川崎病患儿并发冠状动脉损伤的风险因素及列线图预测模型构建

doi:10.12183/j.scjpm.2024.1136

Abstract

Abstract: Objective To analyze the risk factors of coronary artery lesions (CAL) in children with Kawasaki disease and construct a nomogram prediction model for Kawasaki disease concurrent CAL. Methods A total of 220 children with Kawasaki disease who received treatment in cardiovascular department of Wuhan Children's Hospital from January 2021 to December 2023 were collected and divided into an analysis group (172 cases) and a validation group (48 cases). By analyzing the risk factors of Kawasaki disease concurrent CAL through univariate analysis and multivariate logistic regression analysis, a nomogram prediction model for Kawasaki disease concurrent CAL was constructed using R software, and the prediction model was validated using receiver operating characteristic (ROC) curves and calibration curves. Results In the analysis group of 172 Kawasaki disease cases, 42 developed CAL, with an incidence rate of 24.42% (42/172). Multivariate logistic regression analysis indicated that red blood cell distribution width (RDW) > 13.3% (OR=3.838), white blood cell count (WBC) > 10×10⁹/L (OR=2.363), cardiac troponin-I (cTnI) > 0.5 μg/L (OR=3.644), and C-reactive protein (CRP) > 50 mg/L (OR=4.614) were independent risk factors for Kawasaki disease concurrent CAL (all P<0.05). The area under the curve (AUC) of the nomogram prediction model for the analysis group was 0.851, and for the validation group, it was 0.920, indicating good consistency of the prediction model, with no significant difference in the goodness-of-fit test between the analysis group and validation group (P=0.573). Conclusion A nomogram prediction model composed of RDW, WBC, cTnI, and CRP may help guide the prevention of Kawasaki disease concurrent CAL.

Key words: Kawasaki disease, Coronary artery lesions, Risk factors, Nomogram model, Red blood cell distribution width, White blood cell, Troponin cardiac troponin-I

CLC Number:

R174

XIA Kun, ZHANG Yong, ZHOU Dan. Risk factors for coronary artery lesions in children with Kawasaki disease and construction of a nomogram prediction model[J].South China Journal of Preventive Medicine, 2024, 50(12): 1136-1139.

References

[1] 黄国英. 川崎病流行病学研究进展和思考[J]. 中国小儿急救医学,2020,27(9):641-644.
[2] Fukazawa R, Kobayashi J, Ayusawa M, et al.JCS/JSCS 2020 guideline on diagnosis and management of cardiovascular sequelae in Kawasaki disease[J]. Circ J, 2020, 84(8): 1348-1407.
[3] 钱翠平,黄晓碧,赵胜,等. 儿童川崎病冠状动脉损伤危险因素logistic回归分析[J]. 安徽医科大学学报,2023,58(3):490-494.
[4] Chen Y, Yang M, Zhang M, et al.Single-cell transcriptome reveals potential mechanisms for coronary artery lesions in Kawasaki disease[J]. Arterioscler Thromb Vasc Biol, 2024, 44(4): 866-882.
[5] Dong Z, Li M, Zhang Y, et al.Combined detection of vitamin D, CRP and TNF-α has high predictive value for osteoporosis in elderly men[J]. Am J Transl Res, 2023, 15(8): 5536-5542.
[6] 樊志丹,俞海国,胡坚,等. 中国儿童血管炎诊断与治疗系列专家共识之四——川崎病[J]. 中国实用儿科杂志,2023,38(7):481-488.
[7] 胡慧敏,陈笑征,张永兰,等. 川崎病急性期肝损害与冠状动脉损伤和免疫球蛋白无反应的关系[J]. 中国当代儿科杂志,2022,24(6):681-686.
[8] Qian B, Huang H, Cheng M, et al.Mechanism of HMGB1-RAGE in Kawasaki disease with coronary artery injury[J]. Eur J Med Res, 2020, 25(1): 8.
[9] 王亮,司萍,沈永明. 川崎病诊断相关生物学标志物的研究现状及进展[J]. 临床儿科杂志,2020,38(10):789-793.
[10] 周进,谢圭,罗叶萍,等. 白细胞介素12A基因rs568408位点多态性与川崎病及其合并冠状动脉损伤的关联性研究[J]. 中国临床药理学杂志,2020,36(15):2186-2188.
[11] 郭鑫,刘琮,王国兵,等. 川崎病冠状动脉内皮细胞损伤的定量蛋白组学研究与生物信息学分析[J]. 中国当代儿科杂志,2020,22(7):796-803.
[12] 孙佳莹,付茜,辛雨,等. QT离散度对川崎病患儿发生冠状动脉损伤及其预后的预测价值[J]. 中国医科大学学报,2023,52(3):193-198.
[13] Peng Y, Cheng Z, Yi Q.A practical nomogram for predicting coronary thrombosis for Kawasaki disease patients with medium or large coronary artery aneurysm[J]. Clin Exp Med, 2023, 23(4): 1317-1324.
[14] Chen L, Shangguan Z, Dong Z, et al.NFIL3 aggravates human coronary artery endothelial cell injury by promoting ITGAM transcription in Kawasaki disease[J]. Hematology, 2023, 28(1): 2277502.
[15] Liu XP, Huang YS, Kuo HC, et al.A novel nomogram model for differentiating Kawasaki disease from sepsis[J]. Sci Rep, 2020, 10(1):13745.
[16] 郭健秋,赵青,赖雪芹,等. 川崎病患儿冠状动脉病变与多种血液指标的相关性[J]. 热带医学杂志,2020,20(6):795-798.
[17] 康伟莉,石和丝,马忠正,等. 外周血细胞因子在川崎病合并流感病毒感染患儿中的表达水平[J]. 热带医学杂志,2022,22(1):124-127,140.
[18] 石和丝,康伟莉,马忠正,等. 血清TNF-α、IL-6、IFN-γ及CD3+、CD4+、CD8+在川崎病合并流感病毒感染患儿中的检测价值[J]. 热带医学杂志,2024,24(3):401-404,453.
[19] 邱佳韵,周国平. 川崎病冠状动脉损伤机制免疫遗传研究进展[J]. 临床儿科杂志,2023,41(1):66-72.
[20] 王淑敏,李雪军,张奕星,等. 肺炎支原体感染与小儿皮肤黏膜淋巴结综合征发生冠状动脉损伤相关性的Meta分析[J]. 中国全科医学,2023,26(20):2532-2539.
[21] Liu J, Su D, Yuan P, et al.Prognostic nutritional index value in the prognosis of Kawasaki disease with coronary artery lesions[J]. Front Nutr, 2023, 10: 1075619.
[22] 童文静,陈晓华,黄建芳,等. 川崎病患儿颈动脉内膜-中层厚度、踝肱指数分析及其与冠状动脉病变程度的相关性[J]. 中华医学超声杂志(电子版),2021,18(2):207-211.
[23] Zhang J, Zhuge Y, Rong X, et al.Protective roles of xijiao dihuang tang on coronary artery injury in Kawasaki Disease[J]. Cardiovasc Drugs Ther, 2023, 37(2): 257-270.
[24] 梁鹏,娄莹,崔怀亮,等. 川崎病合并MP感染患儿冠状动脉损伤及炎症因子水平[J]. 中华医院感染学杂志,2023,33(19):3013-3017.
[25] Ding Y, Peng Y, Wu H, et al.The protective roles of liraglutide on Kawasaki disease via AMPK/mTOR/NF-κB pathway[J]. Int Immunopharmacol, 2023, 117: 110028.
[26] Wang H, Shimizu C, Bainto E, et al.Subgroups of children with Kawasaki disease: A data-driven cluster analysis[J]. Lancet Child Adolesc Health, 2023, 7(10): 697-707.

Risk factors for coronary artery lesions in children with Kawasaki disease and construction of a nomogram prediction model

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