Evaluation of Electrolyte Imbalance on Intensive Care Unit Admission and Its Effect on Prognosis

Erbil Türksal; Esra Özayar; Adem Selvi; Merve Karaşahin; Esra Onhan Tekoğlu; Ali Koç

doi:10.4274/tybd.galenos.2023.62681

Original Research

Turk J Intensive Care 2024; 22(2): 95-100.

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Evaluation of Electrolyte Imbalance on Intensive Care Unit Admission and Its Effect on Prognosis

Authors

Erbil Türksal

Esra Özayar

Adem Selvi

Merve Karaşahin

Esra Onhan Tekoğlu

Ali Koç

Affiliations

Turk J Intensive Care 2024; 22(2): 95-100. DOI: 10.4274/tybd.galenos.2023.62681

Published: May 31, 2023

Abstract

Objective:

Electrolyte imbalance is an important factor that is frequently observed in the ICU and affects prognosis. We analyzed the type of electrolyte imbalance on ICU admissions and its relation to prognosis, mechanical ventilation day, ICU and hospital stay, and mortality.

Materials and Methods:

The electrolyte values of 826 patients admitted to the ICU were analyzed. Demographic data, the type of electrolyte imbalance, mechanical ventilation day, length of stay in the ICU and hospital, APACHE-II scores, and mortality status were recorded.

Results:

A total of 826 patients were included. Of the patients, 252(30.5%) had dysnatremia, 193 (23%) had dyskalemia, 432 (52%) had dyscalcemia, 389 (47%) had dysmagnesaemia, and 625 (75%) had dysphosphatemia. APACHE-II score, mechanical ventilation day, and length of stay in ICU and hospital were significantly higher in hypernatremia than in normonatremia and hyponatremia. In hypokalemia, the length of stay in the ICU and mechanical ventilation day was significantly higher than in normokalemia. The mortality rate was 1.7 and 4.4 times higher in hyponatremia and hypernatremia, respectively, than in normonatremia. Mortality was 1.8 times higher in hypokalemia and 2.2 times higher in hyperkalemia than in normokalemia. Mortality was 11 times higher in hypercalcemia than in normocalcemia.

Conclusion:

Electrolyte imbalance is frequently observed among ICU patients. In particular, in patients with dysnatremia and dyskalemia, the prognosis is worse.

Keywords: Water-electrolyte imbalance, critical illness, prognosis

References

Wang Y, Hu J, Geng X, Zhang X, Xu X, Lin J, et al. A novel scoring system for assessing the severity of electrolyte and acid-base disorders and predicting outcomes in hospitalized patients. J Investig Med 2019;67:750-60.
Lee JW. Fluid and electrolyte disturbances in critically ill patients. Electrolyte Blood Press 2010;8:72-81.
Naseem F, Saleem A, Mahar IA, Arif F. Electrolyte imbalance in critically ill paediatric patients. Pak J Med Sci 2019;35:1093-8.
Rukesh CC, Shalini B. Correlation Between Serum Electrolytes And Clinical Outcome in Children Admitted To PICU. J Dent Med Sci. 2017;16:24-7.
Panda I, Save S. Study of association of mortality with electrolyte abnormalities in children admitted in pediatric intensive care unit. Int J Contemp Pediatr 2018;5:1097-103.
Balcı AK, Koksal O, Kose A, Armagan E, Ozdemir F, Inal T, et al. General characteristics of patients with electrolyte imbalance admitted to emergency department. World J Emerg Med 2013;4:113-6.
Tazmini K, Nymo SH, Louch WE, Ranhoff AH, Øie E. Electrolyte imbalances in an unselected population in an emergency department: A retrospective cohort study. PLoS One 2019;14:e0215673.
Sedlacek M, Schoolwerth AC, Remillard BD. Electrolyte disturbances in the intensive care unit. Semin Dial 2006;19:496-501.
Mestrom EHJ, van der Stam JA, Te Pas ME, van der Hoeven JG, van Riel NAW, Bindels AJGH, et al. Increased sodium intake and decreased sodium excretion in ICU-acquired hypernatremia: A prospective cohort study. J Crit Care 2021;63:68-75.
Corona G, Giuliani C, Parenti G, Colombo GL, Sforza A, Maggi M, et al. The Economic Burden of Hyponatremia: Systematic Review and Meta-Analysis. Am J Med 2016;129:823-35.
Lindner G, Felber R, Schwarz C, Marti G, Leichtle AB, Fiedler GM, et al. Hypercalcemia in the ED: prevalence, etiology, and outcome. Am J Emerg Med 2013;31:657-60.
Conway R, Creagh D, Byrne DG, O'Riordan D, Silke B. Serum potassium levels as an outcome determinant in acute medical admissions. Clin Med (Lond) 2015;15:239-43.
Yoo KD, Kang S, Choi Y, Yang SH, Heo NJ, Chin HJ, et al. Sex, Age, and the Association of Serum Phosphorus With All-Cause Mortality in Adults With Normal Kidney Function. Am J Kidney Dis. 2016;67:79-88.

Copyright and license

Copyright © 2023 The Author(s). This is an open access article distributed under the Creative Commons Attribution License (CC BY), which permits unrestricted use, distribution, and reproduction in any medium or format, provided the original work is properly cited.

How to cite?

Türksal E, Özayar E, Selvi A, Karaşahin M, Onhan Tekoğlu E, Koç A. Evaluation of Electrolyte Imbalance on Intensive Care Unit Admission and Its Effect on Prognosis. Turk J Intensive Care. 2023;22(2):95-100. https://doi.org/10.4274/tybd.galenos.2023.62681

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[ref1] Wang Y, Hu J, Geng X, Zhang X, Xu X, Lin J, et al. A novel scoring system for assessing the severity of electrolyte and acid-base disorders and predicting outcomes in hospitalized patients. J Investig Med 2019;67:750-60.

[ref2] Lee JW. Fluid and electrolyte disturbances in critically ill patients. Electrolyte Blood Press 2010;8:72-81.

[ref3] Naseem F, Saleem A, Mahar IA, Arif F. Electrolyte imbalance in critically ill paediatric patients. Pak J Med Sci 2019;35:1093-8.

[ref4] Rukesh CC, Shalini B. Correlation Between Serum Electrolytes And Clinical Outcome in Children Admitted To PICU. J Dent Med Sci. 2017;16:24-7.

[ref5] Panda I, Save S. Study of association of mortality with electrolyte abnormalities in children admitted in pediatric intensive care unit. Int J Contemp Pediatr 2018;5:1097-103.

[ref6] Balcı AK, Koksal O, Kose A, Armagan E, Ozdemir F, Inal T, et al. General characteristics of patients with electrolyte imbalance admitted to emergency department. World J Emerg Med 2013;4:113-6.

[ref7] Tazmini K, Nymo SH, Louch WE, Ranhoff AH, Øie E. Electrolyte imbalances in an unselected population in an emergency department: A retrospective cohort study. PLoS One 2019;14:e0215673.

[ref8] Sedlacek M, Schoolwerth AC, Remillard BD. Electrolyte disturbances in the intensive care unit. Semin Dial 2006;19:496-501.

[ref9] Mestrom EHJ, van der Stam JA, Te Pas ME, van der Hoeven JG, van Riel NAW, Bindels AJGH, et al. Increased sodium intake and decreased sodium excretion in ICU-acquired hypernatremia: A prospective cohort study. J Crit Care 2021;63:68-75.

[ref10] Corona G, Giuliani C, Parenti G, Colombo GL, Sforza A, Maggi M, et al. The Economic Burden of Hyponatremia: Systematic Review and Meta-Analysis. Am J Med 2016;129:823-35.

[ref11] Lindner G, Felber R, Schwarz C, Marti G, Leichtle AB, Fiedler GM, et al. Hypercalcemia in the ED: prevalence, etiology, and outcome. Am J Emerg Med 2013;31:657-60.

[ref12] Conway R, Creagh D, Byrne DG, O'Riordan D, Silke B. Serum potassium levels as an outcome determinant in acute medical admissions. Clin Med (Lond) 2015;15:239-43.

[ref13] Yoo KD, Kang S, Choi Y, Yang SH, Heo NJ, Chin HJ, et al. Sex, Age, and the Association of Serum Phosphorus With All-Cause Mortality in Adults With Normal Kidney Function. Am J Kidney Dis. 2016;67:79-88.

Turkish Journal of Intensive Care

Evaluation of Electrolyte Imbalance on Intensive Care Unit Admission and Its Effect on Prognosis

Authors

Abstract

References

Copyright and license

How to cite?