Introduction: Hematocrit monitoring during continuous renal replacement therapy (CRRT) allows the continuous estimation of relative blood volume (RBV). This may enable early detection of intravascular volume depletion prior to clinical sequelae. We aimed to investigate the feasibility of extended RBV monitoring and its epidemiology during usual CRRT management by clinicians unaware of RBV. Moreover, we studied the association between changes in RBV and net ultrafiltration (NUF) rates. Methods: In a cohort of adult intensive care unit patients receiving CRRT, we continuously monitored hematocrit and RBV using a pre-filter noninvasive optical sensor. We analyzed temporal changes in RBV and investigated the association between RBV change and NUF rates, using the classification of NUF rates into low, moderate, or high based on predefined cut-offs. Results: We obtained >60,000 minute-by-minute measurements in >1,000 CRRT hours in 36 patients. The median RBV change was negative (decrease) in 69% of patients and the median peak change in RBV was −9.3% (interquartile range: −3.9% to −14.3%). Moreover, the median RBV decreased from baseline by >5% in 40.2% of measurements and by >10% in 20.6% of measurements. Finally, RBV decreased significantly more when patients received a high NUF rate (>1.75 mL/kg/h) compared to low or moderate NUF rates (5.32% vs. 1.93% or 1.97%, p < 0.001). Conclusion: Continuous hematocrit and RBV monitoring during CRRT was feasible. RBV decreased significantly during CRRT, and decreases were greater with higher NUF rates. RBV monitoring may help optimize NUF management and prevent the occurrence of intravascular volume depletion.

1.
Hoste
EA
,
Bagshaw
SM
,
Bellomo
R
,
Cely
CM
,
Colman
R
,
Cruz
DN
, et al
.
Epidemiology of acute kidney injury in critically ill patients: the multinational AKI-EPI study
.
Intensive Care Med
.
2015
;
41
(
8
):
1411
23
.
2.
Hoste
EAJ
,
Kellum
JA
,
Selby
NM
,
Zarbock
A
,
Palevsky
PM
,
Bagshaw
SM
, et al
.
Global epidemiology and outcomes of acute kidney injury
.
Nat Rev Nephrol
.
2018
;
14
(
10
):
607
25
.
3.
See
EJ
,
Jayasinghe
K
,
Glassford
N
,
Bailey
M
,
Johnson
DW
,
Polkinghorne
KR
, et al
.
Long-term risk of adverse outcomes after acute kidney injury: a systematic review and meta-analysis of cohort studies using consensus definitions of exposure
.
Kidney Int
.
2019
;
95
(
1
):
160
72
.
4.
Bellomo
R
;
Rational Evaluation of Nomenclature and Agreement based on Logic RENAL Investigators
.
Correspondence regarding the article by Murugan et al. on “Precision net ultrafiltration dosing in continuous kidney replacement therapy: a practical approach”
.
Intensive Care Med Exp
.
2024
;
12
(
1
):
18
.
5.
Ramirez-Guerrero
G
,
Ronco
C
.
Ultrafiltration tolerance, a phenotype that we need to recognize
.
Blood Purif
.
2024
;
53
(
7
):
541
7
.
6.
Serpa Neto
A
,
Naorungroj
T
,
Murugan
R
,
Kellum
JA
,
Gallagher
M
,
Bellomo
R
.
Heterogeneity of effect of net ultrafiltration rate among critically ill adults receiving continuous renal replacement therapy
.
Blood Purif
.
2021
;
50
(
3
):
336
46
.
7.
Sansom
B
,
Udy
A
,
Presneill
J
,
Bellomo
R
.
Early net ultrafiltration during continuous renal replacement therapy: impact of admission diagnosis and association with mortality
.
Blood Purif
.
2024
;
53
(
3
):
170
80
.
8.
Prowle
J
,
Mehta
R
.
Fluid balance management during continuous renal replacement therapy
.
Semin Dial
.
2021
;
34
(
6
):
440
8
.
9.
Ledoux-Hutchinson
L
,
Wald
R
,
Malbrain
M
,
Carrier
FM
,
Bagshaw
SM
,
Bellomo
R
, et al
.
Fluid management for critically ill patients with acute kidney injury receiving kidney replacement therapy: an international survey
.
Clin J Am Soc Nephrol
.
2023
;
18
(
6
):
705
15
.
10.
Lumlertgul
N
,
Murugan
R
,
Seylanova
N
,
McCready
P
,
Ostermann
M
.
Net ultrafiltration prescription survey in Europe
.
BMC Nephrol
.
2020
;
21
(
1
):
522
.
11.
Murugan
R
,
Hoste
E
,
Mehta
RL
,
Samoni
S
,
Ding
X
,
Rosner
MH
, et al
.
Precision fluid management in continuous renal replacement therapy
.
Blood Purif
.
2016
;
42
(
3
):
266
78
.
12.
Kellum
J
,
Lameire
N
,
Aspelin
P
.
KDIGO clinical practice guideline for acute kidney injury
.
Kidney Int Supplements
.
2012
;
2
:
1
138
.
13.
Wang
AY
,
Bellomo
R
.
Renal replacement therapy in the ICU: intermittent hemodialysis, sustained low-efficiency dialysis or continuous renal replacement therapy
.
Curr Opin Crit Care
.
2018
;
24
(
6
):
437
42
.
14.
Murugan
R
,
Kerti
SJ
,
Chang
CH
,
Gallagher
M
,
Clermont
G
,
Palevsky
PM
, et al
.
Association of net ultrafiltration rate with mortality among critically ill adults with acute kidney injury receiving continuous venovenous hemodiafiltration: a secondary analysis of the randomized evaluation of normal vs augmented level (RENAL) of renal replacement therapy trial
.
JAMA Netw Open
.
2019
;
2
(
6
):
e195418
.
15.
Murugan
R
,
Kerti
SJ
,
Chang
CH
,
Gallagher
M
,
Neto
AS
,
Clermont
G
, et al
.
Association between net ultrafiltration rate and renal recovery among critically ill adults with acute kidney injury receiving continuous renal replacement therapy: an observational cohort study
.
Blood Purif
.
2022
;
51
(
5
):
397
409
.
16.
Naorungroj
T
,
Neto
AS
,
Zwakman-Hessels
L
,
Yanase
F
,
Eastwood
G
,
Murugan
R
, et al
.
Early net ultrafiltration rate and mortality in critically ill patients receiving continuous renal replacement therapy
.
Nephrol Dial Transpl
.
2021
;
36
(
6
):
1112
9
.
17.
Santoro
A
,
Mancini
E
.
Blood volume monitoring systems and biofeedback
.
Contrib Nephrol
.
2002
(
137
):
233
44
.
18.
Agarwal
R
,
Kelley
K
,
Light
RP
.
Diagnostic utility of blood volume monitoring in hemodialysis patients
.
Am J Kidney Dis
.
2008
;
51
(
2
):
242
54
.
19.
Booth
J
,
Pinney
J
,
Davenport
A
.
Do changes in relative blood volume monitoring correlate to hemodialysis-associated hypotension
.
Nephron Clin Pract
.
2011
;
117
(
3
):
c179
83
.
20.
Basile
C
,
Giordano
R
,
Vernaglione
L
,
Montanaro
A
,
De Maio
P
,
De Padova
F
, et al
.
Efficacy and safety of haemodialysis treatment with the Hemocontrol biofeedback system: a prospective medium-term study
.
Nephrol Dial Transpl
.
2001
;
16
(
2
):
328
34
.
21.
Davenport
A
.
Using dialysis machine technology to reduce intradialytic hypotension
.
Hemodial Int
.
2011
;
15
(
Suppl 1
):
S37
42
.
22.
Baldwin
I
,
Maeda
A
,
Bellomo
R
,
See
E
.
Haematocrit monitoring and blood volume estimation during continuous renal replacement therapy
.
Aust Crit Care
.
2024
;
37
(
4
):
632
7
.
23.
von Elm
E
,
Altman
DG
,
Egger
M
,
Pocock
SJ
,
Gotzsche
PC
,
Vandenbroucke
JP
, et al
.
The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies
.
J Clin Epidemiol
.
2008
;
61
(
4
):
344
9
.
24.
Garro
R
,
Sutherland
S
,
Bayes
L
,
Alexander
S
,
Wong
C
.
CRIT-LINE: a noninvasive tool to monitor hemoglobin levels in pediatric hemodialysis patients
.
Pediatr Nephrol
.
2015
;
30
(
6
):
991
8
.
25.
Steuer
RR
,
Bell
DA
,
Barrett
LL
.
Optical measurement of hematocrit and other biological constituents in renal therapy
.
Adv Ren Replace Ther
.
1999
;
6
(
3
):
217
24
.
26.
Patil
I
.
Visualizations with statistical details: the “ggstatsplot” approach
.
J Open Source Softw
.
2021
;
6
(
61
):
3167
.
27.
Ronco
C
,
Brendolan
A
,
Bellomo
R
.
On-line monitoring of blood volume in continuous and intermittent renal replacement therapies
.
Clin Intensive Care
.
2011
;
10
(
4
):
125
9
.
28.
Mailloux
PT
,
Friderici
J
,
Freda
B
,
McGee
WT
.
Establishing goals of volume management in critically ill patients with renal failure
.
J Nephrol
.
2012
;
25
(
6
):
962
8
.
29.
Yessayan
LT
,
Yee
J
,
Frinak
S
,
Szamosfalvi
B
.
Online hemoglobin and oxygen saturation sensing during continuous renal replacement therapy with regional citrate anticoagulation
.
Am Soc Artif Intern Organs Trans J
.
2015
;
61
(
5
):
489
95
.
30.
Dasselaar
JJ
.
Relative blood volume based biofeedback during haemodialysis
.
J Ren Care
.
2007
;
33
(
2
):
59
65
.
31.
Murugan
R
,
Bellomo
R
,
Palevsky
PM
,
Kellum
JA
.
Ultrafiltration in critically ill patients treated with kidney replacement therapy
.
Nat Rev Nephrol
.
2021
;
17
(
4
):
262
76
.
You do not currently have access to this content.