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MESNA-assisted surgery disrupts disease-associated microbiota equilibrium in paediatric cholesteatomatous chronic otitis mediaEarly data suggest MESNA may help restore ear bacteria in children with chronic ear infections

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Key Takeaway
Note that MESNA-assisted surgery disrupts disease-associated microbiota equilibrium in paediatric CCOM.

This observational review characterizes the microbiota of paediatric patients with cholesteatomatous chronic otitis media (CCOM) and evaluates the ecological shifts induced by MESNA-assisted surgery. The study population included 13 patients with CCOM before MESNA, 13 patients after MESNA, and 11 healthy controls. The primary outcome focused on characterizing the microbiota and evaluating ecological shifts, while secondary outcomes included microbial network connectivity, differential abundance, and functional potential.

Microbial network connectivity showed a reduction from 185 edges in healthy controls to two total edges in the CCOM Before MESNA stage. MESNA application disrupted the disease-associated community equilibrium. Post-treatment recovery was marked by taxonomic homogenization and the expansion of Pseudomonas in several patients. The review does not report specific adverse events or tolerability data.

The authors highlight that the impact on the middle ear microbiome and ecological recovery remains poorly understood. They caution that MESNA does not fully restore a healthy stable climax community within the studied timeframe. The practice relevance supports a paradigm shift from simple pathogen eradication toward ecological restoration as a strategy to prevent disease recurrence in CCOM patients.

This observational review examined the ear bacteria in pediatric patients with cholesteatomatous chronic otitis media (CCOM) and healthy controls. The study compared samples taken before and after surgery using MESNA-assisted dissection against samples from healthy individuals. Researchers found that the disease-associated community equilibrium was disrupted by the application of MESNA. In healthy controls, microbial networks showed 185 connections, whereas the group before treatment had only two total edges. After treatment, some patients showed taxonomic homogenization and an expansion of Pseudomonas bacteria in several cases. The study did not report any adverse events or discontinuations. However, the impact on the middle ear microbiome and ecological recovery remains poorly understood. Readers should note that MESNA does not fully restore a healthy stable climax community within the studied timeframe. This research supports a paradigm shift from simple pathogen eradication toward ecological restoration as a strategy to prevent disease recurrence in CCOM patients. More research is needed to confirm these findings.

What this means for you:
Small review links MESNA to bacterial changes; impact on ear health remains unclear.

Study Details

Study typeGuideline
EvidenceLevel 5
PublishedMay 2026
View Original Abstract ↓
IntroductionCholesteatomatous chronic otitis media (CCOM) remains a clinical challenge due to its high recurrence rates despite surgical intervention. Sodium 2-mercaptoethanesulphonate (MESNA) is used to assist dissection, yet its impact on the middle ear microbiome and ecological recovery remains poorly understood. The aim of this study is to characterize the microbiota of paediatric CCOM and evaluate the ecological shifts induced by MESNA-assisted surgery.MethodsWe analyzed 16S rRNA gene sequences (V3-V4) from middle ear tissue of paediatric patients with CCOM (CCOM Before MESNA, n = 13; CCOM After MESNA, n = 13) and healthy controls (n = 11). Bioinformatic processing was performed via QIIME2 and DADA2. We employed a Compositional Data Analysis (CoDA) framework, centering on Aitchison distances, ALDEx2 for differential abundance, and consensus co-occurrence networks (SparCC, SPIEC-EASI, and CLR-Pearson). Functional potential was inferred using PICRUSt2.ResultsCCOM was associated with a marked reduction in microbial network connectivity, decreasing from 185 edges in healthy controls to only two total edges in the CCOM Before MESNA stage. Cutibacterium emerged as a candidate keystone pathobiont, exhibiting profound ecological isolation and predicted metabolic shifts toward lipid catabolism and biofilm formation in dysbiotic states. MESNA application disrupted the disease-associated community equilibrium, initiating secondary succession. However, post-treatment recovery was marked by taxonomic homogenization and the expansion of Pseudomonas in several patients.DiscussionOur findings identify network fragmentation and functional dysbiosis as the ecological signatures of pediatric CCOM. While MESNA disrupts the dysbiotic equilibrium, it does not fully restore a healthy stable climax community within the studied timeframe, as defined in ecological succession theory. These results support a paradigm shift from simple pathogen eradication toward ecological restoration as a strategy to prevent disease recurrence in CCOM patients.
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