Introduction: Hemoadsorption, an extracorporeal apheresis technique, is reportedly used in severe COVID-19 patients. However, limited evidence from randomized clinical trials supports this practice. Methods: In this single-center study, severe COVID-19 patients requiring ICU admission were randomly assigned (1:1) to receive HA-330 hemoadsorption in combination with standard treatment or standard therapy alone. Both groups received tocilizumab intravenously if their clinical conditions worsened within 24–48 h. The primary outcome was mortality from any cause within 28 days after randomization. Secondary outcomes included mechanical ventilator-free days, daily C-reactive protein levels, oxygenation (defined by PaO2/FiO2 ratio), daily sequential organ failure assessment score, and severity score of lung infiltration on chest X-rays (CXR RALE score). Results: A total of 28 patients underwent randomization, with 14 (50%) receiving HA-330 hemoadsorption. Only 9 out of 14 patients (64.3%) in the control group experienced clinical worsening and were subsequently administered intravenous tocilizumab. At 28 days, the mortality rate was significantly lower in the intervention group (28.57% vs. 78.57%, p = 0.021), with a hazard ratio of death of 0.26 (95% CI = 0.08–0.81; p = 0.021). All of secondary outcomes were comparable in both groups. Conclusion: Based on our pilot randomized trial, the early application of HA-330 hemoadsorption in patients with severe COVID-19 may establish a favorable outcome in term of mortality. These data provide the initial proof of concept for conducting a large-scale study in the future.

1.
Ruan
Q
,
Yang
K
,
Wang
W
,
Jiang
L
,
Song
J
.
Clinical predictors of mortality due to COVID-19 based on an analysis of data of 150 patients from Wuhan, China
.
Intensive Care Med
.
2020
;
46
(
5
):
846
8
.
2.
Fajgenbaum
DC
,
June
CH
.
Cytokine storm
.
N Engl J Med
.
2020
;
383
(
23
):
2255
73
.
3.
Kim
JS
,
Lee
JY
,
Yang
JW
,
Lee
KH
,
Effenberger
M
,
Szpirt
W
, et al
.
Immunopathogenesis and treatment of cytokine storm in COVID-19
.
Theranostics
.
2021
;
11
(
1
):
316
29
.
4.
Ronco
C
,
Bagshaw
SM
,
Bellomo
R
,
Clark
WR
,
Husain-Syed
F
,
Kellum
JA
, et al
.
Extracorporeal blood purification and organ support in the critically Ill patient during COVID-19 pandemic: expert review and recommendation
.
Blood Purif
.
2021
;
50
(
1
):
17
27
.
5.
Nadim
MK
,
Forni
LG
,
Mehta
RL
,
Connor
MJ
Jr
,
Liu
KD
,
Ostermann
M
, et al
.
COVID-19-associated acute kidney injury: consensus report of the 25th acute disease quality initiative (ADQI) workgroup
.
Nat Rev Nephrol
.
2020
;
16
(
12
):
747
64
.
6.
Xu
X
,
Jia
C
,
Luo
S
,
Li
Y
,
Xiao
F
,
Dai
H
, et al
.
Effect of HA330 resin-directed hemoadsorption on a porcine acute respiratory distress syndrome model
.
Ann Intensive Care
.
2017
;
7
(
1
):
84
.
7.
Mikaeili
H
,
Taghizadieh
AP
,
Nazemiyeh
M
,
Rezaeifar
P
,
Zununi Vahed
S
,
Safiri
S
, et al
.
The early start of hemoperfusion decreases the mortality rate among severe COVID-19 patients: a preliminary study
.
Hemodial Int
.
2021
;
26
(
2
):
176
82
.
8.
Surasit
K
,
Srisawat
N
.
The efficacy of early additional hemoperfusion therapy for severe COVID-19 patients: a prospective cohort study
.
Blood Purif
.
2022
;
51
(
11
):
879
88
.
9.
Alhazzani
W
,
Evans
L
,
Alshamsi
F
,
Moller
MH
,
Ostermann
M
,
Prescott
HC
, et al
.
Surviving sepsis campaign guidelines on the management of adults with coronavirus disease 2019 (COVID-19) in the ICU: first update
.
Crit Care Med
.
2021
;
49
(
3
):
e219
34
.
10.
Setiawati
R
,
Widyoningroem
A
,
Handarini
T
,
Hayati
F
,
Basja
AT
,
Putri
ARDS
, et al
.
Modified chest X-ray scoring system in evaluating severity of COVID-19 patient in Dr. Soetomo General Hospital Surabaya, Indonesia
.
Int J Gen Med
.
2021
;
14
:
2407
12
.
11.
Julious
SA
.
Sample size of 12 per group rule of thumb for a pilot study
.
Pharmaceut Stat
.
2005
;
4
:
287
91
.
12.
ARDS Definition Task Force
;
Ranieri
VM
,
Rubenfeld
GD
,
Thompson
BT
,
Ferguson
ND
,
Caldwell
E
, et al
.
Acute respiratory distress syndrome: the Berlin Definition
.
JAMA
.
2012
;
307
(
23
):
2526
33
.
13.
Dai
X
,
Zhang
Y
,
Yu
L
,
Jiang
Y
,
Chen
L
,
Chen
Y
, et al
.
Effect of artificial liver blood purification treatment on the survival of critical ill COVID-19 patients
.
Artif Organs
.
2021
;
45
(
7
):
762
9
.
14.
Friesecke
S
,
Stecher
SS
,
Gross
S
,
Felix
SB
,
Nierhaus
A
.
Extracorporeal cytokine elimination as rescue therapy in refractory septic shock: a prospective single-center study
.
J Artif Organs
.
2017
;
20
(
3
):
252
9
.
15.
Stockmann
H
,
Keller
T
,
Buttner
S
,
Jorres
A
,
Kindgen-Milles
D
,
Kunz
JV
, et al
.
CytoResc - “CytoSorb” Rescue for critically ill patients undergoing the COVID-19 Cytokine Storm: a structured summary of a study protocol for a randomized controlled trial
.
Trials
.
2020
;
21
(
1
):
577
.
16.
Darazam
IA
,
Kazempour
M
,
Amin
M
,
Hatami
F
,
Rabiei
MM
,
Gharehbagh
FJ
, et al
.
Efficacy of hemoperfusion in severe and critical cases of COVID-19
.
2021
. Epub ahead of print.
17.
Supady
A
,
Weber
E
,
Rieder
M
,
Lother
A
,
Niklaus
T
,
Zahn
T
, et al
.
Cytokine adsorption in patients with severe COVID-19 pneumonia requiring extracorporeal membrane oxygenation (CYCOV): a single centre, open-label, randomised, controlled trial
.
Lancet Respir Med
.
2021
;
9
(
7
):
755
62
.
You do not currently have access to this content.