bAlthough extraradicular biofilm formation is related to refractory periapical periodontitis, the mechanism of extraradicular biofilm development, as well as its effect on periapical lesions, is unknown. Therefore, we aimed to develop an in vivo extraradicular biofilm model in rats and to identify and quantify extraradicular biofilm-forming bacteria while investigating the effect of extraradicular biofilms on periapical lesions. Periapical lesions were induced by exposing the pulpal tissue of the mandibular first molars of male Wistar rats to their oral environment. Four weeks later, gutta-percha points were excessively inserted into the mesial root canals of the right first molars (experimental sites) but not the left first molars (control sites). After 6 and 8 weeks of pulp exposure, the presence of extraradicular biofilms was confirmed histomorphologically, and biofilm-forming bacteria were identified by using classical culture methods. The biofilms were observed in the extraradicular area of the experimental sites. Similar species were detected both inside and outside the root canals. The bacterial count, quantified by real-time PCR assays, in the extraradicular area gradually increased in the experimental sites until 20 weeks after pulp exposure. After 8 weeks of pulp exposure, the periapical lesion volume that was measured by micro-computed tomography was significantly larger in the experimental sites than in the control sites (P < 0.05 by Welch's t test). These results suggest that we developed an extraradicular biofilm model in rats and that extraradicular biofilms affect developing periapical lesions.
In clinical practice, we encounter patients in whom periapical periodontitis does not heal despite a root canal treatment following general dental procedures. The etiology is considered to be the result of residual bacteria in the lateral branch of the root canal, endodontic reinfection, or both. Recent studies have shown that biofilms that form outside the apical foramen, which are termed "extraradicular biofilm," are also involved in refractory periapical periodontitis (1-4). As the bacteria in biofilms are resistant to the host's immunoreaction and to antibiotics (5), dental biofilm diseases such as caries or periodontitis have been treated by mechanical removal. However, extraradicular biofilm is impossible to remove mechanically with nonsurgical endodontic treatments. As extraradicular biofilms cannot be accessed from the root canal for mechanical removal, the only treatment methods are endodontic surgery and tooth extraction.Current research is focused on developing methods to prevent or control biofilm formation (6, 7). We recently found three analogues of N-acyl homoserine lactone that participate in quorum sensing, a system of bacterial cell-to-cell communication, and inhibit Porphyromonas gingivalis biofilm formation (8). Furthermore, azithromycin, a 15-membered macrolide antibiotic, has an antibiofilm effect on P. gingivalis (9). For clinical applicability, these in vitro effects should be exami...
