Identification of the Bacterial Reservoirs for the Middle Ear Using Phylogenic Analysis.
JAMA Otolaryngol Head Neck Surg. 2016 Nov 3;:
Authors: Chan CL, Wabnitz D, Bassiouni A, Wormald PJ, Vreugde S, Psaltis AJ
Abstract
Importance: The adenoid pad has long been considered a reservoir for bacteria in the pathogenesis of otitis media with effusion (OME). However, bacteria more reminiscent of external auditory canal (EAC) commensals are often demonstrated within middle ear aspirates.
Objective: To compare the microbiota of the EAC, the middle ear with OME, and the adenoid pad to further clarify the true source of middle ear bacteria.
Design, Setting, and Participants: Middle ear fluid (MEF) aspirates and EAC lavages were collected from 18 children with OME undergoing ventilation tube insertion from June 1, 2014, to August 31, 2015, at Women and Children's Hospital, Adelaide, Australia. Adenoid pad and MEF samples were included from a previous study. Samples were analyzed using sequencing of the 16S ribosomal RNA gene. Previously collected microbiota data from the adenoid pad were collated for analysis.
Main Outcome Measures: Mean relative abundance of top bacterial genera for the MEF, EAC, and adenoid pad samples.
Results: Eighteen pediatric patients with chronic OME (6 female; 12 male; mean [SD] age, 48 [36] months) were recruited prospectively, with 34 paired MEF and EAC samples. The MEF microbiota (mean relative abundance [SD]) consisted of Alloiococcus otitidis (37.5% [40.0%]), Haemophilus (14.4% [29.1%]), Moraxella (10.0% [26.4%]), Staphylococcus (8.2% [21.9%]), and Streptococcus (3.8% [13.1%]). The mean relative abundance (SD) microbiota of the EAC demonstrated a sparsity of classic otopathogens, including Haemophilus (0.3% [0.8%]), Moraxella (0.3% [0.7%]), and Streptococcus (0.2% [0.6%]), but had a high abundance of Alloiococcus (58.0% [44.1%]), Staphylococcus (20.8% [34.0%]), and Pseudomonas (3.2% [17.1%]). In contrast, based on previously collected data, the microbiota of the adenoid pad showed a high abundance of the classic otopathogens with a sparsity of EAC genera for Alloiococcus (0.1% vs 28.9%, respectively; P < .001), Haemophilus (25.2% vs 18.2%, respectively; P = .002), Staphylococcus (0.2% vs 10.8%, respectively; P = .02), Streptococcus (12.7% vs 4.2%, respectively; P < .001), and Pseudomonas (0 vs 2.1% respectively; P < .001). The microbiota of the MEF collected during 2 consecutive years were similar (Alloiococcus, 22.7% vs 37.5%; Haemophilus, 22.5% vs 14.0%; Staphylococcus, 10.9% vs 10.7%; Moraxella, 5.0% vs 9.7%; Corynebacteria, 6.2% vs 3.1%; Streptococcus, 4.8% vs 3.7%; and Pseudomonas, 1.1% vs 3.0%; P ≥ .05).
Conclusions and Relevance: The EAC and the nasopharynx could serve as reservoirs for microbiota of the middle ear. Furthermore, the microbiota of the middle ear with effusion appear to be relatively stable over time and between populations with OME.
PMID: 27812691 [PubMed - as supplied by publisher]
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