Dental radiography image enhancement for treatment evaluation through digital image processing

Fajrin, Hanifah Rahmi; Puspita, Sartika; Riyadi, Slamet; Sofiani, Erma

doi:10.4317/jced.54607

Cited by 14 publications

(11 citation statements)

References 28 publications

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“…In the past, various image enhancement and filter tools have been proposed for improvement of diagnostic image quality. 25,26 Details of the implementation and functioning of these tools vary, and it is questionable which tool provides better improvement in image quality. Furthermore, a majority of the tools have either been incorporated into the imaging modality software or are available commercially, instead of being implemented directly into the display.…”

Section: Discussionmentioning

confidence: 99%

The influence of image display systems on observers’ preference for visualizing subtle dental radiographic abnormalities

Shujaat

Letelier

Grauwe

et al. 2021

Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology

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Objective. The objectives of this study were to assess observers' preference for standard screens (SSs) or medical displays (MDs) in visualizing difficult-to-diagnose radiographic dental abnormalities and their preference for dental filter tools when utilized with MD systems. Study Design. A retrospective data set of 60 in vivo radiographs consisting of intraoral (n = 20), panoramic (n = 20), and cone beam computed tomography (n = 20) images was created. Three image display monitors, including an SS, an MD, and an MD with 3 dental filter configurations (boneÀlow density enhancement filter, toothÀhigh density enhancement filter, and a combined filter representing regular MD), were utilized to assess 4 observers' monitor preferences in detecting radiographically subtle dental abnormalities. The data were analyzed by using binomial distribution. A P value .05 was considered statistically significant. Results. Although observers expressed preference for MD for visualizing some abnormalities when examining intraoral and panoramic radiographs, MD was not preferred for detection of any abnormalities with cone beam computed tomography. There were no significant differences in preference for SS or MD overall (P .2024). Observers expressed significant preference for the filters in visualizing all but 2 abnormalities (P .0252). Conclusions. The use of MD monitors enabled with dental filter tools may be preferred for visualizing certain subtle abnormalities.

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Section: Discussionmentioning

confidence: 99%

The influence of image display systems on observers’ preference for visualizing subtle dental radiographic abnormalities

Shujaat

Letelier

Grauwe

et al. 2021

Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology

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“…The specific noises during the radiography cause degradation to the dental image. [23]. Therefore, an effective mechanism should be implemented to enhance the quality of the image that can provide a significant clinical analysis in dental implant surgical procedures.…”

Section: Study Backgroundmentioning

confidence: 99%

A Survey on Dental Imaging for Building Classifier to Benefit the Dental Implant Practitioners

Shashikala¹,

Thangadurai²

2021

IJACSA

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Endo-osseous implants are considered an ideal dental fixture. It is becoming the preferred choice of the edentulous patient to rehabilitate toothlessness because of their aesthetic and functional outcome. Despite the successful surgery and implant placement, complications occur, which may be related to several factors, like operative assessment, treatment planning, patient-related factors, surgical procedures, and surgeons' experience. Comprehensive radiological assessment plays a vital role in clinical analysis for better treatment planning, avoiding complications, and increasing the Implant's success rate. However, despite the variety of dental imaging, choosing the right imaging technology has become difficult for clinical experts. The investigative survey conducted in this paper aims to determine the correlation between different imaging modalities, their essential role in implant therapy. This review extensively discussed which types of computational operations applied to image modalities in the existing literature address various noises and other relevant issues. These study findings reveal significant issues with various dental imaging modalities and provide an understanding to bridge all existing research gaps towards building cost-effective classification and predictive models for accurate dental treatment planning and higher implant success rates.

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“…Among the most popular are Histogram Equalization (HE) and Contrast-Limited Adaptive Histogram Equalization (CLAHE) [7]. There are many variants of the histogram-based algorithms, and they have been used to make improvements in different types of images [5,[8][9][10][11][12][13][14][15]. Ahmad et al [16] compared contrast enhancement techniques based on histograms.…”

Section: Introductionmentioning

confidence: 99%

“…This allows specialists to better identify pathologies within the images. In addition, Rahmi-Fajrin et al [12] studied how contrast enhancement results affect the dentist's evaluation. A relatively new contrast enhancement technique is based on mathematical morphology.…”

Section: Introductionmentioning

confidence: 99%

Panoramic Dental Radiography Image Enhancement Using Multiscale Mathematical Morphology

Román

Fretes

Adorno

et al. 2021

Sensors

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Panoramic dental radiography is one of the most used images of the different dental specialties. This radiography provides information about the anatomical structures of the teeth. The correct evaluation of these radiographs is associated with a good quality of the image obtained. In this study, 598 patients were consecutively selected to undergo dental panoramic radiography at the Department of Radiology of the Faculty of Dentistry, Universidad Nacional de Asunción. Contrast enhancement techniques are used to enhance the visual quality of panoramic dental radiographs. Specifically, this article presents a new algorithm for contrast, detail and edge enhancement of panoramic dental radiographs. The proposed algorithm is called Multi-Scale Top-Hat transform powered by Geodesic Reconstruction for panoramic dental radiography enhancement (MSTHGR). This algorithm is based on multi-scale mathematical morphology techniques. The proposal extracts multiple features of brightness and darkness, through the reconstruction of the marker (obtained by the Top-Hat transformation by reconstruction) starting from the mask (obtained by the classic Top-Hat transformation). The maximum characteristics of brightness and darkness are added to the dental panoramic radiography. In this way, the contrast, details and edges of the panoramic radiographs of teeth are improved. For the tests, MSTHGR was compared with the following algorithms: Geodesic Reconstruction Multiscale Morphology Contrast Enhancement (GRMMCE), Histogram Equalization (HE), Brightness Preserving Bi-Histogram Equalization (BBHE), Dual Sub-Image Histogram Equalization (DSIHE), Minimum Mean Brightness Error Bi-Histogram Equalization (MMBEBHE), Quadri-Histogram Equalization with Limited Contrast (QHELC), Contrast-Limited Adaptive Histogram Equalization (CLAHE) and Gamma Correction (GC). Experimentally, the numerical results show that the MSTHGR obtained the best results with respect to the Contrast Improvement Ratio (CIR), Entropy (E) and Spatial Frequency (SF) metrics. This indicates that the algorithm performs better local enhancements on panoramic radiographs, improving their details and edges.

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Dental radiography image enhancement for treatment evaluation through digital image processing

Cited by 14 publications

References 28 publications

The influence of image display systems on observers’ preference for visualizing subtle dental radiographic abnormalities

The influence of image display systems on observers’ preference for visualizing subtle dental radiographic abnormalities

A Survey on Dental Imaging for Building Classifier to Benefit the Dental Implant Practitioners

Panoramic Dental Radiography Image Enhancement Using Multiscale Mathematical Morphology

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