AI Article Synopsis
- The study focuses on the distribution of Ruffini endings (RE) in the periodontal tissues of guinea pig teeth, specifically in the context of their continuously growing incisors and molars.
- Immunohistochemistry techniques revealed a higher concentration of well-developed RE in the bone-related areas of the lingual periodontal ligament, along with some RE-like nerve elements in enamel-related regions without established fiber arrangements.
- The findings suggest that the presence of RE-like nerve elements varies by location in the periodontal tissues, highlighting their potential different mechanoreceptive functions depending on their anatomical placement.
Article Abstract
This study describes the unique distribution of Ruffini endings (RE) in the periodontal tissues of the guinea pig teeth with special references to their presence in the enamel-related aspects of the continuously growing incisors and molars. In guinea pig incisors, immunohistochemistry for PGP 9.5 and glia specific S-100 protein revealed a condensed distribution of well-developed RE in the bone-related part of the lingual periodontal ligament as has been reported in many other rodents. In most cases, some RE-like nerve elements characterized by dendritic ramification and rounded terminal Schwann cells were found to be located in the labial, enamel-related regions, where no periodontal ligament-like fiber arrangement was established. In the molar periodontal ligament, well-developed RE-like nerve elements were also distributed in the enamel-related part, but in intimate relation to thick periodontal fiber bundles inserted in the cementum pearls grown on the enamel surface. In some cases, few RE were located in the apical region of the alveolar socket, where no periodontal fiber bundles could be identified. Our data provide the first morphological evidence of the presence of RE-like nerve elements in the enamel-related, fibrous connective tissue of continuously erupting rodent incisors. These data indicate that RE in guinea pig periodontal tissues have variable spatial correlation to the surrounding fibers, implicating their diverse mechanoreceptive properties depending on the anatomical location.
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| http://dx.doi.org/10.1679/aohc.65.233 | DOI Listing |
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