Caries Excavation: Evolution of Treating Cavitated Carious Lesions. Группа авторов

Caries Excavation: Evolution of Treating Cavitated Carious Lesions - Группа авторов


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href="#ulink_29344990-dc38-52a2-8372-94e999cf6e86">7]), and the discussion still goes on [8]. As a matter of fact, S. mutans is detected in a few cariesfree and found absent in several caries-active individuals, impairing its outstanding caries indicatory potential. Furthermore, most relevant acidogenic-aciduric bacterial species are: (i) S. mutans relatives (called mutans streptococci or MS) with a similar virulence potential, namely S. sobrinus; (ii) bifidobacteria, including Bifidobacterium dentium and other closely related oral Bifidobacterium spp., but also the more distantly related species Scardovia wiggsiae, and (iii) lactobacilli, especially those with pellicle-adhesive potential [9].

      Unlike MS, the highly aciduric bifidobacteria, especially B. dentium, do not colonise hard surfaces per se, since denture plaque associated with denture stomatitis harboured high levels of MS, lactobacilli, and yeasts, but not B. dentium. This indicates that B. dentium does not simply colonise intact dental hard surfaces but instead suggests that it is the lesion initiated by other species that facilitate the attachment and proliferation of B. dentium. In contrast to MS, the presence of this species might therefore be more a result than the cause of initial lesions. Clearly, B. dentium and MS are significant independent indicators [9].

      A similar role (more profiteer than initiator) was recently proposed for lactobacilli, with Lactobacillus fermentum, L. rhamnosus, L. gasseri, L. salivarius, L. plantarum, and the L. casei-paracasei group as the most abundant species. According to this concept, precaries lesions become a retentive, low pH niche for lactobacilli accumulation, which take advantage of their proclivity for making and surviving in an increasingly reduced pH environment. In some cases, the lactobacilli can even outcompete and exclude the MS that created the retentive niche, which might explain why caries lesions are sometimes free of MS but not or very rarely free of lactobacilli [9].

      Taken together, every cavity might have its own demineralising consortium of active organisms and genes, but the following simple principles are universal:

      1 Presence of acidogenic-aciduric microorganisms and their ability to attach to the pellicle-coated tooth surface, either directly (pioneers such as MS) or indirectly (beneficiaries such as bifidobacteria and lactobacilli; for a review see Conrads et al. [10]).

      2 Environmental conditions favouring the multiplication and metabolism of such species: access to low-molecular sugars, especially sucrose, and low redox potential at the same time. High sugar and low oxygen leads to rapid fermentation and acid production.

      With these simple principles, it is possible to identify (constitute) what a carious tissue actually is and how much tissue must or should be removed or excavated to stop further decay.

      Histology of a Carious Tissue – The Microbiological Perspective

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