensation. J Lab Clin Med 1983;102:450–458.

[6] Wilcox CS, Mitch WE, Kelly RA, Skorecki K, Meyer TW, Friedman PA, et al. Response of the kidney to furosemide. I. Effects of salt intake and renal compensation. J Lab Clin Med 1983;102:450–458.

[7] Van den Eynde J, Verbrugge FH. Renal sodium avidity in heart failure. Cardiorenal Med 2024;14:270–280. https://doi.org/10.1159/000538601

[8] Van den Eynde J, Verbrugge FH. Renal sodium avidity in heart failure. Cardiorenal Med 2024;14:270–280. https://doi.org/10.1159/000538601

[9] Grodin JL, Simon J, Hachamovitch R, Wu Y, Jackson G, Halkar M, et al. Prognostic role of serum chloride levels in acute decompensated heart failure. J Am Coll Cardiol 2015;66:659–666. https://doi.org/10.1016/j.jacc.2015.06.007

[10] Grodin JL, Simon J, Hachamovitch R, Wu Y, Jackson G, Halkar M, et al. Prognostic role of serum chloride levels in acute decompensated heart failure. J Am Coll Cardiol 2015;66:659–666. https://doi.org/10.1016/j.jacc.2015.06.007

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Water and electrolyte homeostasis during decongestion in heart failure

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Water and electrolyte homeostasis during decongestion in heart failure

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