Introduction: This study aimed to investigate the correlation between serum interleukin (IL)-17A levels and responsiveness to intravenous immunoglobulin (IVIG) therapy in Kawasaki disease (KD) patients. Methods: A retrospective analysis on data from 192 KD patients admitted to the Anqing Municipal Hospital between January 2021 and January 2024 was conducted. Patients were categorized into IVIG-nonresponsive and IVIG-sensitive groups as per the treatment outcomes. Outcome measures included serum IL-17A levels, left coronary artery (LCA) Z scores, and relevant laboratory parameters. Logistic regression analysis was performed to identify predictive factors for IVIG responsiveness, and diagnostic performance was assessed using receiver operating characteristic (ROC) curves and calculation of the area under the curve (AUC). Results: A total of 40 IVIG-nonresponsive cases and 152 IVIG-sensitive cases were included. Prior to intervention, IVIG-nonresponsive patients had significantly higher serum IL-17A levels compared to IVIG-sensitive patients, with a statistically significant difference. After intervention, serum IL-17A levels significantly decreased in IVIG-sensitive patients while remaining elevated in IVIG-nonresponsive patients. IVIG-nonresponsive patients exhibited significantly higher levels of C-reactive protein (CRP), white blood cell count (WBC), NE, and ALT compared to IVIG-sensitive patients, whereas no significant differences in LCA Z scores between the two groups existed. Multivariable logistic regression analysis identified pre-IL-17A, CRP, WBC, and ALT as independent predictors of IVIG-nonresponsiveness in KD. When pre-IL-17A was ≥39.96 pg/mL, the specificity and sensitivity for predicting IVIG-nonresponsive KD were 63.9% and 71.9%, respectively, with an AUC of 0.637. The combined diagnosis of IL-17A, CRP, WBC, and ALT yielded an AUC of 0.780. Conclusion: Serum IL-17A levels were remarkably elevated in IVIG-nonresponsive KD patients both before and after intervention. A serum IL-17A level (≥39.96 pg/mL) demonstrated good predictive profile for IVIG-nonresponsive KD, and combining IL-17A with CRP, WBC, and ALT improved diagnostic performance.

1.
Li
M
,
Zheng
Z
,
Yi
Q
.
The landscape of hot topics and research frontiers in Kawasaki disease: scientometric analysis
.
Heliyon
.
2024
;
10
(
8
):
e29680
.
2.
Zhang
L
,
Shi
L
,
Zhang
R
,
Lin
X
,
Bao
Y
,
Jiang
F
, et al
.
Immune control in Kawasaki disease knowledge mapping: a bibliometric analysis
.
Cardiol Young
.
2024
:
1
16
.
3.
Shrestha
S
,
Wiener
HW
,
Chowdhury
S
,
Kajimoto
H
,
Srinivasasainagendra
V
,
Mamaeva
OA
, et al
.
Pharmacogenomics of coronary artery response to intravenous gamma globulin in Kawasaki disease
.
medRxiv
.
2024
;
9
(
1
):
34
.
4.
Kuo
NC
,
Lin
CH
,
Lin
MC
.
Comparative effectiveness of two intravenous immunoglobulin products in children with Kawasaki disease, a nationwide cohort study
.
Sci Rep
.
2023
;
13
(
1
):
18629
.
5.
Zahari
N
,
Bah
MNM
,
Sulieman
MF
,
Choo
HL
.
Intravenous immunoglobulin-resistant Kawasaki disease: risk factors in children in a middle-income country
.
Ann Pediatr Cardiol
.
2023
;
16
(
2
):
102
8
.
6.
Furuta
T
,
Yasudo
H
,
Okada
S
,
Ohnishi
Y
,
Kawakami-Miyake
A
,
Suzuki
Y
, et al
.
Third-line therapies in patients with Kawasaki disease refractory to first- and second-line intravenous immunoglobulin therapy
.
World J Pediatr
.
2022
;
18
(
11
):
781
5
.
7.
Gu
C
,
Wu
L
,
Li
X
.
IL-17 family: cytokines, receptors and signaling
.
Cytokine
.
2013
;
64
(
2
):
477
85
.
8.
Kirkham
BW
,
Kavanaugh
A
,
Reich
K
.
Interleukin-17A: a unique pathway in immune-mediated diseases: psoriasis, psoriatic arthritis and rheumatoid arthritis
.
Immunology
.
2014
;
141
(
2
):
133
42
.
9.
Jia
S
,
Li
C
,
Wang
G
,
Yang
J
,
Zu
Y
.
The T helper type 17/regulatory T cell imbalance in patients with acute Kawasaki disease
.
Clin Exp Immunol
.
2010
;
162
(
1
):
131
7
.
10.
Brodeur
KE
,
Liu
M
,
Ibanez
D
,
de Groot
MJ
,
Chen
L
,
Du
Y
, et al
.
Elevation of IL-17 cytokines distinguishes Kawasaki disease from other pediatric inflammatory disorders
.
Arthritis Rheumatol
.
2024
;
76
(
2
):
285
92
.
11.
McCrindle
BW
,
Rowley
AH
,
Newburger
JW
,
Burns
JC
,
Bolger
AF
,
Gewitz
M
, et al
.
Diagnosis, treatment, and long-term management of Kawasaki disease: a scientific statement for health professionals from the American heart association
.
Circulation
.
2017
;
135
(
17
):
e927
99
.
12.
Huangfu
L
,
Li
R
,
Huang
Y
,
Wang
S
.
The IL-17 family in diseases: from bench to bedside
.
Signal Transduct Target Ther
.
2023
;
8
(
1
):
402
.
13.
Fukazawa
R
,
Ogawa
S
.
Long-term prognosis of patients with Kawasaki disease: at risk for future atherosclerosis
.
J Nippon Med Sch
.
2009
;
76
(
3
):
124
33
.
14.
Inoue
T
,
Miyashita
M
,
Murakami
S
,
Igarashi
A
,
Motomura
K
,
Abe
J
, et al
.
IL-1β and IL-17A are involved in IVIG resistance through activation of C/EBPβ and δ in a coronary artery model of Kawasaki disease
.
Allergy
.
2020
;
75
(
8
):
2102
5
.
15.
Afzali
B
,
Mitchell
P
,
Lechler
RI
,
John
S
,
Lombardi
G
.
Translational mini-review series on Th17 cells: induction of interleukin-17 production by regulatory T cells
.
Clin Exp Immunol
.
2010
;
159
(
2
):
120
30
.
16.
Son
MBF
,
Gauvreau
K
,
Kim
S
,
Tang
A
,
Dedeoglu
F
,
Fulton
DR
, et al
.
Predicting coronary artery aneurysms in Kawasaki disease at a north American center: an assessment of baseline z scores
.
J Am Heart Assoc
.
2017
;
6
:
e005378
.
17.
Rife
E
,
Gedalia
A
.
Kawasaki disease: an update
.
Curr Rheumatol Rep
.
2020
;
22
(
10
):
75
.
18.
Liao
JW
,
Guo
X
,
Li
XX
,
Xian
JM
,
Chen
C
,
Xu
MG
.
Exploring the diagnostic value of CLR and CPR in differentiating Kawasaki disease from other infectious diseases based on clinical predictive modeling
.
Front Pediatr
.
2024
;
12
:
1345141
.
19.
Bai
L
,
Feng
T
,
Yang
L
,
Zhang
Y
,
Jiang
X
,
Liao
J
, et al
.
Retrospective analysis of risk factors associated with Kawasaki disease in China
.
Oncotarget
.
2017
;
8
(
33
):
54357
63
.
20.
Kobayashi
T
,
Inoue
Y
,
Takeuchi
K
,
Okada
Y
,
Tamura
K
,
Tomomasa
T
, et al
.
Prediction of intravenous immunoglobulin unresponsiveness in patients with Kawasaki disease
.
Circulation
.
2006
;
113
(
22
):
2606
12
.
21.
Lin
IC
,
Suen
JL
,
Huang
SK
,
Chou
MH
,
Kuo
HC
,
Lo
MH
, et al
.
Involvement of IL-17 A/IL-17 receptor A with neutrophil recruitment and the severity of coronary arteritis in Kawasaki disease
.
J Clin Immunol
.
2024
;
44
(
3
):
77
.
22.
Liu
XP
,
Huang
YS
,
Xia
HB
,
Sun
Y
,
Lang
XL
,
Li
QZ
, et al
.
A nomogram model identifies eosinophilic frequencies to powerfully discriminate Kawasaki disease from febrile infections
.
Front Pediatr
.
2020
;
8
:
559389
.
23.
Yang
Y
,
Liu
X
,
Liu
R
,
Shen
L
,
Li
Z
,
Yang
Z
.
Relationship between IL-17A gene polymorphism and susceptibility to Kawasaki disease
.
Zhong Nan Da Xue Xue Bao Yi Xue Ban
.
2023
;
48
(
7
):
986
94
.
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