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10. Rosner MH, Okusa MD. Acute kidney injury associated with cardiac

surgery.

Clin J Am Soc Nephrol

2006;

1

(1): 19–32.

11. O’Neal JB, Shaw AD, Billings FT. Acute kidney injury following cardiac

surgery: current understanding and future directions.

Crit Care

2016;

20

:

187.

12. Olowu WA, Niang A, Osafo C, Ashuntantang G, Arogundade FA,

Porter J,

et al

. Outcomes of acute kidney injury in children and adults in

sub-Saharan Africa: a systematic review.

Lancet Glob Health

2016;

4

(4):

e242–250.

13. Bellomo R, Auriemma S, Fabbri A, D’Onofrio A, Katz N, McCullough

PA,

et al

. The pathophysiology of cardiac surgery-associated acute kidney

injury (CSA-AKI).

Int J Artif Organs

2008;

31

(2): 166–178.

14. Bove T, Monaco F, Covello RD, Zangrillo A. Acute renal failure and

cardiac surgery.

HSR Proc Intens Care Cardiovasc Anesth

2009;

1

(3):

13–21.

15. Bonventre JV, Yang L. Cellular pathophysiology of ischemic acute kidney

injury.

J Clin Invest

2011;

121

(11): 4210–4221.

16. Le Dorze M, Legrand M, Payen D, Ince C. The role of the microcircula-

tion in acute kidney injury.

Curr Opin Crit Care

2009;

15

(6): 503–508.

17. Bove T, Monaco F, Covello R, Zangrillo A. Acute renal failure and

cardiac surgery.

HSR Proc Intens Care Cardiovasc Anesth

2009;

1

(3): 13.

18. Devarajan P. Update on mechanisms of ischemic acute kidney injury.

J

Am Soc Nephrol

2006;

17

(6): 1503–1520.

19. Lombardi R, Ferreiro A, Servetto C. Renal function after cardiac surgery:

adverse effect of furosemide.

Renal Fail

2003;

25

(5): 775–786.

20. Solomon R, Werner C, Mann D, D’Elia J, Silva P. Effects of saline,

mannitol, and furosemide on acute decreases in renal function induced by

radiocontrast agents.

N Engl J Med

1994;

331

(21): 1416–1420. 4

21. Lassnigg A, Donner E, Grubhofer G, Presterl E, Druml W, Hiesmayr

M. Lack of renoprotective effects of dopamine and furosemide during

cardiac surgery.

J Am Soc Nephrol

2000;

11

(1): 97–104.

22. Ji F, Li Z, Young JN, Yeranossian A, Liu H. Post-bypass dexmedeto-

midine use and postoperative acute kidney injury in patients undergo-

ing cardiac surgery with cardiopulmonary bypass.

PLoS One

2013;

8

(10):77446.

23. Reves JG, Buttner E, Karp RB, Oparil S, McDaniel HG, Smith LR.

Elevated catecholamines during cardiac surgery: consequences of reperfu-

sion of the postarrested heart.

Am J Cardiol

1984;

53

(6): 722–728.

24. Levey AS, Stevens LA, Schmid CH, Zhang YL, Castro AF, 3rd, Feldman

HI,

et al

. A new equation to estimate glomerular filtration rate.

Ann Intern

Med

2009;

150

(9): 604–612.

25. Jaionen J, Hynynen M, Kuitunen A, Heikkila H, Perttila J, Salmenpera

M,

et al

. Dexmedetomidine as an anesthetic adjunct in coronary artery

bypass grafting.

J Am Soc Anesthesiol

1997;

86

(2): 331–345.

26. Stafford-Smith M, Li YJ, Mathew JP, Li YW, Ji Y, Phillips-Bute BG,

et

al

. Genome-wide association study of acute kidney injury after coronary

bypass graft surgery identifies susceptibility loci.

Kidney Int

2015;

88

(4):

823–832.

27. Chakravarthy M. Modifying risks to improve outcome in cardiac surgery:

An anesthesiologist’s perspective.

Ann Card Anaesth

2017;

20

(2): 226–233.

28. FreelandK,HamidianJahromiA,DuvallLM,ManciniMC.Postoperative

blood transfusion is an independent predictor of acute kidney injury in

cardiac surgery patients.

J Nephropathol

2015;

4

(4): 121–126.

29. Kumar AB, Suneja M, Bayman EO, Weide GD, Tarasi M. Association

between postoperative acute kidney injury and duration of cardiopul-

monary bypass: a meta-analysis.

J Cardiothorac Vasc Anesth

2012;

26

(1):

64–69.

30. Benedetto U, Luciani R, Goracci M, Capuano F, Refice S, Angeloni E,

et al

. Miniaturized cardiopulmonary bypass and acute kidney injury in

coronary artery bypass graft surgery.

Ann Thorac Surg

88

(2): 529–535.

31. Susantitaphong P, Alfayez M, Cohen-Bucay A, Balk EM, Jaber BL.

Therapeutic hypothermia and prevention of acute kidney injury: a

meta-analysis of randomized controlled trials.

Resuscitation

2012;

83

(2):

159–167.

32. Boodhwani M, Rubens FD, Wozny D, Nathan HJ. Effects of mild hypo-

thermia and rewarming on renal function after coronary artery bypass

grafting.

Ann Thorac Surg

2009;

87

(2): 489–495.

33. Thiele RH, Isbell JM, Rosner MH. AKI associated with cardiac surgery.

Clin J Am Soc Nephrol

2015;

10

(3): 500–514.

34. Liu C, Lu X, Mao Z, Kang H, Liu H, Pan L,

et al

. The diagnostic accu-

racy of urinary [TIMP-2].[IGFBP7] for acute kidney injury in adults: A

PRISMA-compliant meta-analysis.

Medicine

2017;

96

(27): e7484.

35. Nigwekar SU, Kandula P, Hix JK, Thakar CV. Off-pump coronary artery

bypass surgery and acute kidney injury: a meta-analysis of randomized

and observational studies.

Am J Kidney Dis

2009;

54

(3):413–423.

36. Shroyer AL, Grover FL, Hattler B, Collins JF, McDonald GO, Kozora E,

et al

. On-pump versus off-pump coronary-artery bypass surgery.

N Engl J

Med

2009;

361

(19): 1827–1837.

37. Lamy A, Devereaux P, Prabhakaran D, Taggart DP, Hu S, Paolasso E,

et

al

. Off-pump or on-pump coronary-artery bypass grafting at 30 days.

N

Eng J Med

2012;

366

(16): 1489–1497

38. Karkouti K, Wijeysundera DN, Yau TM, Callum JL, Cheng DC,

Crowther M,

et al

. Acute kidney injury after cardiac surgery: focus on

modifiable risk factors.

Circulation

2009;

119

(4): 495–502.

39. Nangaku M. Chronic hypoxia and tubulointerstitial injury: a final

common pathway to end-stage renal failure.

J Am Soc Nephrol

2006;

17

(1): 17–25.

40. Koch CG, Li L, Sessler DI, Figueroa P, Hoeltge GA, Mihaljevic T,

et al.

Duration of red-cell storage and complications after cardiac surgery.

N

Engl J Med

2008;

358

(12): 1229–1239.

41. Almac E, Ince C. The impact of storage on red cell function in blood

transfusion.

Best Pract Res Clin Anaesthesiol

2007;

21

(2): 195–208.

42. Kellum JA, Bellomo R, Ronco C. Kidney attack.

J Am Med Assoc

2012;

307

(21): 2265–2266.

43. Hall JE.

Guyton and Hall Textbook of Medical Physiology

. E-Book:

Elsevier Health Sciences, 2015.

44. Ronco C. Acute kidney injury: from clinical to molecular diagnosis.

Crit

Care

2016;

20

(1): 201.

45. Englberger L, Suri RM, Li Z, Casey ET, Daly RC, Dearani JA,

et al

.

Clinical accuracy of RIFLE and Acute Kidney Injury Network (AKIN)

criteria for acute kidney injury in patients undergoing cardiac surgery.

Crit Care

2011;

15

(1): R16.

46. Bhadade R, De’Souza R, Harde MJ, Mehta KS, Bhargava P. A prospec-

tive study of acute kidney injury according to KDIGO definition and its

mortality predictors.

J Assoc Physicians India

2016;

64

(12): 22–28.

47. Wasung ME, Chawla LS, Madero M. Biomarkers of renal function,

which and when?

Clin Chim Acta

2015;

438

: 350–357.

48. Soni SS, Ronco C, Katz N, Cruz DN. Early diagnosis of acute kidney

injury: the promise of novel biomarkers.

Blood Purif

2009;

28

(3): 165–174.

49. McCullough PA, Shaw AD, Haase M, Bouchard J, Waikar SS, Siew

ED,

et al

. Diagnosis of acute kidney injury using functional and injury

biomarkers: workgroup statements from the tenth Acute Dialysis Quality

Initiative Consensus Conference. ADQI Consensus on AKI Biomarkers

and Cardiorenal Syndromes. Karger Publishers, 2013: 13–29.

50. Mishra J, Dent C, Tarabishi R, Mitsnefes MM, Ma Q, Kelly C,

et al

.

Neutrophil gelatinase-associated lipocalin (NGAL) as a biomarker

for acute renal injury after cardiac surgery.

Lancet

2005;

365

(9466):

1231–1238.

51. Wagener G, Gubitosa G, Wang S, Borregaard N, Kim M, Lee HT.

Urinary neutrophil gelatinase-associated lipocalin and acute kidney