Shear's Cysts of the Oral and Maxillofacial Regions. Paul M. Speight

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Название Shear's Cysts of the Oral and Maxillofacial Regions
Автор произведения Paul M. Speight
Жанр Медицина
Серия
Издательство Медицина
Год выпуска 0
isbn 9781119354949



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process by which a cavity comes to be lined by the proliferating odontogenic epithelium. Many will think it astonishing that the actual process of cyst formation is so poorly understood, and although a number of theories have been debated for decades, there are very few observational or experimental data to support or refute any of them. There are three proposed mechanisms of cyst formation (Shear 1963a ; Summers 1974 ; Valderhaug 1974 ; Lin et al. 2007 ; Nair et al. 2008 ; Huang 2010 ):

      1 Central necrosis or nutritional deficiency theory. This proposes that a cyst cavity forms within a proliferating mass of epithelial cells due to loss of nutrition followed by degeneration and death of cells in the centre of the mass.

      2 Abscess theory. This postulates that the proliferating epithelium surrounds an abscess cavity, in effect walling off the central focus of inflammation. Essentially this represents the process of normal wound healing, where epithelium proliferates to cover denuded connective tissues.

      3 Merging epithelial strands theory. This proposes that the proliferating epithelium forms a three‐dimensional ‘ball mass’ (Lin et al. 2007 ), which entraps inflamed connective tissue. This connective tissue then breaks down due to loss of a blood supply and a cyst cavity forms.

Photo depicts arcades and rings of proliferating epithelium in a periapical granuloma.

      Most information regarding cyst formation is taken from histological observation of biopsy specimens taken from humans and there are very few longitudinal studies. In experiments that have not been repeated, Valderhaug (1972 ) induced radicular cysts in monkeys. Because of the rarity of such experiments, it is worth considering some of the details of his findings. He induced pulpal necrosis sequentially in 39 teeth in 4 animals and was able to histologically examine periapical inflammation and cyst formation for up to 360 days after the pulps were removed. Of interest is that he did not observe any cysts until after 200 days, although proliferating epithelium was observed in earlier lesions. In lesions examined after 200 days, 11 of 16 (69%) developed cysts. Even after 300 days, 3 of 8 lesions showed no inflammation, but 4 had developed into cysts. Of relevance to the proposed mechanisms of cyst formation is that he did not see evidence of intraepithelial degeneration with formation of microcysts, but observed long strands of proliferating epithelium lining surfaces of granulation tissue, or arcades surrounding cores of vascularised or degenerating granulation tissue. These observations support the merging epithelial strands theory (theory 3). However, in most cases Valderhaug also observed that the proliferating epithelium was associated with PMNs, but he did not describe frank abscess formation. He also showed that in most cysts the epithelial lining was closely connected to the roots around the apical foramen, supporting the notion that the epithelium is reforming an intact integument, and that the cysts are pocket or bay cysts. In a very similar study, Valderhaug (1974 ) examined 52 primary teeth, and although periapical inflammation was common, he found small cysts only in ‘a few cases with long observation periods’. Of relevance to the theories of cyst formation is that he found that abscess formation, often with oral fistulas, was common and more frequently seen than in his previous study on permanent teeth (Valderhaug 1972 ). His findings, however, did not support the abscess theory, since ‘proliferating epithelium was not observed in the periapical area in connection with abscess formation’.

Photo depicts sheet of epithelial cells in a periapical lesion. Photo depicts degeneration of cells in the centre of a mass of proliferating epithelium in a periapical granuloma.

      It seems, therefore, that there is little difference between the three proposed mechanisms – cyst formation occurs due to a ‘walling‐off’ of inflamed connective tissue by a process of epithelial proliferation similar to healing at an epithelial surface. This is due to the innate property of epithelium to form an external protective integument. The cyst lumen therefore represents the external environment, and in the case of a pocket