M. Burmeister scite author profile

The aim of this study was to analyze and evaluate the oral mucosa and the surface constitution of dental materials to display the characteristics and the behaviour of dental composites concerning the margin fit. Therefore, the gingiva and composite restorations of 45 patients aged 17-69 years were examined with a new digital confocal laser scanning microscope developed in Rostock. The device works in contact with the surface of the examination region using a water immersion objective and a diode laser with a wavelength of 670 nm. As a result of a PMMA-Cap with a thickness of 0.5 mm, we can create images with exact depth information and of very good quality. The epithelium of the gingiva with its cellular and subcellular structures could be observed up to a depth of 200 microm. Also, papillary crests, blood vessels and even the blood flow were visible. An inflammation of the gingiva could be verified because of the existence of inflammatory cells. The enamel and dental restorations could be observed up to a depth of 80 microm and allowed the evaluation of the margin fit. Confocal laser scanning microscopy seems to be suitable for the non-invasive examination of oral mucosa and dental materials in vivo.

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Experimental System For An OFDM-local Area Network

Meißner

Bunning²,

Burmeister³

et al.

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Оценка Вторых Производных Якобиана Для Сложной Электроэнергетической Системы И Их Влияния На Статическую Устойчивость

Зуев¹,

Averyanov²,

Antanenkov³

et al. 2020

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M. Burmeister

Selective OTDR measurements at the central office of individual fiber links in a PON

Eight-channel coherent TV distribution system with all-fiber optical frontends

Intraorale Diagnostik mittels konfokaler Laser-Scanning-Mikroskopie / Intraoral diagnostics using confocal laser scanning microscopy

Experimental System For An OFDM-local Area Network

Оценка Вторых Производных Якобиана Для Сложной Электроэнергетической Системы И Их Влияния На Статическую Устойчивость

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