AI Article Synopsis

  • The human microbiome develops quickly in early childhood and is affected by factors like diet, delivery method, and antibiotic exposure.
  • An exploratory study involving 50 children ages 1-6 utilized gene sequencing to analyze their gut and nasopharyngeal microbiomes.
  • Results showed differences in bacterial composition based on age, antibiotic use, and probiotic intake, highlighting how antibiotics can alter microbial diversity and potentially lead to increased colonization of harmful bacteria.

Article Abstract

Background: The human microbiome evolves rapidly in early life with contributions from various factors such as diet, delivery mode, medical history, antibiotics exposure, genetics, immunomodulators and the environment. A high use of antibiotics in pediatric outpatient settings has been well documented, and improvement in antibiotic selection is required to reduce the risks of antibiotic resistance and disruption of the microbiome.

Methods: We performed an exploratory study using 16S rRNA gene-based sequencing to characterize the gut and nasopharyngeal microbiome of children (n = 50) age 1-6 years of age in a pediatric otolaryngology practice.

Results: Relative abundance of Haemophilus and Moraxella were higher in nasopharyngeal swabs, while Prevotella, Bacteroides, Porphyromonas and Faecalibacterium were highly abundant in rectal swabs. The gut microbiome composition in children <2 years old was different compared with children ≥2 years age. Gut bacterial diversity increased with an increase in age of the children. Children taking probiotics had a notable increase in abundance of potentially beneficial gut bacteria such as Bacteroides and Akkermansia. The nasopharyngeal microbiome differed between children who received antibiotics in the 3 months before sample collection compared with those that did not. Haemophilus spp. was highly abundant in children who received antibiotics 3 months before sampling.

Conclusions: The pediatric nasopharyngeal and rectal microbiomes differ in bacterial composition and diversity. The increased abundance of Haemophilus spp. in the nasopharyngeal microbiome of children who received antibiotics during the 3 months before sampling suggests a potential impact of antibiotics in colonization with the otopathogen and may be relevant to clinical practice.

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Source
http://dx.doi.org/10.1097/INF.0000000000002703DOI Listing

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