A critical review of the literature suggests that the microenvironment of dentinal tubules appears to favour the selection of relatively few bacterial types irrespective of the aetiology of the infection process; coronal dental caries or pulpar necrosis. These bacteria may constitute an important reservoir from which root canal infection and reinfection may occur following pulp necrosis or during and after endodontic treatment. Previous studies of this microflora have utilized microbiological culture techniques which need to be supplemented by those that allow in situ demonstration as well as identification of the bacteria. Newer treatment strategies that are designed to eliminate this microflora must include agents that can penetrate the dentinal tubules and destroy these microorganisms, since they are located in an area beyond the host defence mechanisms where they cannot be reached by systemically administered antimicrobial agents.
The microflora of periapical abscesses of teeth free of periodontal disease was studied. Permucosal aspiration of abscess contents and anaerobic cultural, microscopic, and biochemical techniques indicated a mixed but somewhat specific and relatively limited facultative and obligate anaerobic flora with Fusobacterium nucleatum and Streptococcus mitis as a frequent pair.
The purpose of this study was to compare the responses of mechanically exposed dental pulps which had been capped with three dissimilar materials: a bioactive ceramic (Bioglass), autologous demineralized dentin matrix (DDM), and a calcium hydroxide product (Life), with Teflon discs as controls. Mechanical dental pulp exposures were made after preparation of deep buccal Class V cavities in 48 teeth in four miniature swine. The exposures were capped and the cavity preparations restored with zinc oxide-eugenol (IRM) cement. The animals were killed after 90 days, the coronal 2/3 of the teeth removed, and sections prepared for either histological or microradiographic examination. The pulpal inflammatory reactions and the degree of reparative dentin formation were assessed from demineralized serial sections. A qualitative assessment of the degree of mineralization of the reparative dentin was made from microradiographs of undecalcified sections. The observations suggest that reparative dentin formation occurs under a variety of pulp-capping materials, but the structure of the reparative dentin varies with the material and the condition of the underlying pulp.
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