Abstract
Objective. The aim of the present study was to evaluate the adaptation of newly introduced bioactive restorative materials to the cavity floor using cross-polarization optical coherence tomography (CP-OCT). Materials and Methods. Round class V cavities were prepared on the proximal surfaces of sixty non-carious human anterior teeth (0.5 mm depth × 4 mm diameter), which were divided into groups according to the restorative material (n = 15). In the VF group, Vertise flow composite (Kerr, Orange, CA, USA) was used, in the BF group, Beautifil II composite (Shofu, Koyoto, Japan) was used, and in the AB group, ACTIVA BioACTIVE composite (Pulpdent, Watertown, NY, USA) was used. Cavities were restored using the bulk filling technique and cured according to the manufacturers’ instructions. Then, the specimens were immersed in a contrasting agent, and image acquisitions were taken by CP-OCT to calculate the adaptation percentage by using an image analysis software. Results. B-scans showed a diffuse bright band of white pixels at the tooth-resin interface that was interpreted as a micro-gap present between the cavity floor and restorative material. The Kruskal-Wallis test showed a statistically significant difference between all tested groups with the AB group representing the least gap formation, followed by the BF group, and then the VF group, which demonstrated the highest gap formation. Conclusions. In class V cavities, better adaptation to the cavity floor can be obtained when using ACTIVA BioACTIVE more than Vertise flow and Beautifil II composites. In addition, CP-OCT is considered a non-destructive imaging tool that helps in evaluating the quality of the tooth-restoration interface when bioactive composites are used.
Highlights
New technologies were directed to reduce microleakage, making it a very important and crucial subject for researchers and clinicians [1]
This was caused by the strong reflection of the diffusion of silver particles. These particles were detected as dark pixels in the binary image and represented the micro-gap between the cavity floor and the restorative material
The highest gap percentage was found in the Vertise Flow composite (VF) group (86.65% ± 18.67) followed by the Beautifil II (BF) group (84.41 ± 17.06), whereas the ACTIVA BioACTIVE-RESTORATIVE (AB) group showed the lowest gap percentage (58.18 ± 24.62)
Summary
New technologies were directed to reduce microleakage, making it a very important and crucial subject for researchers and clinicians [1]. Optical coherence tomography (OCT) is known as a non-invasive and non-hazardous high-resolution imaging system that can give us tomographic and volumetric images of biological structures and non-metallic biomaterials at micron scale [5] This new imaging diagnostic tool has demonstrated its ability in the field of restorative dentistry in identifying any defects or changes in restorations, enamel, and superficial dentin layer. It has been proposed that the variations in the backscatter strength signal from various dental systems are induced by the variability of tissue texture and orientation [6]. It is considered a reliable method for diagnosing oral disorders. OCT technology has made significant progress in recent years through the development of techniques of spectral discrimination, which provides a substantial increase in sensitivity over the traditional OCT time domain
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