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American journal of kidney diseases : the official journal of the National Kidney Foundation
02, 2024;83 (2): 151-161.

Urinary Biomarkers and Kidney Injury in VA NEPHRON-D: Phenotyping Acute Kidney Injury in Clinical Trials.

Elizabeth A Kiernan, David Hu, Heather Thiessen Philbrook, Joachim H Ix, Joseph V Bonventre, Steven G Coca, Dennis G Moledina, Linda F Fried, Michael G Shlipak, Chirag R Parikh
Author Information
  1. Elizabeth A Kiernan: Division of Nephrology, Department of Medicine, School of Medicine, Johns Hopkins University, Baltimore, Maryland.
  2. David Hu: Division of Nephrology, Department of Medicine, School of Medicine, Johns Hopkins University, Baltimore, Maryland.
  3. Heather Thiessen Philbrook: Division of Nephrology, Department of Medicine, School of Medicine, Johns Hopkins University, Baltimore, Maryland.
  4. Joachim H Ix: Division of Nephrology-Hypertension, University of California-San Diego, San Diego, California; Veterans Affairs San Diego Healthcare System, San Diego, CA.
  5. Joseph V Bonventre: Renal Division, Brigham & Women's Hospital, Boston, Massachusetts.
  6. Steven G Coca: Division of Nephrology, Department of Medicine, Icahn School of Medicine at Mount Sinai, New York, New York.
  7. Dennis G Moledina: Section of Nephrology and Clinical and Translational Research Accelerator, Department of Internal Medicine, School of Medicine, Yale University, New Haven, Connecticut.
  8. Linda F Fried: Renal Section, Veterans Affairs Pittsburgh Healthcare System, Pittsburgh, Pennsylvania.
  9. Michael G Shlipak: Kidney Health Research Collaborative, Department of Medicine, University of California-San Francisco, San Francisco, California.
  10. Chirag R Parikh: Division of Nephrology, Department of Medicine, School of Medicine, Johns Hopkins University, Baltimore, Maryland. Electronic address: chirag.parikh@jhmi.edu.
PMID: 37726051 DOI: 10.1053/j.ajkd.2023.07.012

Abstract

RATIONALE & OBJECTIVE: Urinary biomarkers of injury, inflammation, and repair may help phenotype acute kidney injury (AKI) observed in clinical trials. We evaluated the differences in biomarkers between participants randomized to monotherapy or to combination renin-angiotensin-aldosterone system (RAAS) blockade in VA NEPHRON-D, where an increased proportion of observed AKI was acknowledged in the combination arm.
STUDY DESIGN: Longitudinal analysis.
SETTING & PARTICIPANTS: A substudy of the VA NEPHRON-D trial.
PREDICTOR: Primary exposure was the treatment arm (combination [RAAS inhibitor] vs monotherapy). AKI is used as a stratifying variable.
OUTCOME: Urinary biomarkers, including albumin, EGF (epidermal growth factor), MCP-1 (monocyte chemoattractant protein-1), YKL-40 (chitinase 3-like protein 1), and KIM-1 (kidney injury molecule-1).
ANALYTICAL APPROACH: Biomarkers measured at baseline and at 12 months in trial participants were compared between treatment groups and by AKI. AKI events occurring during hospitalization were predefined safety end points in the original trial. The results were included in a meta-analysis with other large chronic kidney disease trials to assess global trends in biomarker changes.
RESULTS: In 707 participants followed for a median of 2.2 years, AKI incidence was higher in the combination (20.7%) versus the monotherapy group (12.7%; relative risk [RR], 1.64 [95% CI, 1.16-2.30]). Compared with the monotherapy arm, in the combination arm the urine biomarkers at 12 months were either unchanged (MCP-1: RR, -3% [95% CI, -13% to 9%], P=0.8; KIM-1: RR, -10% [95% CI, -20% to 1%], P=0.2; EGF, RR-7% [95% CI, -12% to-1%], P=0.08) or lower (albuminuria: RR, -24% [95% CI, -37% to-8%], P=0.02; YKL: RR, -40% to-44% [95% CI, -58% to-25%], P<0.001). Pooled meta-analysis demonstrated reduced albuminuria in the intervention arm across 3 trials and similar trajectories in other biomarkers.
LIMITATIONS: Biomarker measurement was limited to 2 time points independent of AKI events.
CONCLUSIONS: Despite the increased risk of serum creatinine-defined AKI, combination RAAS inhibitor therapy was associated with unchanged or decreased urinary biomarkers at 12 months. This suggests a possible role for kidney biomarkers to further characterize kidney injury in clinical trials.
PLAIN-LANGUAGE SUMMARY: The VA NEPHRON-D trial investigated inhibition of the renin-angiotensin-aldosterone system (RAAS) hormonal axis on kidney outcomes in a large population of diabetic chronic kidney disease patients. The trial was stopped early due to increased events of serum creatinine-defined acute kidney injury in the combination therapy arm. Urine biomarkers can serve as an adjunct to serum creatinine in identifying kidney injury. We found that urinary biomarkers in the combination therapy group were not associated with a pattern of harm and damage to the kidney, despite the increased number of kidney injury events in that group. This suggests that serum creatinine alone may be insufficient for defining kidney injury and supports further exploration of how other biomarkers might improve identification of kidney injury in clinical trials.

Keywords

AKI RAAS-I albuminuria biomarkers creatinine

References

  1. N Engl J Med. 2020 Jun 4;382(23):2238-2247 [PMID: 32492305]
  2. Curr Opin Nephrol Hypertens. 2019 Nov;28(6):560-566 [PMID: 31369422]
  3. Intensive Care Med. 2015 Aug;41(8):1411-23 [PMID: 26162677]
  4. Nat Med. 2011 Sep 25;17(10):1242-50 [PMID: 21946538]
  5. J Am Soc Nephrol. 2017 Jan;28(1):377-387 [PMID: 27297949]
  6. Am J Nephrol. 2022;53(11-12):775-785 [PMID: 36630924]
  7. BMC Nephrol. 2018 Sep 21;19(1):246 [PMID: 30241508]
  8. Annu Rev Physiol. 2019 Feb 10;81:309-333 [PMID: 30742783]
  9. J Am Soc Nephrol. 2005 Nov;16(11):3365-70 [PMID: 16177006]
  10. Kidney Int. 2002 Jul;62(1):237-44 [PMID: 12081583]
  11. Am J Physiol Renal Physiol. 2015 Sep 1;309(5):F406-13 [PMID: 26084933]
  12. Semin Nephrol. 2018 Jan;38(1):3-11 [PMID: 29291759]
  13. Kidney Int. 2021 Feb;99(2):456-465 [PMID: 32707221]
  14. N Engl J Med. 2013 Nov 14;369(20):1892-903 [PMID: 24206457]
  15. Clin J Am Soc Nephrol. 2016 Aug 8;11(8):1343-1352 [PMID: 27189318]
  16. Clin J Am Soc Nephrol. 2014 Jan;9(1):12-20 [PMID: 24178971]
  17. J Am Soc Nephrol. 2011 Jan;22(1):165-75 [PMID: 21071523]
  18. N Engl J Med. 2010 Apr 29;362(17):1575-85 [PMID: 20228401]
  19. Am J Kidney Dis. 2019 Jan;73(1):31-38 [PMID: 30291011]
  20. Am J Kidney Dis. 2018 Jul;72(1):136-148 [PMID: 29478864]
  21. Am J Physiol Renal Physiol. 2006 Feb;290(2):F517-29 [PMID: 16174863]
  22. Ann Intern Med. 2018 Nov 6;169(9):610-618 [PMID: 30357395]
  23. Kidney Int Suppl (2011). 2014 Nov;4(1):70-74 [PMID: 26312153]
  24. Clin J Am Soc Nephrol. 2020 Aug 7;15(8):1121-1128 [PMID: 32669306]
  25. J Am Soc Nephrol. 2017 Dec;28(12):3699-3707 [PMID: 28808078]
  26. Kidney Int Rep. 2021 Jan 06;6(3):685-694 [PMID: 33732983]
  27. N Engl J Med. 2014 Jul 3;371(1):58-66 [PMID: 24988558]
  28. Clin J Am Soc Nephrol. 2015 Oct 7;10(10):1723-31 [PMID: 26336912]
  29. J Clin Invest. 2021 Feb 1;131(3): [PMID: 33290282]
  30. Am J Kidney Dis. 2019 Jan;73(1):21-30 [PMID: 30291012]
  31. Clin J Am Soc Nephrol. 2009 Feb;4(2):361-8 [PMID: 19118120]
  32. J Am Soc Nephrol. 2017 Jun;28(6):1677-1685 [PMID: 28220028]
  33. Am J Nephrol. 2020;51(2):108-115 [PMID: 31940606]
  34. J Cell Physiol. 2013 May;228(5):917-24 [PMID: 23086807]
  35. BMC Nephrol. 2014 Aug 15;15:133 [PMID: 25128003]
  36. PLoS One. 2021 Jun 9;16(6):e0245824 [PMID: 34106935]
  37. Clin J Am Soc Nephrol. 2016 Nov 7;11(11):1944-1953 [PMID: 27679519]
  38. J Am Soc Nephrol. 2012 Jan;23(1):13-21 [PMID: 22021710]
  39. Nephron. 2018;140(2):111-115 [PMID: 30205392]
  40. J Am Soc Nephrol. 2022 Jun;33(6):1173-1181 [PMID: 35296554]
  41. J Diabetes Res. 2018 Feb 8;2018:2852398 [PMID: 29577044]
  42. Clin J Am Soc Nephrol. 2020 Mar 6;15(3):423-429 [PMID: 32075806]
  43. Am J Kidney Dis. 2017 Mar;69(3):410-419 [PMID: 28024930]
  44. Ren Fail. 2010 Jul;32(6):699-708 [PMID: 20540638]
  45. Cytokine. 2018 Apr;104:1-7 [PMID: 29414320]
  46. Clin Chim Acta. 2020 Dec;511:40-46 [PMID: 33002471]
  47. BMC Nephrol. 2022 Sep 13;23(1):311 [PMID: 36100915]
  48. JAMA Netw Open. 2020 Oct 1;3(10):e2019209 [PMID: 33021646]
  49. Clin J Am Soc Nephrol. 2012 Nov;7(11):1749-60 [PMID: 22977220]
  50. JAMA Intern Med. 2020 Mar 1;180(3):402-410 [PMID: 31985750]
  51. N Engl J Med. 2015 Nov 26;373(22):2103-16 [PMID: 26551272]

Grants

  1. U01 DK114866/NIDDK NIH HHS
  2. UL1 TR001863/NCATS NIH HHS
  3. R37 DK039773/NIDDK NIH HHS
  4. R01 DK072381/NIDDK NIH HHS
  5. U01 DK129984/NIDDK NIH HHS
  6. R01 DK128087/NIDDK NIH HHS
  7. U01 DK085660/NIDDK NIH HHS
  8. R01 HL085757/NHLBI NIH HHS
  9. R01 DK093770/NIDDK NIH HHS
  10. P30 DK079310/NIDDK NIH HHS
  11. U01 DK106962/NIDDK NIH HHS
  12. U01 DK102730/NIDDK NIH HHS
  13. R01 DK039773/NIDDK NIH HHS
  14. K23 DK117065/NIDDK NIH HHS

MeSH Term

Humans
Acute Kidney Injury
Albuminuria
Biomarkers
Creatinine
Epidermal Growth Factor
Nephrons
Randomized Controlled Trials as Topic
Renal Insufficiency, Chronic
Clinical Trials as Topic

Chemicals

Biomarkers
Creatinine
Epidermal Growth Factor
Meta-Analysis Journal Article Research Support, N.I.H., Extramural
Article has an altmetric score of 39

Word Cloud

Created with Highcharts 10.0.0kidneybiomarkersinjuryAKIcombinationarm[95%CItrialstrialmonotherapyVAincreased12events2RRP=0serumUrinaryclinicalparticipantsRAASNEPHRON-D1monthsgrouptherapycreatinine&mayacuteobservedrenin-angiotensin-aldosteronesystemtreatmentEGFBiomarkerspointsmeta-analysislargechronicdisease7%riskunchangedalbuminuriacreatinine-definedassociatedurinarysuggestsKidneyInjuryRATIONALEOBJECTIVE:inflammationrepairhelpphenotypeevaluateddifferencesrandomizedblockadeproportionacknowledgedSTUDYDESIGN:LongitudinalanalysisSETTINGPARTICIPANTS:substudyPREDICTOR:Primaryexposure[RAASinhibitor]vsusedstratifyingvariableOUTCOME:includingalbuminepidermalgrowthfactorMCP-1monocytechemoattractantprotein-1YKL-40chitinase3-likeproteinKIM-1molecule-1ANALYTICALAPPROACH:measuredbaselinecomparedgroupsoccurringhospitalizationpredefinedsafetyendoriginalresultsincludedassessglobaltrendsbiomarkerchangesRESULTS:707followedmedianyearsincidencehigher20versusrelative[RR]6416-230]ComparedurineeitherMCP-1: -3% -13%9%]8KIM-1: -10% -20%1%]RR-7% -12%to-1%]08loweralbuminuria: -24% -37%to-8%]02YKL: -40%to-44% -58%to-25%]P<0001Pooleddemonstratedreducedinterventionacross3similartrajectoriesLIMITATIONS:BiomarkermeasurementlimitedtimeindependentCONCLUSIONS:DespiteinhibitordecreasedpossiblerolecharacterizePLAIN-LANGUAGESUMMARY:investigatedinhibitionhormonalaxisoutcomespopulationdiabeticpatientsstoppedearlydueUrinecanserveadjunctidentifyingfoundpatternharmdamagedespitenumberaloneinsufficientdefiningsupportsexplorationmightimproveidentificationNEPHRON-D:PhenotypingAcuteClinicalTrialsRAAS-I

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