Digitalized bite mark analysis for the undergraduate dental students / Mohd Yusmiaidil Putera Mohd Yusof

In legal system, the admissibility of bite mark injury has proven to give more positive impact when current technologies are adapted to its analysis. The early exposure of the digitalized bite mark analysis during the undergraduate dental program is beneficial to stimulate interests and provide guidance among the professional dentists. The step-by-step bite mark analysis partly adapted from KU Leuven, Belgium is emphasized by delivering the illustrated practical techniques using computer software Adobe Photoshop®. The overlays analysis demonstrated its practicality as easy to use and offered opportunities to learn through unconventional mode of teaching. The incorporation of bite mark injury analysis to the undergraduate dental learning is highly recommended

La precisión de las mediciones lineales en la tomografía computarizada de haz cónico para evaluar defectos intraóseos y de furcación: Una revisión sistemática y un metanálisis.

Objective: This study aims to assess the accuracy of the linear measurements of intrabony and/or furcation defect quantified by cone beam computed tomography (CBCT). Material and Methods: A systematic search of the literature was conducted by two authors independently from the PubMed, Scopus, and EBSCO for full articles published in journals between January 2003 and March 2017. Eligible studies were assessed for quality and heterogeneity using the QUADAS-2 tool. A meta-analysis was performed to identify the accuracy of CBCT in the measurement of intrabony defects. The effect size was estimated and reported as the standardised mean difference (SMD). Results: A total of 105 titles and abstracts were screened. Of those, 11 articles met the inclusion criteria for the systematic review while only four were selected for meta-analysis. The overall effects of standardized mean difference and 95% CI was -0.03 [95% CI -0.67 to 0.60] with a x2 statistic of 0.49 with 3 degrees of freedom (p>0.05), I2= 0.01%. Conclusion: CBCT is highly accurate and reproducible regarding linear measurements for assessing intrabony defects with a weighted standardized mean difference of 0.03 mm. More randomised controlled trials are required to assess the accuracy of CBCT in assessing patients with periodontal defects.Objetivo: Este estudio tiene como objetivo evaluar la precisión de las mediciones lineales de defectos intraóseos y/o de furcación cuantificados por tomografía computarizada de haz cónico (CBCT). Material y Métodos: Dos autores, independientemente realizaron una búsqueda sistemática de la literatura en PubMed, Scopus y EBSCO, para obtener artículos completos publicados en revistas entre Enero de 2003 y Marzo de 2017. Los estudios elegibles se evaluaron para determinar la calidad y la heterogeneidad utilizando la herramienta QUADAS-2. Se realizó un metanálisis para identificar la precisión de CBCT en la medición de defectos intraóseos. El tamaño del efecto se estimó y se informó como la diferencia de medias estandarizada (DME). Resultados: Se seleccionaron un total de 105 títulos y resúmenes. De ellos, 11 artículos cumplieron con los criterios de inclusión para la revisión sistemática, mientras que solo cuatro fueron seleccionados para el metanálisis. Los efectos generales de la diferencia de medias estandarizada y el IC del 95% fueron -0.03 [IC del 95%: -0.67 a 0.60] con una estadística X2 de 0.49 con 3 grados de libertad (p>0.05), I2= 0.01%. Conclusión: CBCT es altamente preciso y reproducible con respecto a mediciones lineales para evaluar defectos intraóseos con una diferencia de medias estandarizada ponderada de 0.03 mm. Se requieren más ensayos controlados aleatorios para evaluar la precisión de CBCT en la evaluación de pacientes con defectos periodontales

Tooth segmentation using dynamic programming-gradient inverse coefficient of variation

Teeth provide meaningful clues of an individual. The growth of the teeth is correlated with the individual age. This correlation is widely used to estimate age of an individual in applications like conducting forensic odontology, immigration, and differentiating juveniles and adolescents. Current forensic dentistry largely depends on laborious investigation process that is performed manually and can be influenced by human factors like fatigue and inconsistency. Digital panoramic radiograph dental images allow noninvasive and automatic investigation to be performed. This paper presents analyses on third molar tooth segmentation for the population in Malaysia, ranging from persons age of 5 years old to 23 years old. Two segmentation techniques: gradient inverse coefficient of variation with dynamic programming (DP-GICOV) and Chan-Vese (CV) were employed and compared. Results demonstrated that the accuracy of DP-GICOV and CV were 95.3%, and 81.6%, respectively

Effectiveness and comfort assessment of the novel intra-oral bisecting angle bisector© and paralleling rinn® digital imaging receptor holders in low palatal height patients / Afaf Syahira Ahmad Satmi … [et al.]

This study was performed to assess the effectiveness and comfort of two intraoral imaging techniques using respective digital radiograph receptor devices/holder in obtaining digital intraoral images. Methods: A total of 60 patients undergoing anterior intraoral periapical radiographs were single-blindly recruited. The imaging procedure was performed by two calibrated researchers where the novel holder group (Bisector©) was prospectively compared to the paralleling technique group, RINN® by performing thirty radiographic examinations, respectively. All patients were randomly segregated into different groups using block randomization method. The effectiveness of both holders was quantified based on the repeat rate percentage and quality of the images. The comfort study was enumerated using the Horizontal Visual Analogue Scale 100mm (HVAS). The Wilcoxon test (alpha = 0.05) was applied to compare the comfort score of different types of imaging receptor device reported by the patients. Results: The repeat rate percentage for Bisector© and RINN® holder devices were 8.9% and 18.6%, respectively (p<0.05). The median range of the "comfort data" according to conventional and novel intraoral radiographic receptor holder was 16 mm to 57 mm and 15 mm to 58 mm, respectively. No patients scored more than 74 mm. Conclusion: The Bisector© holder exhibited lower percentage of repeat as compared to the RINN® holder. Both groups did not cause major discomfort (mild-moderate pain). The use of novel intraoral bisecting angle radiographic receptor holder is however recommended to optimize the repeat rate in low palatal height patients

3D Bitemark Analysis in Forensic Odontology Utilizing a Smartphone Camera and Open-Source Monoscopic Photogrammetry Surface Scanning

Bitemark analysis is a challenging procedure in the field of criminal case investigation. The unique characteristics of dentition are used to find the best match between the existing patterned injury and the suspected perpetrator in bitemark identification. Bitemark analysis accuracy can be influenced by various factors, including biting pressure, tooth morphology, skin elasticity, dental cast duplication, timing, and image quality. This review article discusses the potential of a smartphone camera as an alternative method for 3D bitemark analysis. Bitemark evidence on human skin and food should be immediately recorded or duplicated to retrieve long-lasting proof, allowing for a sufficient examination period. Various studies utilizing two-dimensional (2D) and three-dimensional (3D) technologies have been developed to obtain an adequate bitemark analysis. 3D imaging technology provides accurate and precise analysis. However, the currently available method using an intraoral scanner (IOS) requires high-cost specialized equipment and a well-trained operator. The numerous advantages of monoscopic photogrammetry may lead to a novel method of 3D bitemark analysis in forensic odontology. Smartphone cameras and monoscopic photogrammetry methodology could lead to a novel method of 3D bitemark analysis with an efficient cost and readily available equipment

The accuracy of linear measurements in cone beam computed tomography for assessing intrabony and furcation defects: A systematic review and meta-analysis.

Objective: This study aims to assess the accuracy of the linear measurements of intrabony and/or furcation defect quantified by cone beam computed tomography (CBCT). Material and Methods: A systematic search of the literature was conducted by two authors independently from the PubMed, Scopus, and EBSCO for full articles published in journals between January 2003 and March 2017. Eligible studies were assessed for quality and heterogeneity using the QUADAS-2 tool. A meta-analysis was performed to identify the accuracy of CBCT in the measurement of intrabony defects. The effect size was estimated and reported as the standardised mean difference (SMD). Results: A total of 105 titles and abstracts were screened. Of those, 11 articles met the inclusion criteria for the systematic review while only four were selected for meta-analysis. The overall effects of standardized mean difference and 95% CI was -0.03 [95% CI -0.67 to 0.60] with a x2 statistic of 0.49 with 3 degrees of freedom (p>0.05), I2= 0.01%. Conclusion: CBCT is highly accurate and reproducible regarding linear measurements for assessing intrabony defects with a weighted standardized mean difference of 0.03mm. More randomised controlled trials are required to assess the accuracy of CBCT in assessing patients with periodontal defects.Objetivo: Este estudio tiene como objetivo evaluar la precisión de las mediciones lineales de defectos intraóseos y/o de furcación cuantificados por tomografía computarizada de haz cónico (CBCT). Material y Métodos: Dos autores, independientemente realizaron una búsqueda sistemática de la literatura en PubMed, Scopus y EBSCO, para obtener artículos completos publicados en revistas entre Enero de 2003 y Marzo de 2017. Los estudios elegibles se evaluaron para determinar la calidad y la heterogeneidad utilizando la herramienta QUADAS-2. Se realizó un metanálisis para identificar la precisión de CBCT en la medición de defectos intraóseos. El tamaño del efecto se estimó y se informó como la diferencia de medias estandarizada (DME). Resultados: Se seleccionaron un total de 105 títulos y resúmenes. De ellos, 11 artículos cumplieron con los criterios de inclusión para la revisión sistemática, mientras que solo cuatro fueron seleccionados para el metanálisis. Los efectos generales de la diferencia de medias estandarizada y el IC del 95% fueron -0.03 [IC del 95%: -0.67 a 0.60] con una estadística X2 de 0.49 con 3 grados de libertad (p>0.05), I2= 0.01%. Conclusión: CBCT es altamente preciso y reproducible con respecto a mediciones lineales para evaluar defectos intraóseos con una diferencia de medias estandarizada ponderada de 0.03 mm. Se requieren más ensayos controlados aleatorios para evaluar la precisión de CBCT en la evaluación de pacientes con defectos periodontales

Applications of contemporary artificial intelligence technology in forensic odontology as primary forensic identifier: A scoping review

Background: Forensic odontology may require a visual or clinical methodduring identification. Sometimes it may require forensic experts to refer to the existing technique to identify individuals, for example, by using the atlas to estimate the dental age. However, the existing technology can be a complicated procedure for a large-scale incident requiring a more significant number of forensic identifications, particularly during mass disasters. This has driven many experts to perform automation in their current practice to improve e�ciency. Objective: This article aims to evaluate current artificial intelligence applications and discuss their performance concerning the algorithm architecture used in forensic odontology. Methods: This study summarizes the findings of 28 research papers published between 2010 and June 2022 using the Arksey and O’Malley framework, updated by the Joanna Briggs Institute Framework for Scoping Reviews methodology, highlighting the research trend of artificial intelligence technology in forensic odontology. In addition, a literature search was conducted on Web of Science (WoS), Scopus, Google Scholar, and PubMed, and the results were evaluated based on their content and significance. Results: The potential application of artificial intelligence technology in forensic odontology can be categorized into four: (1) human bite marks, (2) sex determination, (3) age estimation, and (4) dental comparison. This powerful tool can solve humanity’s problems by giving an adequate number of datasets, the appropriate implementation of algorithm architecture, and the proper assignment of hyperparameters that enable the model to perform the prediction at a very high level of performance. Conclusion: The reviewed articles demonstrate that machine learning techniques are reliable for studies involving continuous features such as morphometric parameters. However, machine learning models do not strictly require large training datasets to produce promising results. In contrast, deep learning enables the processing of unstructured data, such as medical images, which require large volumes of data. Occasionally, transfer learning was used to overcome the limitation of data. In the meantime, this method’s capacity to automatically learn task-specific feature representations has made it a significant success in forensic odontology

Family Influences on the Dental Caries Status of Children with Special Health Care Needs: A Systematic Review

Oral health is a likely source of health inequalities in children with special health care needs (CSHCN), according to multiple studies. This systematic review aimed to explore the evidence of family influence&mdash;as well as family features, such as societal variables and parents&rsquo; perspectives&mdash;on these children&rsquo;s dental caries status. Embase, Ebsco, Scopus, PubMed, and Web of Science databases were all searched. All cross-sectional research published on the variables of family impact ranging from 2010 to 2021 were considered. The DMFT and dmft index was utilised for the report data of dental caries, whereas the National Heart, Lung, and Blood Institute (NHLBI) was used for the purposes of assessing quality. Of the 3861 records identified, 14 were eligible. Further, most of the studies had a caries prevalence of over 50%, (p-value &lt; 0.005). Family influences imparted a significant relationship and association towards the dental caries status of the demographic being studied. The influences on the children included tooth brushing behaviour, parents&rsquo; education level, parents&rsquo; occupation level, diet pattern, dental visit, snacking frequency, parents&rsquo; psychological status, family size, and parents&rsquo; knowledge towards oral health. Future research should further explore the family functioning domains, specifically among the CSHCN population. This study was registered on PROSPERO, number CRD42021274923

Quantifications of Mandibular Trabecular Bone Microstructure Using Cone Beam Computed Tomography for Age Estimation: A Preliminary Study

The aim of this study is two-fold: first, to correlate the values for each of the trabecular bone microstructure (TBM) parameters to the individual&rsquo;s chronological age and sex, thereby facilitating the assessment of potential age and sex-related changes in trabecular bone microstructure parameters in the mandible; and second, to quantify the trabecular microstructural parameters in relation to chronological age. Twenty cone-beam computed tomographic (CBCT) scans were retrieved retrospectively from a database of adult patients with ages ranging in age from 22 to 43 years. In the mandible, the volume of interest included the inter-dental space between the second mandibular premolar and the first mandibular molar, as well as the trabecular space beneath and between the apices. Using the AnalyzeDirect 14.0 software, the DICOM images of CBCT scans were pre-processed, transformed, segmented using a novel semi-automatic threshold-guided method, and quantified. In addition, TBM parameters were derived, and statistical analysis was conducted using a Pearson correlation test with two tails. All parameters exhibited no statistically significant differences (p &gt; 0.05) between chronological age and sex. Statistically significant negative correlations were found between Tb. N (r = &minus;0.489), BS/TV (r = &minus;0.527), and chronological age (p = 0.029 and p = 0.017, respectively). Only Tb. N and BS/TV exhibited an inverse relationship with chronological age. Numerous studies have quantified the trabecular architecture of the jaw bones, but none have found a correlation between the quantified trabecular parameters and chronological age. The digital imprints produced by radiographic imaging can serve as biological profiles for data collection