儿童致死性百日咳相关因素的Meta分析

doi:10.19485/j.cnki.issn2096-5087.2020.11.006

预防医学

2020, Vol. 32

Issue (11): 1104-1110 DOI: 10.19485/j.cnki.issn2096-5087.2020.11.006

论著

本期目录 | 过刊浏览 | 高级检索

儿童致死性百日咳相关因素的Meta分析

赵艳¹, 尹丽娟², 汤磊¹

1.重庆市巴南区人民医院儿科,重庆 401320;
2.重庆医科大学附属儿童医院

A meta analysis of associated factors for fatal pertussis in children

ZHAO Yan^*, YIN Lijuan, TANG Lei

^*Department of Pediatrics, People's Hospital of Chongqing Banan District, Chongqing 401320, China

摘要
参考文献
相关文章
Metrics

全文: PDF(894 KB)
输出: BibTeX | EndNote (RIS)

摘要目的系统评价儿童致死性百日咳的相关因素,为儿童致死性百日咳防治提供依据。方法检索中国知网、中国学术期刊数据库、中国生物医学文献数据库、Pubmed、Embase、Ovid、Web of Science等文献数据库,收集建库至2020年5月有关儿童致死性百日咳相关因素的分析性研究。采用加权均数差（WMD）或比值比（OR）评估儿童致死性百日咳的相关因素。结果检索文献5 418篇,纳入符合条件的文献16篇。Meta分析结果显示,女童（OR=1.36,95%CI：1.13~1.64）、出生体重低（WMD=-0.21,95%CI：-0.40~-0.03）、年龄小（WMD=-15.54,95%CI：-28.97~-2.10）、孕周短（WMD=-0.96,95%CI：-1.77~-0.16）、接种疫苗（OR=0.20,95%CI：0.11~0.36）、惊厥（OR=9.88,95%CI：6.94~14.08）、痉挛样咳嗽（OR=0.61,95%CI：0.47~0.78）、呼吸频率增快（WMD=10.68,95%CI：3.41~17.95）、心率增快（WMD=18.01,95%CI：7.33~28.69）、血氧饱和度降低（WMD=-5.38,95%CI：-10.36~-0.39）、白细胞计数升高（WMD=47.70,95%CI：40.95~54.46）、淋巴细胞计数升高（WMD=17.03,95%CI：11.00~23.07）、中性粒细胞计数升高（WMD=11.22,95%CI：6.04~16.40）、合并肺动脉高压（OR=37.99,95%CI：16.76~86.13）、发展成肺炎（OR=37.65,95%CI：27.85~50.90）、合并脑病（OR=23.38,95%CI：8.21~66.54）、合并任何并发症（OR=3.00,95%CI：1.73~5.23）、机械通气（OR=38.79,95%CI：11.81~127.42）、气管插管（OR=297.36,95%CI：46.20~1 913.98）、高频通气（OR=18.34,95%CI：8.46~39.75）、体外膜肺氧合（OR=47.49,95%CI：15.53~145.21）、吸入一氧化氮（OR=25.86,95%CI：8.52~78.43）、使用血管活性药物（OR=54.42,95%CI：15.71~188.45）、换血（OR=16.77,95%CI：6.53~43.09）与儿童致死性百日咳存在统计学关联。敏感性分析显示结果基本稳定。Egger＇s检验显示痉挛样咳嗽、脑病、使用血管活性药物存在发表偏倚;Begg＇s检验显示不存在发表偏倚。结论儿童致死性百日咳与性别、年龄、出生体重、孕周及多种临床症状体征有关,需早期识别和干预,并加强预防接种。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	赵艳
	尹丽娟
	汤磊

关键词 ：致死性百日咳, 相关因素, 儿童, Meta分析

Abstract：Objective To learn the associated factors for fatal pertussis in children, so as to provide evidence for the prevention and treatment of fatal pertussis.Methods We searched Pubmed, Embase, Ovid, Web of Science, Wanfang Data, CNKI and CBM up to May of 2020 for the analytical studies about the associated factors for fatal pertussis in children, and used weighted mean difference (WMD) and odds ratio (OR) for a meta analysis.Results Finally 16 studies our of 5 418 preliminary ones were included. The meta analysis indicated that females (OR=1.36, 95%CI: 1.13-1.64) , low birth weight (WMD=-0.21, 95%CI: -0.40 - -0.03) , young age (WMD=-15.54, 95%CI: -28.97 - -2.10) , small gestational age (WMD=-0.96, 95%CI: -1.77 - -0.16), pertussis immunizations (OR=0.20, 95%CI: 0.11-0.36) , seizures (OR=9.88, 95%CI: 6.94-14.08), spasmodic cough (OR=0.61, 95%CI: 0.47-0.78), increased respiratory rate (WMD=10.68, 95%CI: 3.41-17.95) , increased heart rate (WMD=18.01, 95%CI: 7.33-28.69) , decreased percent oxygen saturation (WMD=-5.38, 95%CI: -10.36 - -0.39) , increased white blood cell counts (WMD=47.70, 95%CI: 40.95-54.46),increased absolute lymphocyte counts (WMD=17.03, 95%CI: 11.00-23.07) , increased absolute neutrophil counts (WMD=11.22, 95%CI: 6.04-16.40), pulmonary hypertension (OR=37.99, 95%CI: 16.76-86.13) , pneumonia (OR=37.65, 95%CI: 27.85-50.90) , encephalopathy (OR=23.38, 95%CI: 8.21-66.54) , any comorbidity (OR=3.00, 95%CI: 1.73-5.23), mechanical ventilation (OR=38.79, 95%CI: 11.81-127.42) , intubation (OR=297.36, 95%CI: 46.20-1 913.98), high-frequency ventilation (OR=18.34, 95%CI: 8.46-39.75) , extracorporeal membrane oxygenation (OR=47.49, 95%CI: 15.53-145.21), inhaled nitric oxide (OR=25.86, 95%CI: 8.52-78.43), use of vasoactive drugs (OR=54.42, 95%CI: 15.71-188.45) and blood exchange transfusion (OR=16.77, 95%CI: 6.53-43.09) were associated with fatal pertussis in children. The results of sensitivity analysis were stable. The results of Egger＇s assay showed publication bias in studies about spasmodic cough, encephalopathy and use of vasoactive drugs, while Begg＇s assay showed no publication bias at all.Conclusions Fatal pertussis in children is associated with gender, age, birth weight, gestational age as well as a variety of clinical features. Early identification and intervention are needed, and vaccination should be strengthened.

Key words： fatal pertussis associated factor children meta analysis

收稿日期: 2020-04-08 修回日期: 2020-06-04 出版日期: 2020-11-10

中图分类号:

R725.6

通信作者: 尹丽娟,E-mail:yudishengyin4356@sina.com

作者简介: 赵艳,硕士,主治医师,主要从事儿童呼吸道疾病和感染性疾病诊疗工作

引用本文:

赵艳, 尹丽娟, 汤磊. 儿童致死性百日咳相关因素的Meta分析[J]. 预防医学, 2020, 32(11): 1104-1110.
ZHAO Yan, YIN Lijuan, TANG Lei. A meta analysis of associated factors for fatal pertussis in children. Preventive Medicine, 2020, 32(11): 1104-1110.

链接本文:

http://www.zjyfyxzz.com/CN/10.19485/j.cnki.issn2096-5087.2020.11.006 或 http://www.zjyfyxzz.com/CN/Y2020/V32/I11/1104

[1] KAPIL P,MERKEL T J.Pertussis vaccines and protective immunity[J].Curr Opin Immunol,2019,59:72-78.
[2] KILGORE P E,SALIM A M,ZERVOS M J,et al.Pertussis:microbiology,disease,treatment,and prevention[J].Clin Microbiol Rev,2016,29(3):449-486.
[3] KLEIN N P,BARTLETT J,ROWHANI-RAHBAR A,et al.Waning protection after fifth dose of acellular pertussis vaccine in children[J].N Engl J Med,2012,367(11):1012-1019.
[4] 许红梅. 儿科医生应高度重视百日咳再现[J].中华儿科杂志,2017,55(8):564-567.
[5] YEUNG K H T,DUCLOS P,NELSON E A S,et al.An update of the global burden of pertussis in children younger than 5 years:a modelling study[J].Lancet Infect Dis,2017,17(9):974-980.
[6] 中华医学会儿科学分会感染学组,《中华儿科杂志》编辑委员会.中国儿童百日咳诊断及治疗建议[J].中华儿科杂志,2017,55(8):568-572.
[7] 姚开虎,李丽君.重症百日咳的诊断及其死亡风险因素研究进展[J].中华实用儿科临床杂志,2019,34(22):1681-1685.
[8] 周凯,韩青.百日咳致婴儿死亡的机制和预防[J].中华实用儿科临床杂志,2017,32(22):1699-1701.
[9] MACHADO M B,PASSOS S D.severe pertussis in childhood:update and controversy-systematic review[J].Rev Paul Pediatr,2019,37(3):351-362.
[10] LICHTENSTEIN M J,MULROW C D,ELWOOD P C.Guidelines for reading case-control studies[J].J Chronic Dis,1987,40(9):893-903.
[11] STANG A.Critical evaluation of the Newcastle-Ottawa scale for the assessment of the quality of nonrandomized studies in meta-analyses[J].Eur J Epidemiol,2010,25(9):603-605.
[12] BERGER J T,CARCILLO J A,SHANLEY T P,et al.Critical pertussis illness in children:a multicenter prospective cohort study[J].Pediatr Crit Care Med,2013,14(4):356-365.
[13] POOBONI S,ROBERTS N,WESTROPE C,et al.Extracorporeal life support in pertussis[J].Pediatr Pulmonol,2003,36(4):310-315.
[14] TIWARI T S P,BAUGHMAN A L,CLARK T A.First pertussis vaccine dose and prevention of infant mortality[J].Pediatrics,2015,135(6):990-999.
[15] WILLIAMS G D,NUMA A,SOKOL J,et al.ECLS in pertussis:does it have a role?[J].Intensive Care Med,1998,24(10):1089-1092.
[16] STRANEY L,SCHIBLER A,GANESHALINGHAM A,et al.Burden and outcomes of severe pertussis infection in critically ill infants[J].Pediatr Crit Care Med,2016,17(8):735-742.
[17] ABU-RAYA B,BETTINGER J A,VANDERKOOI O G,et al.Burden of children hospitalized with pertussis in Canada in the acellular pertussis vaccine era,1999-2015[J].J Pediatric Infect Dis Soc,2020,9(2):118-127.
[18] KAZANTZI M S,PREZERAKOU A,KALAMITSOU S N,et al.Characteristics of Bordetella pertussis infection among infantsand children admitted to paediatric intensive care units in Greece:a multicentre,11-year study[J].J Paediatr Child Health,2017,53(3):257-262.
[19] DOMICO M,RIDOUT D,MACLAREN G,et al.Extracorporeal membrane oxygenation for pertussis:predictors of outcome including pulmonary hypertension and leukodepletion[J].Pediatr Crit Care Med,2018,19(3):254-261.
[20] MIKELOVA L K,HALPERIN S A,SCHEIFELE D,et al.Predictors of death in infants hospitalized with pertussis:a case-control study of 16 pertussis deaths in Canada[J].J Pediatr,2003,143(5):576-581.
[21] ROCHA G,FLôR-DE-LIMA F,SOARES P,et al.Severe pertussis in newborns and young vulnerable infants[J].Pediatr Infect Dis J,2013,32(10):1152-1154.
[22] HABERLING D L M,HOLMAN R C M S,PADDOCK C D M D,et al.Infant and maternal risk factors for pertussis-related infant mortality in the United States,1999 to 2004[J].Pediatr Infect Dis J,2009,28(3):194-198.
[23] BORGI A,MENIF K,BELHADJ S,et al.Predictors of mortality in mechanically ventilated critical pertussis in a low income country[J].Mediterr J Hematol Infect Dis,2014,6(1):e2014059.
[24] WINTER K,ZIPPRICH J,HARRIMAN K,et al.Risk factors associated with infant deaths from pertussis:a case-control study[J].Clin Infect Dis,2015,61(7):1099-1106.
[25] PALVO F,FABRO A T,CERVI M C,et al.Severe pertussis infection:a clinicopathological study[J].Medicine,2017,96(48):e8823.
[26] KAVITHA T K,SAMPRATHI M,JAYASHREE M,et al.Clinical profile of critical pertussis in children at a Pediatric Intensive Care Unit in Northern India[J].Indian Pediatr,2020,57(3):228-231.
[27] SIK Ğ,DEMIRBUG A A,ANNAYEV A,et al.The clinical characteristics and prognosis of pertussis among unvaccinated infants in the pediatric intensive care unit[J].Turk Pediatri Ars,2020,55(1):54-59.
[28] CHERRY J D,WENDORF K,BREGMAN B,et al.An observational study of severe pertussis in 100 infants≤120 days of age[J].Pediatr Infect Dis J,2018,37(3):202-205.
[29] HALASA N B,BARR F E,JOHNSON J E,et al.Fatal pulmonary hypertension associated with pertussis in infants:does extracorporeal membrane oxygenation have a role?[J].Pediatrics,2003,112(1):1274-1278.
[30] LANGKAMP D L,DAVIS J P.Increased risk of reported pertussis and hospitalization associated with pertussis in low birth weight children[J].J Pediatr,1996,128(1):654-659.
[31] MARSHALL H,CLARKE M,RASIAH K,et al.Predictors of disease severity in children hospitalized for pertussis during an epidemic[J].Pediatr Infect Dis J,2015,34(4):339-345.
[32] CHIN L K,BURGNER D,BUTTERY J,et al.Pertussis encephalopathy in an infant[J].Arch Dis Child,2013,98(2):163.
[33] OLSEN M,THYGESEN S K,ØSTERGAARD J R,et al.Hospital-diagnosed pertussis infection in children and long-term risk of epilepsy[J].JAMA,2015,314(17):1844-1849.
[34] SCANLON K,SKERRY C,CARBONETTI N.Association of pertussis toxin with severe pertussis disease[J].Toxins,2019,11(7):373.
[35] PILORGET H,MONTBRUN A,ATTALI T,et al.Malignant pertussis in the young infant[J].Arch Pediatr,2003,10(9):787-790.
[36] GREGG K A,MERKEL T J.Pertussis toxin:a key component in pertussis vaccines?[J].Toxins,2019,11(10):557.
[37] TIAN S F,WANG H M,DENG J K.Fatal malignant pertussis with hyperleukocytosis in a Chinese infant:a case report and literature review[J].Medicine,2018,97(17):e0549.
[38] KUNDRAT S L,WOLEK T L,ROWE-TELOW M.Malignant pertussis in the pediatric intensive care unit[J].Dimens Crit Care Nurs,2010,29(1):1-5.
[39] CHANTREUIL J,FAKHRI N,LABARTHE F,et al.Malignant pertussis and exchange transfusion[J].Arch Pediatr,2015,22(1):84-87.
[40] KUPERMAN A,HOFFMANN Y,GLIKMAN D,et al.Severe pertussis and hyperleukocytosis:is it time to change for exchange?[J].Transfusion,2014,54(6):1630-1633.

[1]	何佳, 徐方忠, 汤路瀚, 余鸽, 韩煜昉. 注意缺陷多动障碍儿童优势反应抑制缺陷与注意缺陷、冲动行为的关联研究[J]. 预防医学, 2023, 35(9): 766-769.
[2]	贾铭, 彭菊意, 刘星宇, 刘宇丹, 赵华. 心血管代谢性共病危险因素的Meta分析[J]. 预防医学, 2023, 35(9): 790-795.
[3]	刘溦, 宋杰, 陈伟伟, 叶丁, 毛盈颖. 硒水平与慢性肾脏病关联的Meta分析[J]. 预防医学, 2023, 35(8): 669-676.
[4]	柏旭, 苏洁, 李凤, 徐倩, 沈源, 肖凌凤. 我国成人糖尿病视网膜病变影响因素的Meta分析[J]. 预防医学, 2023, 35(7): 595-601.
[5]	马艳艳, 陈小劲, 赵月. 朝阳区3~6岁儿童体质健康调查[J]. 预防医学, 2023, 35(7): 615-619.
[6]	安静, 李辉, 盛红斌, 蒋琦. 2012—2021年湖州市5岁以下儿童死亡监测资料分析[J]. 预防医学, 2023, 35(7): 628-631.
[7]	段恬筱, 黄希汇, 刘诗川, 胡薇薇, 刘涛, 李亚, 岑斌. 新型冠状病毒感染流行期间医护人员职业倦怠的Meta分析[J]. 预防医学, 2023, 35(6): 526-532.
[8]	方子思, 廖辉, 周筱丛, 徐虹. 我国公共场所集中空调通风系统嗜肺军团菌污染的Meta分析[J]. 预防医学, 2023, 35(5): 425-430.
[9]	卢小敏, 赵继娟, 孙中友, 张学艳, 陈盛兰. 盐城市儿童青少年健康危险行为聚集情况调查[J]. 预防医学, 2023, 35(4): 331-334.
[10]	周洁, 谭自明, 茹凉. 1990年与2019年中国0~14岁儿童肿瘤疾病负担分析[J]. 预防医学, 2023, 35(3): 205-209.
[11]	关新朋, 徐洪兵, 方嘉堃, 朱雨桐, 刘凌燕, 赵茜, 宋晓明, 徐保平, 黄薇. 大气NO_X和NO₂急性暴露与儿童呼吸系统疾病门诊量的关联研究[J]. 预防医学, 2023, 35(3): 185-189,195.
[12]	钱晓萍, 凌健, 刘腾. 吴兴区6岁以下儿童手足口病流行特征分析[J]. 预防医学, 2023, 35(3): 243-245,249.
[13]	张家佳, 陈小玉, 卿雪莲. 我国空巢老人跌倒发生率的Meta分析[J]. 预防医学, 2023, 35(10): 844-848,855.
[14]	吴伟丽, 丁军, 张晓强. 气管支气管结核患儿并发肺不张的影响因素分析[J]. 预防医学, 2023, 35(10): 907-910.
[15]	毛光明, 莫哲, 顾思萌, 黄学敏, 王鸳鸯, 李雪青, 陈志健, 王晓峰. 浙江省8~10岁儿童碘营养水平与甲状腺肿调查[J]. 预防医学, 2022, 34(9): 914-918.

Viewed

Full text

Abstract

Cited

Shared

Discussed