Abstract
Digital dental reconstruction can be a more efficient and effective mechanism for artificial crown construction and period inspection. However, optical methods cannot reconstruct those portions under gums, and X-ray-based methods have high radiation to limit their applied frequency. Optical coherence tomography (OCT) can harmlessly penetrate gums using low-coherence infrared rays, and thus, this work designs an OCT-based framework for dental reconstruction using optical rectification, fast Fourier transform, volumetric boundary detection, and Poisson surface reconstruction to overcome noisy imaging. Additionally, in order to operate in a patient’s mouth, the caliber of the injector is small along with its short penetration depth and effective operation range, and thus, reconstruction requires multiple scans from various directions along with proper alignment. However, flat regions, such as the mesial side of front teeth, may not have enough features for alignment. As a result, we design a scanning order for different types of teeth starting from an area of abundant features for easier alignment while using gyros to track scanned postures for better initial orientations. It is important to provide immediate feedback for each scan, and thus, we accelerate the entire signal processing, boundary detection, and point-cloud alignment using Graphics Processing Units (GPUs) while streamlining the data transfer and GPU computations. Finally, our framework can successfully reconstruct three isolated teeth and a side of one living tooth with comparable precisions against the state-of-art method. Moreover, a user study also verifies the effectiveness of our interactive feedback for efficient and fast clinic scanning.
Highlights
Because of oral hygiene awareness and advance in dental technologies, modern people generally have dental implants for those root-canal-treated and lost teeth
Rectification is important for the reconstruction precision, but it is different from board-based ones, while other stages have been comparatively analyzed in the past research
We use half of the samples marked as black diamonds for calibrations, and the other half marked as red circles following the capturing process as rectification to capture these samples and to rectify them back to the corrected positions using the radial and tangential correction, thin-plate spline (TPS) interpolation, and hybrid of both marked with blue crosses, purple stars, and green pluses
Summary
Because of oral hygiene awareness and advance in dental technologies, modern people generally have dental implants for those root-canal-treated and lost teeth. Dentists would have soft impression material on a slot, would hardly press the slot on the target region, and would later remove it from the target to get the mode while the material gets hard enough. Because this process is long and highly uncomfortable, unconscious movements may happen to cause failures. Dentists must visually inspect the extraction to determine whether it captures the desired characteristics. If it is not satisfying, the process repeats. Efficient and frequent digital reconstruction may initiate the possibility of periodic inspection based on newly
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