L-FABP can be an early marker of acute kidney injury in children

[1]  N. Ambalavanan,et al.  Urine biomarkers predict acute kidney injury in newborns. , 2012, The Journal of pediatrics.

[2]  S. Goldstein,et al.  Temporal relationship and predictive value of urinary acute kidney injury biomarkers after pediatric cardiopulmonary bypass. , 2011, Journal of the American College of Cardiology.

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

[4]  C. Krawczeski,et al.  Incidence, risk factors, and outcomes of acute kidney injury after pediatric cardiac surgery: A prospective multicenter study* , 2011, Critical care medicine.

[5]  S. Goldstein,et al.  Acute kidney injury in childhood: should we be worried about progression to CKD? , 2011, Pediatric Nephrology.

[6]  C. Krawczeski,et al.  Serum cystatin C is an early predictive biomarker of acute kidney injury after pediatric cardiopulmonary bypass. , 2010, Clinical journal of the American Society of Nephrology : CJASN.

[7]  R. Bellomo,et al.  Novel biomarkers, oxidative stress, and the role of labile iron toxicity in cardiopulmonary bypass-associated acute kidney injury. , 2010, Journal of the American College of Cardiology.

[8]  T. Sugaya,et al.  Urinary excretion of liver type fatty acid binding protein accurately reflects the degree of tubulointerstitial damage. , 2009, The American journal of pathology.

[9]  T. Sugaya,et al.  Monitoring of urinary L-type fatty acid-binding protein predicts histological severity of acute kidney injury. , 2009, The American journal of pathology.

[10]  T. Sugaya,et al.  Amelioration of diabetic tubulointerstitial damage in liver-type fatty acid-binding protein transgenic mice. , 2009, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[11]  T. Kara,et al.  Epidemiology and outcome of acute kidney injury in New Zealand children , 2008, Journal of paediatrics and child health.

[12]  P. Moore,et al.  Liver fatty acid-binding protein as a biomarker of acute kidney injury after cardiac surgery. , 2008, Kidney international.

[13]  M. Mitsnefes,et al.  Plasma neutrophil gelatinase-associated lipocalin predicts acute kidney injury, morbidity and mortality after pediatric cardiac surgery: a prospective uncontrolled cohort study , 2007, Critical care.

[14]  H. Taniguchi,et al.  Renal L-type fatty acid--binding protein in acute ischemic injury. , 2007, Journal of the American Society of Nephrology : JASN.

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

[16]  John A Kellum,et al.  Acute Kidney Injury Network: report of an initiative to improve outcomes in acute kidney injury , 2007, Critical care.

[17]  T. Sugaya,et al.  Liver-type fatty acid-binding protein attenuates renal injury induced by unilateral ureteral obstruction. , 2006, The American journal of pathology.

[18]  J. Kellum,et al.  RIFLE criteria provide robust assessment of kidney dysfunction and correlate with hospital mortality. , 2006, Critical care medicine.

[19]  P. Devarajan Update on mechanisms of ischemic acute kidney injury. , 2006, Journal of the American Society of Nephrology : JASN.

[20]  F. Burczynski,et al.  Antioxidative function of L‐FABP in L‐FABP stably transfected Chang liver cells , 2005, Hepatology.

[21]  Qing Ma,et al.  Neutrophil gelatinase-associated lipocalin (NGAL) as a biomarker for acute renal injury after cardiac surgery , 2005, The Lancet.

[22]  P. Austin,et al.  Impact of renal insufficiency on short- and long-term outcomes after cardiac surgery. , 2005, American heart journal.

[23]  R. Henning,et al.  Immediate postoperative renal function deterioration in cardiac surgical patients predicts in-hospital mortality and long-term survival. , 2004, Journal of the American Society of Nephrology : JASN.

[24]  A. Fukamizu,et al.  Urinary excretion of fatty acid-binding protein reflects stress overload on the proximal tubules. , 2004, The American journal of pathology.

[25]  L. Brion,et al.  The use of plasma creatinine concentration for estimating glomerular filtration rate in infants, children, and adolescents. , 1987, Pediatric clinics of North America.

[26]  T. Sugaya,et al.  Usefulness of urinary biomarkers in early detection of acute kidney injury after cardiac surgery in adults. , 2012, Circulation journal : official journal of the Japanese Circulation Society.

[27]  A. Chmurzyńska The multigene family of fatty acid-binding proteins (FABPs): Function, structure and polymorphism , 2010, Journal of Applied Genetics.

[28]  S. Goldstein,et al.  3-5 year longitudinal follow-up of pediatric patients after acute renal failure. , 2006, Kidney international.

[29]  S. Goldstein,et al.  Pediatric ARF epidemiology at a tertiary care center from 1999 to 2001. , 2005, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[30]  Kimberlee Gauvreau,et al.  Consensus-based method for risk adjustment for surgery for congenital heart disease. , 2002, The Journal of thoracic and cardiovascular surgery.