Gingivitis occurring when bacterial plaque accumulates in the gingival crevice provides a convenient and interesting model for chronic inflammation in humans. In some patients, gingivitis progresses to the destructive lesion of periodontitis, involving the formation of periodontal pockets. The basis for pocket formation and progression is not as yet clear, although neutrophilic polymorphonuclear leukocytes (PMN) appear to play a protective role. Vascular changes appear to either facilitate or inhibit PMN function with the effect of either protecting from, or stimulating, periodontitis. Contrary to most circumstances, high endothelial cells in periodontitis are involved with PMN rather than lymphocyte emigration. Expansion of the microvasculature through increased vascular diameter and tortuosity as well as the development of high endothelial cells appears to protect from periodontitis by increasing the supply of both plasma defense factors and PMN to the tissues. Vascular changes that may oppose this and promote periodontitis are the formation of perivascular hyaline material and accumulation of basement membrane rests. The inadequate tissue turnover that accumulation of these vascular products represents can be argued as a vascular response to a chronic inflammation that has failed to eliminate the irritant. It is suggested that these vascular changes may account for the highly localized and burst-like pattern of pocket formation in periodontitis. Finally, it is possible that the recent observation that periodontitis is an independent risk factor for systemic vascular disease may reflect stimulation of acute phase protein synthesis by cytokines released by periodontal high endothelial cells.
Periodontitis is a chronic inflammatory disease of the highly vascularised supporting tissues of the teeth. Little is known about the vascular changes in untreated advanced periodontitis. Using confocal immunofluorescence microscopy and morphometry, we defined and quantified vascular remodelling in this lesion. In the connective tissue subjacent to the altered epithelium lining of the periodontal pocket, there was a significant increase in the numerical density of vascular profiles, primarily accounted for by vessels > or = 25 microm in diameter. In addition, vascular basement membranes were thickened and there was accumulation of non-vascular basement membrane remnants. We investigated the distribution of major angiogenic growth factors in periodontitis using immunohistochemistry. Basic fibroblast growth factor, although consistently associated with blood vessels, showed no regional variation in its distribution. In contrast, there was a marked regional variation in the intensity of immunostaining for vascular endothelial growth factor, with significantly reduced staining of the pocket epithelium. The changes in the vascularity of the periodontal connective tissues in untreated advanced periodontitis may be, in part, a consequence of altered expression of angiogenic activity by the epithelium. In turn, this may reflect the epithelial response to microbial flora in the microenvironment of the periodontal pocket.
The purpose of this study was to investigate the effect of progressive toothbrush wear on plaque control. At baseline (week 0), each of 20 subjects was given a new toothbrush which they used for the 9-week period of the study. At weeks 0, 3 and 6, all plaque was professionally removed. The amount of plaque which accumulated in each of the 3 successive 3-week experimental periods was assessed at weeks 3, 6 and 9. Toothbrush wear was evaluated by measuring the increase in the brushing surface area of toothbrushes at weeks 3, 6 and 9 as compared with week 0. The brushing surface area was measured by computer analysis of tracings of the brushing surface outlines obtained from standardized photographs. Despite progressive toothbrush wear, the amount of plaque which accumulated in each successive 3-week period decreased. The decrease in plaque scores between weeks 3 and 6 and between weeks 3 and 9 were found to be highly significant (p < 0.001). Toothbrush wear varied widely amongst the subjects. When plaque scores were evaluated for the 10 subjects with highest toothbrush wear, and the 10 with lowest wear, no significant differences were found between the 2 subgroups. Under the experimental conditions of this study, progressive toothbrush wear did not lead to a decrease in plaque control. The improvement in plaque scores may have been due to motivational effects resulting from study participation and anticipation of oral examinations. It was concluded that the wear status of a toothbrush may not be critical in ensuring optimal plaque control.
The structural integrity and functional differentiation of the lining epithelium were studied in relation to inflammatory changes associated with destructive periodontitis. In the different regions of lining epithelia from clinically healthy gingiva and periodontitis, comparisons were made of the expression patterns of E-cadherin, which is critical in intercellular adhesion; of proteins associated with gap junction communication channels; and of involucrin, which is a key marker of differentiation in stratified epithelia. Filamentous actin (F-actin), which is important in cell structural integrity, attachment, and migration, was also examined. Semiquantitative immunohistochemical analysis revealed that in both clinically healthy gingiva and lesions of advanced periodontitis, expression patterns of E-cadherin, involucrin, and connexins 26 and 43 were similar, with a statistically significant reduction in staining intensity from the external oral epithelium, through the gingival sulcus, to the junctional epithelium or pocket epithelium, respectively. Furthermore, there was a striking reduction in staining for E-cadherin, involucrin, and both connexins in the pathological lining epithelium of the periodontal pocket. These changes were associated with marked alterations of filamentous actin expression, collectively indicating profound perturbation of the epithelial structure. The data reported support the concept that the ability of the pathological lining epithelium to function as an effective barrier against the ingress of microbial products into the tissues is severely compromised.
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