Complex Information for Anesthesiologists Presented Quickly and Clearly
CPB, cardiopulmonary bypass; IGFBP7, insulin-like growth factor binding protein 7; IL-18, interleukin-18; KDIGO, Kidney Disease: Improving Global Outcomes; KIM-1, kidney-injury- molecule-1; NGAL, neutrophil gelatinase-associated lipocalin; TEE, transesophageal echocardiography; TIMP-2, tissue inhibitor of metalloproteinase 2.
Infographic created by Jonathan P. Wanderer, Vanderbilt University Medical Center, and James P. Rathmell, Brigham and Women’s Health Care/Harvard Medical School. Illustration by Annemarie Johnson, Vivo Visuals. Address correspondence to Dr. Wanderer: jon.wanderer@vumc.org.
1.
Silverton
NA
, Lofgren
LR
, Hall
IE
, Stoddard
GJ
, Melendez
NP
, Van Tienderen
M
, Shumway
S
, Stringer
BJ
, Kang
W-s
, Lybbert
C
, Kuck
K
: Noninvasive urine oxygen monitoring and the risk of acute kidney injury in cardiac surgery.
Anesthesiology
. 2021
; 135
:406
–18
2.
Stafford-Smith
M
: Could trended oxygen partial pressure in the urine be the “ST segment” kidney monitor we’ve been looking for?
Anesthesiology
. 2021
; 135
:380
–1
3.
Parikh
CR
, Coca
SG
, Thiessen-Philbrook
H
, Shlipak
MG
, Koyner
JL
, Wang
Z
, Edelstein
CL
, Devarajan
P
, Patel
UD
, Zappitelli
M
, Krawczeski
CD
, Passik
CS
, Swaminathan
M
, Garg
AX
, TRIBE-AKI Consortium
: Postoperative biomarkers predict acute kidney injury and poor outcomes after adult cardiac surgery.
J Am Soc Nephrol
. 2011
; 22
:1748
–57
4.
Cummings
JJ
, Shaw
AD
, Shi
J
, Lopez
MG
, O'Neal
JB
, Billings
FT
, IV: Intraoperative prediction of cardiac surgery–associated acute kidney injury using urinary biomarkers of cell cycle arrest.
J Thorac Cardiovasc Surg
. 2019
; 157
:1545
–53.e5
5.
Elmedany
SM
, Naga
SS
, Elsharkawy
R
, Mahrous
RS
, Elnaggar
AI
: Novel urinary biomarkers and the early detection of acute kidney injury after open cardiac surgeries.
J Crit Care
. 2017
; 40
:171
–7
