Abstract
•tNGS identified pathogenic infections in 99.09% of these patients.•76.36% of children with severe pneumonia had mixed infections.•The main infectious pathogens were MP, HRSV and HHV.•40% of the severe pneumonia required admission to the ICU.
Severe pneumonia in children represents a significant clinical challenge due to its high incidence and associated mortality. This study aimed to assess the distribution of pathogens and patterns of infection in pediatric patients with severe pneumonia.
This study included 110 pediatric patients diagnosed with severe pneumonia, who were admitted to Guangxi Maternal and Child Health Hospital between July 2021 and November 2023. Pathogen-targeted next-generation sequencing (tNGS) was employed to identify respiratory pathogens in these cases.
Pathogens were detected in 109 out of 110 cases, yielding a positive detection rate of 99.09%. Among these cases, 25 (22.72%) involved single-pathogen infections, while 84 (76.36%) were characterized by mixed infections. The infection pattern in children with severe pneumonia was relatively common with bacterial-viral coinfection (28.2%, 31/110). A total of 39 pathogens were identified from the 110 children with severe pneumonia, with the top three pathogens being Mycoplasma pneumoniae (30.91%, 34/110), Human Respiratory Syncytial Virus Type A (26.36%, 29/110), and Human Herpesvirus (18.18%, 20/110). Notably, 38.2% (13/34) of the cases were found to have macrolide-resistant Mycoplasma pneumoniae (MRMP). Additionally, 40% (44/110) of the children required admission to the intensive care unit (ICU).
The application of tNGS demonstrates significant utility in the detection of pathogens in pediatric patients with severe pneumonia. The predominant pathogens identified in this study are Mycoplasma pneumoniae, Human Respiratory Syncytial Virus, and Human Herpesvirus. Furthermore, mixed infections involving multiple pathogens were observed in 76.36% of the cases, and a substantial proportion (40%) of these patients necessitated intensive care.