Abstract
Aims
To assess the effects of scaling and root planning (SRP) on the dynamics of gene expression by the host and the microbiome in subgingival plaque samples.
Methods
Fourteen periodontitis patients were closely monitored in the absence of periodontal treatment for 12 months. During this period, comprehensive periodontal examination and subgingival biofilm sample collection were performed bi-monthly. After 12 months, clinical attachment level (CAL) data was compiled and analyzed using linear mixed models (LMM) fitted to longitudinal CAL measurements for each tooth site. LMM classified sites as stable (S), progressing (P), or fluctuating (F). After 12 month visit, subjects received SRP and at 15 months they received comprehensive examination and supportive periodontal therapy (SPT). Those procedures were repeated at the 18 month visit, when patients were also sampled. Each patient contributed with one S, one P and one F site collected at 12 and 18 month visits. Samples were analyzed using Dual RNA-Sequencing to capture host and bacterial transcriptomes simultaneously.
Results
Microbiome and host response behavior were specific to the site's progression classification (i.e., S, P or F). Microbial profiles of pre and post-treatment samples exhibited specific microbiome changes, with progressing sites showing the most significant changes. Among them, P. gingivalis was reduced after treatment, while F. nucleatum showed an increase in proportion. Transcriptome analysis of the host response showed that IL-17, TNF signaling pathways, and neutrophil extracellular trap (NETs) formation were the primary immune response activities impacted by periodontal treatment.
Conclusion
Scaling and root planing resulted in a significant "rewiring" of host and microbial activities in the progressing sites, while in stable and fluctuating sites, the restructuring of the microbiome was minor.
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