Fluid Overload and Kidney Injury Score: A Multidimensional Real-Time Assessment of Renal Disease Burden in the Critically Ill Patient*

Objective: Interruptive acute kidney injury alerts are reported to decrease acute kidney injury–related mortality in adults. Critically ill children have multiple acute kidney injury risk factors; although recognition has improved due to standardized definitions, subtle changes in serum creatinine make acute kidney injury recognition challenging. Age and body habitus variability prevent a uniform maximum threshold of creatinine. Exposure of nephrotoxic medications is common but not accounted for in kidney injury scores. Current severity of illness measures do not include fluid overload, a well-described mortality risk factor. We hypothesized that a multidimensional measure of renal status would better characterize renal severity of illness while maintaining or improving on correlation measures with adverse outcomes, when compared with traditional acute kidney injury staging. Design: A novel, real-time, multidimensional, renal status measure, combining acute kidney injury, fluid overload greater than or equal to 15%, and nephrotoxin exposure, was developed (Fluid Overload Kidney Injury Score) and prospectively applied to all patient encounters. Peak Fluid Overload Kidney Injury Score values prior to discharge or death were used to measure correlation with outcomes. Setting: Quarternary PICU of a freestanding children’s hospital. Patients: All patients admitted over 18 months. Intervention: None. Results: Peak Fluid Overload Kidney Injury Score ranged between 0 and 14 in 2,830 PICU patients (median age, 5.5 yr; interquartile range, 1.3–12.9; 55% male), 66% of patients had Fluid Overload Kidney Injury Score greater than or equal to 1. Fluid Overload Kidney Injury Score was independently associated with PICU mortality and PICU and hospital length of stay when controlled for age, Pediatric Risk of Mortality-3, ventilator, pressor, and renal replacement therapy use (p = 0.047). Mortality increased from 1.5% in Fluid Overload Kidney Injury Score 0 to 40% in Fluid Overload Kidney Injury Score 8+. When urine output points were excluded, Fluid Overload Kidney Injury Score was more strongly correlated with mortality than fluid overload or acute kidney injury definitions alone. Conclusion: A multidimensional score of renal disease burden was significantly associated with adverse PICU outcomes. Further studies will evaluate Fluid Overload Kidney Injury Score as a warning and decision support tool to impact patient-centered outcomes.

[1]  Rajit K. Basu,et al.  Epidemiology of Acute Kidney Injury in Critically Ill Children and Young Adults , 2017, The New England journal of medicine.

[2]  P. Rochon,et al.  Risk Factors of Acute Kidney Injury in Critically Ill Children* , 2016, Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.

[3]  Joshua Lee,et al.  The impact of real-time alerting on appropriate prescribing in kidney disease: a cluster randomized controlled trial , 2016, J. Am. Medical Informatics Assoc..

[4]  S. Goldstein,et al.  Drug-Induced Acute Kidney Injury: A Focus on Risk Assessment for Prevention. , 2015, Critical care clinics.

[5]  S. Goldstein,et al.  Association Between Progression and Improvement of Acute Kidney Injury and Mortality in Critically Ill Children* , 2015, Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.

[6]  R. Fluck,et al.  Standardizing the Early Identification of Acute Kidney Injury: The NHS England National Patient Safety Alert , 2015, Nephron.

[7]  N. Kolhe,et al.  Impact of Compliance with a Care Bundle on Acute Kidney Injury Outcomes: A Prospective Observational Study , 2015, PloS one.

[8]  Laura E. Clark,et al.  Maximising Acute Kidney Injury Alerts – A Cross-Sectional Comparison with the Clinical Diagnosis , 2015, PloS one.

[9]  Laurie Tomlinson,et al.  Acute kidney injury—how does automated detection perform? , 2015, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[10]  W. T. Harris,et al.  Risk factors for acute kidney injury during aminoglycoside therapy in patients with cystic fibrosis , 2015, Pediatric Nephrology.

[11]  G. Clermont,et al.  Classifying AKI by Urine Output versus Serum Creatinine Level. , 2015, Journal of the American Society of Nephrology : JASN.

[12]  Zhenjiang Bai,et al.  Early fluid overload is associated with acute kidney injury and PICU mortality in critically ill children , 2015, European Journal of Pediatrics.

[13]  A. Otero,et al.  Prognostic relevance of early AKI according to pRIFLE criteria in children undergoing cardiac surgery , 2014, Pediatric Nephrology.

[14]  D. Goodman,et al.  Early Postoperative Fluid Overload Precedes Acute Kidney Injury and Is Associated With Higher Morbidity in Pediatric Cardiac Surgery Patients , 2014, Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.

[15]  Stephen E. Muething,et al.  Electronic Health Record Identification of Nephrotoxin Exposure and Associated Acute Kidney Injury , 2013, Pediatrics.

[16]  N. Bresolin,et al.  Pediatric acute kidney injury assessed by pRIFLE as a prognostic factor in the intensive care unit , 2013, Pediatric Nephrology.

[17]  Dionne A. Graham,et al.  Fluid balance in critically ill children with acute lung injury* , 2012, Critical care medicine.

[18]  C. Restrepo de Rovetto,et al.  Acute kidney injury applying pRifle scale in Children of Hospital Universitario del Valle in Cali, Colombia: clinical features, management and evolution , 2012, Colombia medica.

[19]  Y. Han,et al.  Fluid overload and fluid removal in pediatric patients on extracorporeal membrane oxygenation requiring continuous renal replacement therapy* , 2012, Critical care medicine.

[20]  S. Goldstein,et al.  Fluid overload is associated with impaired oxygenation and morbidity in critically ill children* , 2012, Pediatric critical care medicine : a journal of the Society of Critical Care Medicine and the World Federation of Pediatric Intensive and Critical Care Societies.

[21]  Filip De Turck,et al.  Impact of real-time electronic alerting of acute kidney injury on therapeutic intervention and progression of RIFLE class* , 2012, Critical care medicine.

[22]  N. Kolhe,et al.  Use of electronic results reporting to diagnose and monitor AKI in hospitalized patients. , 2012, Clinical journal of the American Society of Nephrology : CJASN.

[23]  M. Eki̇m,et al.  Acute kidney injury in a paediatric intensive care unit: comparison of the pRIFLE and AKIN criteria , 2012, Acta paediatrica.

[24]  John A Kellum,et al.  Oliguria as predictive biomarker of acute kidney injury in critically ill patients , 2011, Critical care.

[25]  A. Hyder,et al.  Acute kidney injury is an independent risk factor for pediatric intensive care unit mortality, longer length of stay and prolonged mechanical ventilation in critically ill children: a two-center retrospective cohort study , 2011, Critical care.

[26]  Y. Han,et al.  Weight-based determination of fluid overload status and mortality in pediatric intensive care unit patients requiring continuous renal replacement therapy , 2011, Intensive Care Medicine.

[27]  R. Khemani,et al.  Serum creatinine as stratified in the RIFLE score for acute kidney injury is associated with mortality and length of stay for children in the pediatric intensive care unit , 2010, Critical care medicine.

[28]  J. Fortenberry,et al.  Fluid overload and mortality in children receiving continuous renal replacement therapy: the prospective pediatric continuous renal replacement therapy registry. , 2010, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[29]  S. Goldstein,et al.  Ascertainment and epidemiology of acute kidney injury varies with definition interpretation. , 2008, Clinical journal of the American Society of Nephrology : CJASN.

[30]  F. Plötz,et al.  Pediatric acute kidney injury in the ICU: an independent evaluation of pRIFLE criteria , 2008, Intensive Care Medicine.

[31]  L S Jefferson,et al.  Modified RIFLE criteria in critically ill children with acute kidney injury. , 2007, Kidney international.

[32]  Miet Schetz,et al.  Drug-induced acute kidney injury , 2005, Current opinion in critical care.

[33]  J. Fortenberry,et al.  Pediatric patients with multi-organ dysfunction syndrome receiving continuous renal replacement therapy. , 2005, Kidney international.

[34]  S. Goldstein,et al.  Fluid overload and acute renal failure in pediatric stem cell transplant patients , 2003, Pediatric Nephrology.

[35]  R. Sachdeva,et al.  Outcome in children receiving continuous venovenous hemofiltration. , 2001, Pediatrics.