Urine Neutrophil Gelatinase-Associated Lipocalin and Kidney Injury Molecule-1 to Detect Pediatric Cisplatin-Associated Acute Kidney Injury.

Background: Few studies have described associations between the AKI biomarkers urinary neutrophil gelatinase-associated lipocalin (NGAL) and kidney injury molecule-1 (KIM-1) with AKI in cisplatin-treated children. We aimed to describe excretion patterns of urine NGAL and KIM-1 and associations with AKI in children receiving cisplatin.
Methods: Participants ( n =159) were enrolled between 2013 and 2017 in a prospective cohort study conducted in 12 Canadian pediatric hospitals. Participants were evaluated at early cisplatin infusions (at first or second cisplatin cycle) and late cisplatin infusions (last or second-to-last cycle). Urine NGAL and KIM-1 were measured ( 1 ) pre-cisplatin infusion, ( 2 ) post-infusion (morning after), and ( 3 ) at hospital discharge at early and late cisplatin infusions. Primary outcome: AKI defined by serum creatinine rise within 10 days post-cisplatin, on the basis of Kidney Disease Improving Global Outcomes guidelines criteria (stage 1 or higher).
Results: Of 159 children, 156 (median [interquartile range (IQR)] age: 5.8 [2.4-12.0] years; 78 [50%] female) had biomarker data available at early cisplatin infusions and 127 had data at late infusions. Forty six of the 156 (29%) and 22 of the 127 (17%) children developed AKI within 10 days of cisplatin administration after early and late infusions, respectively. Urine NGAL and KIM-1 concentrations were significantly higher in patients with versus without AKI (near hospital discharge of late cisplatin infusion, median [IQR] NGAL levels were 76.1 [10.0-232.7] versus 14.9 [5.4-29.7] ng/mg creatinine; KIM-1 levels were 4415 [2083-9077] versus 1049 [358-3326] pg/mg creatinine; P <0.01). These markers modestly discriminated for AKI (area under receiver operating characteristic curve [AUC-ROC] range: NGAL, 0.56-0.72; KIM-1, 0.48-0.75). Biomarker concentrations were higher and better discriminated for AKI at late cisplatin infusions (AUC-ROC range, 0.54-0.75) versus early infusions (AUC-ROC range, 0.48-0.65).
Conclusions: Urine NGAL and KIM-1 were modest at discriminating for cisplatin-associated AKI. Further research is needed to determine clinical utility and applicability of these markers and associations with late kidney outcomes.
Competing Interests: T.D. Blydt-Hansen reports having ownership interest in Apple, Hydrogenics, and Royal Bank of Canada; receiving honoraria from Astellas Canada; receiving research funding from Astellas Canada, Canadian Institutes of Health Research, Child and Family Research Institute, Children’s Hospital of Manitoba Research Institute, and Transplant Research Foundation of BC; having consultancy agreements with Astellas Canada, Horizon Canada, Novartis, and Ricordati; and serving as a scientific advisor for or member of BC Transplant, Canadian National Transplant Research Program, International Pediatric Transplant Association (council member), and North American Pediatric Transplant and Collaborative Studies. B.C. Carleton reports serving as a scientific advisor for or member of AEVI Genomic Medicine, United Health Group Pharmacogenomics (on the advisory committee); having consultancy agreements with Dynacare Specialized Diagnostics; receiving research funding from Dynacare Specialized Diagnostics (ended in June 2021) and grants from federal and provincial agencies; and having other interests/relationships with Rare Disease Society. P. Devarajan reports having consultancy agreements with Alnylam, Dicerna, Natera, and Reata; being a coinventor on patents for the use of NGAL as a biomarker of kidney injury; and serving on speakers bureaus for BioPorto Inc., Natera, and Reata. M. Pinsk reports having consultancy agreements with Canadian Agency for Drugs and Technologies in Health (as consultant); serving as an expert witness for legal consultations (multiple); and having other interests/relationships with Canadian Society of Nephrology, International Pediatric Nephrology Association, and Medical Council of Canada. K. R. Schultz reports having consultancy agreements with AVM Biotech, Celgene/Juno, Jazz, and Medpace; receiving honoraria from Bristol Myers Squibb (BMS), Celegene, and Jazz; serving on the data safety monitoring boards for BMS/Juno and Medpace; and serving as a scientific advisor or membership of Jazz. R.T. Tsuyuki reports receiving research funding from AstraZeneca, Merck Canada Inc., and Sanofi; serving as the editor-in-chief for Canadian Pharmacists Journal, and as president, chair, and on the board of directors for Hypertension Canada; receiving honoraria from Emergent Biosolutions and Merck Canada Inc.; and having consultancy agreements with Emergent Biosolutions and Shoppers Drug Mart. M. Zappitelli reports having consultancy agreements with BioPorto Inc., CytoPheryx Inc., and Eloxx Pharmaceuticals; receiving honoraria from Bioporto Inc. and Eloxx Pharmaceuticals; and having other interests/relationships with Canadian Pediatric Nephrologists Association, Canadian Society of Nephrology, and Kidney Foundation of Canada. All remaining authors have nothing to disclose.
(Copyright © 2022 by the American Society of Nephrology.)