Ronald R Reichel1. 1. Department of Nephrology, Ochsner Health Center-Baton Rouge, Baton Rouge, LA.
Abstract
BACKGROUND: Acute kidney injury (AKI) is frequently encountered in the nephrology practice. Serum creatinine, with its many shortcomings, is still the main biomarker used to detect AKI. METHODS: This review focuses on recent advances in definition, diagnosis, risk factors, and molecular mechanisms of AKI. In addition, specific AKI syndromes such as contrast-induced AKI, hepatorenal syndrome, and acute decompensated heart failure are discussed. The connection between AKI and subsequent chronic kidney disease and recent developments in renal replacement therapy are also covered. RESULTS: Novel biomarkers such as cystatin C and neutrophil gelatinase-associated lipocalin (NGAL) are being investigated to replace serum creatinine in the detection of AKI. Recent studies suggest that intravenous (IV) fluid use is beneficial for the prevention of contrast-induced AKI, while N-acetylcysteine use is not as well established. Diuretics are clearly beneficial in the treatment of acute decompensated heart failure. Ultrafiltration is less promising and can lead to adverse side effects. Although terlipressin use in hepatorenal syndrome is associated with reduced mortality, it is not available in the United States; combination therapy with midodrine, octreotide, and albumin provides an alternative. Fluid resuscitation is frequently used in critically ill patients with AKI; however, overly aggressive fluid resuscitation is frequently associated with an increased risk of mortality. A 3-step approach that combines guided fluid resuscitation, establishment of an even fluid balance, and an appropriate rate of fluid removal may be beneficial. If fluid resuscitation is needed, crystalloid solutions are preferred over hetastarch solutions. Renal replacement therapy is the last resort in AKI treatment, and timing, modality, and dosing are discussed. Research suggests that AKI leads to an increased incidence of subsequent chronic kidney disease. However, this relationship has not been fully established and additional studies are needed for clarification. CONCLUSION: Despite major advances in AKI research, serum creatinine remains the major biomarker for the detection of AKI. The following interventions have shown to be beneficial: IV fluids for contrast-induced AKI; diuretics for acute decompensated heart failure/cardiorenal syndrome; and combination therapy with midodrine, octreotide, and albumin for hepatorenal syndrome. Fluid resuscitation in a patient with AKI should be used with caution because too liberal use of fluids can be associated with increased mortality. AKI appears to be related to increased rates of subsequent chronic kidney disease, and patients with AKI should therefore be monitored closely. Recent studies on renal replacement therapy have neither revealed an optimal timing for initiation of dialysis nor a clear advantage for a specific dialysis modality.
BACKGROUND:Acute kidney injury (AKI) is frequently encountered in the nephrology practice. Serum creatinine, with its many shortcomings, is still the main biomarker used to detect AKI. METHODS: This review focuses on recent advances in definition, diagnosis, risk factors, and molecular mechanisms of AKI. In addition, specific AKI syndromes such as contrast-induced AKI, hepatorenal syndrome, and acute decompensated heart failure are discussed. The connection between AKI and subsequent chronic kidney disease and recent developments in renal replacement therapy are also covered. RESULTS: Novel biomarkers such as cystatin C and neutrophil gelatinase-associated lipocalin (NGAL) are being investigated to replace serum creatinine in the detection of AKI. Recent studies suggest that intravenous (IV) fluid use is beneficial for the prevention of contrast-induced AKI, while N-acetylcysteine use is not as well established. Diuretics are clearly beneficial in the treatment of acute decompensated heart failure. Ultrafiltration is less promising and can lead to adverse side effects. Although terlipressin use in hepatorenal syndrome is associated with reduced mortality, it is not available in the United States; combination therapy with midodrine, octreotide, and albumin provides an alternative. Fluid resuscitation is frequently used in critically illpatients with AKI; however, overly aggressive fluid resuscitation is frequently associated with an increased risk of mortality. A 3-step approach that combines guided fluid resuscitation, establishment of an even fluid balance, and an appropriate rate of fluid removal may be beneficial. If fluid resuscitation is needed, crystalloid solutions are preferred over hetastarch solutions. Renal replacement therapy is the last resort in AKI treatment, and timing, modality, and dosing are discussed. Research suggests that AKI leads to an increased incidence of subsequent chronic kidney disease. However, this relationship has not been fully established and additional studies are needed for clarification. CONCLUSION: Despite major advances in AKI research, serum creatinine remains the major biomarker for the detection of AKI. The following interventions have shown to be beneficial: IV fluids for contrast-induced AKI; diuretics for acute decompensated heart failure/cardiorenal syndrome; and combination therapy with midodrine, octreotide, and albumin for hepatorenal syndrome. Fluid resuscitation in a patient with AKI should be used with caution because too liberal use of fluids can be associated with increased mortality. AKI appears to be related to increased rates of subsequent chronic kidney disease, and patients with AKI should therefore be monitored closely. Recent studies on renal replacement therapy have neither revealed an optimal timing for initiation of dialysis nor a clear advantage for a specific dialysis modality.
Authors: G Michael Felker; Kerry L Lee; David A Bull; Margaret M Redfield; Lynne W Stevenson; Steven R Goldsmith; Martin M LeWinter; Anita Deswal; Jean L Rouleau; Elizabeth O Ofili; Kevin J Anstrom; Adrian F Hernandez; Steven E McNulty; Eric J Velazquez; Abdallah G Kfoury; Horng H Chen; Michael M Givertz; Marc J Semigran; Bradley A Bart; Alice M Mascette; Eugene Braunwald; Christopher M O'Connor Journal: N Engl J Med Date: 2011-03-03 Impact factor: 91.245
Authors: Hilde R H de Geus; Jan Bakker; Emmanuel M E H Lesaffre; Jos L M L le Noble Journal: Am J Respir Crit Care Med Date: 2010-10-08 Impact factor: 21.405
Authors: Etienne Macedo; Josée Bouchard; Sharon H Soroko; Glenn M Chertow; Jonathan Himmelfarb; T Alp Ikizler; Emil P Paganini; Ravindra L Mehta Journal: Crit Care Date: 2010-05-06 Impact factor: 9.097
Authors: John A Myburgh; Simon Finfer; Rinaldo Bellomo; Laurent Billot; Alan Cass; David Gattas; Parisa Glass; Jeffrey Lipman; Bette Liu; Colin McArthur; Shay McGuinness; Dorrilyn Rajbhandari; Colman B Taylor; Steven A R Webb Journal: N Engl J Med Date: 2012-10-17 Impact factor: 91.245
Authors: Nor'azim Mohd Yunos; Rinaldo Bellomo; Colin Hegarty; David Story; Lisa Ho; Michael Bailey Journal: JAMA Date: 2012-10-17 Impact factor: 56.272
Authors: Lars Englberger; Rakesh M Suri; Zhuo Li; Edward T Casey; Richard C Daly; Joseph A Dearani; Hartzell V Schaff Journal: Crit Care Date: 2011-01-13 Impact factor: 9.097
Authors: María J Severin; Mara S Trebucobich; Patricia Buszniez; Anabel Brandoni; Adriana M Torres Journal: Toxicol Res (Camb) Date: 2016-01-07 Impact factor: 3.524
Authors: Ryan S Senger; Varun Kavuru; Meaghan Sullivan; Austin Gouldin; Stephanie Lundgren; Kristen Merrifield; Caitlin Steen; Emily Baker; Tommy Vu; Ben Agnor; Gabrielle Martinez; Hana Coogan; William Carswell; Lampros Karageorge; Devasmita Dev; Pang Du; Allan Sklar; Giuseppe Orlando; James Pirkle; John L Robertson Journal: PLoS One Date: 2019-09-27 Impact factor: 3.240
Authors: Ryan S Senger; Meaghan Sullivan; Austin Gouldin; Stephanie Lundgren; Kristen Merrifield; Caitlin Steen; Emily Baker; Tommy Vu; Ben Agnor; Gabrielle Martinez; Hana Coogan; William Carswell; Varun Kavuru; Lampros Karageorge; Devasmita Dev; Pang Du; Allan Sklar; James Pirkle; Susan Guelich; Giuseppe Orlando; John L Robertson Journal: PLoS One Date: 2020-01-10 Impact factor: 3.240