Clinical feature and etiological analysis of 101 neonates with central nervous system infection
10.3760/cma.j.issn.1673-4912.2023.08.004
- VernacularTitle:新生儿中枢神经系统感染101例临床特征及病原学分析
- Author:
Yu LIU
1
;
Weicong PU
;
Le WANG
;
Yinghui GUO
;
Jiancheng JIAO
;
Yaofang XIA
;
Li MA
Author Information
1. 河北医科大学附属河北省儿童医院新生儿科,石家庄 050031
- Keywords:
Newborn;
Central nervous system infection;
Polymerase chain reaction;
Metagenomic next-generation sequencing
- From:
Chinese Pediatric Emergency Medicine
2023;30(8):578-583
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To analyze the clinical features and etiological results of neonatal central nervous system(CNS) infection and provide basis for optimization of pathogen detection strategy for CNS infection.Methods:We collected the clinical and laboratory data of hospitalized neonates with clinical diagnosis of CNS infection in the neonatal department at Hebei Provincial Children′s Hospital, from January 1, 2020 to August 31, 2021.The clinical manifestations of the enrolled neonates, as well as the cerebrospinal fluid(CSF)pathogens detected by conventional and molecular biological detection techniques were analyzed.Laboratory characteristics of different kinds of pathogen were compared.Results:A total of 101 eligible neonates were enrolled.The median gestational age was 38.8(36.2, 39.6)weeks, with a prematurity rate 26.7%.There were 68 boys.The median age of onset was 9(2, 14)days.Blood culture was positive in 19(18.8%) cases, including 17 cases of bacteria and two cases of fungus.Positive findings were found in CSF specimens of 33(32.7%)cases by various methods including 13 bacteria, 19 viruses and one fungi.Streptococcus group B and Escherichia coli were the first two bacteria in CSF.Enterovirus was the most common virus in CSF.In terms of detection methods of CSF pathogens, seven cases(7/101, 6.9%) were detected by CSF culture, two cases(2/21, 9.5%)by smear, 22 cases(22/45, 48.9%)by single-virus targeted/multiplex polymerase chain reaction and four cases(4/7, 57.1%)by metagenomic next-generation sequencing.The CSF white blood cell counts, protein levels and blood C-reactive protein levels were higher in the cases with bacteria/fungi detection from CNS infection than in those with virus detection( P<0.05). Almost all neonates(98/101, 97.0%)were clinically cured or significantly improved before discharge.Two neonates were discharged against medical advice and one neonate was transferred to the other hospital after clinical improvement. Conclusion:Combined use of conventional and molecular biological detection techniques can significantly improve the etiological positive rate of neonatal CNS infection.Viral infection is not rare in the neonatal population.Our study demonstrated the spectrum of organism causing neonatal CNS infection, which provided a basis for the optimization of pathogen detection strategy.