Prevention of hospital-acquired hypokalemia in children receiving maintenance fluid therapy

Objective: It has been suggested that the use of hypotonic intravenous fluid (IVF) puts hospitalized children at a greater risk of developing hyponatremia in children with increased arginine vasopressin (AVP) production. To reduce its risk, the National Patient Safety Agency in UK issued alert 22 in 2007, of which recommendations were to use isotonic solutions for these children at risk of hyponatremia, instead of the previously most commonly used IVF (0.18% saline/ 4% dextrose) for maintenance fluid therapy. Recent observations, however, revealed that hypokalemia are also common in hospitalized patients who do not receive potassium in their IVF. This study was conducted to validate the potassium added IVF for the prevention of hospital-acquired hypokalemia in maintenance fluid therapy. Design: For maintenance fluid therapy, a commercially available IVF solution in Japan named as Solita-T2R (Na 84 mmol/L, K 20 mmol/L, Cl 66 mmol/L, glucose 3.2%) was infused for 41 sick children with a median age of 3.01 years. Its composition is close equivalent to 0.45% saline/5% dextrose (Na 77 mmol/L, K 0 mmol/L, Cl 77 mmol/L, dextrose 5%) except K content. The patients in states of AVP excess were excluded from the analysis. Results: Median serum potassium value did not drop significantly at a median interval of 48 hours (before IVF: 4.30 mmol/L, after IVF: 4.10 mmol/L, p > 0.05), whereas median serum sodium level significantly increased from 136.0 mmol/L to 139.0 mmol/L (p < 0.001). Conclusion: Potassium added (20 mmol/L) IVF solution reduces the risk of developing “hospital-acquired hypokalemia” in children who are not in states of AVP excess in maintenance fluid therapy. It is worthwhile to study prospectively in a larger number of sick children.

[1]  F. Luft,et al.  Pathophysiology and management of hypokalemia: a clinical perspective , 2011, Nature Reviews Nephrology.

[2]  K. Kaneko Don't forget potassium! , 2010, European Journal of Pediatrics.

[3]  M. Moritz,et al.  New aspects in the pathogenesis, prevention, and treatment of hyponatremic encephalopathy in children , 2009, Pediatric Nephrology.

[4]  R. Zietse,et al.  Hypokalaemia and subsequent hyperkalaemia in hospitalized patients. , 2007, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[5]  M. Moritz,et al.  Hospital-acquired hyponatremia—why are hypotonic parenteral fluids still being used? , 2007, Nature Clinical Practice Nephrology.

[6]  S. Playfor,et al.  Hyponatraemia and hypokalaemia during intravenous fluid administration , 2007, Archives of Disease in Childhood.

[7]  K. Kaneko,et al.  Risk of exacerbation of hyponatremia with standard maintenance fluid regimens , 2004, Pediatric Nephrology.

[8]  Lawrence Copelovitch,et al.  Simplified treatment strategies to fluid therapy in diarrhea , 2004, Pediatric nephrology (Berlin, West).

[9]  M. Moritz,et al.  Prevention of hospital-acquired hyponatremia: a case for using isotonic saline. , 2003, Pediatrics.

[10]  M. Halberthal,et al.  Acute hyponatraemia in children admitted to hospital: retrospective analysis of factors contributing to its development and resolution , 2001, BMJ : British Medical Journal.

[11]  R. Chesney The Maintenance Need for Water in Parenteral Fluid Therapy , 1998, Pediatrics.

[12]  M. Rezaeian,et al.  Oral versus intravenous rehydration therapy in severe gastroenteritis. , 1985, Archives of disease in childhood.