A Ruprecht scite author profile

Background. Cone beam computed tomography (CBCT) has gained widespread acceptance in dentistry for a variety of applications. Most dentists who are not radiologists/trained in radiology are generally not familiar with interpretation of anatomical structures and/or pathosis outside their area of primary interest, as often this was not within the scope of their training. Objectives. To assess that the number of incidental findings on a CBCT scan is high both within and outside of the primary area of interest, thereby emphasizing the importance of interpretation of all areas visualized on the scan. Materials and Methods. An oral and maxillofacial radiologist reviewed 1000 CBCT scans (382 males and 618 females) for findings both in- and outside the area of interest. Results. Of the 1000 subjects that were reviewed, 943 scans showed findings in the primary regions of interest and/or outside the regions of interest, and 76 different conditions were visualized in these scans both in and outside the areas of interest. Conclusion. From the wide scope of findings noted on these scans, it can be concluded that it is essential that a person trained in advanced interpretation techniques in radiology interprets cone beam computed tomography scans.

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The three-dimensional microstructure of the trabecular bone in the mandible

Moon

Won

Kim

et al. 2004

Surg Radiol Anat

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This study investigated the three dimensional (3D) trabecular microstructure of the alveolar and basal bone in the mandible using micro-CT and compared the morphometric values of the different sites. Ten specimens were prepared and scanned using a micro-CT system. Both the alveolar and basal trabecular bone of the premolar region in the mandible were measured for the structural analysis. Cross-sectional 1024·1024 pixel images were created. From the two-dimensional (2D) images produced, 3D structural images were reconstructed. After scanning the specimen, the volumes of interest (VOI) of the alveolar and basal bone regions were selected from the 3D reconstruction images, and the structural parameters such as bone volume fraction, bone surface density, trabecular thickness, trabecular separation, trabecular number and structural model index were analyzed. The trabecular structure showed a marked variation within the sites of the specimen, especially in the basal trabecular bone inferior to the mandibular canal. In both the alveolar and basal bone regions, a mixture of both plate-like and rod-like structures was observed. The alveolar region showed a more compact, plate-type trabecular structure than the basal regions. In parametric comparison with the basal bone, the alveolar bone generally had a higher bone volume fraction, bone trabecular thickness and trabecular number, and lower bone surface density, trabecular separation and structural model index. The alveolar bone consisted of a compact bone structure with a large amount of thick plate-type trabecular bone, which was effectively resistant to the masticatory forces. As the measurements were made closer to the basal bone, a loose structure was observed with lower bone volume and fewer, thin, rod-like trabeculae.

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Parameters of radiologic care: An official report of the American Academy of Oral and Maxillofacial Radiology

White¹,

Heslop²,

Hollender³

et al. 2001

Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, an

111

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Accuracy of facial soft tissue thickness measurements in personal computer-based multiplanar reconstructed computed tomographic images

Kim

Ruprecht

Wang

et al. 2005

Forensic Science International

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AAE and AAOMR Joint Position Statement

Fayad¹,

Nair²,

Levin³

et al. 2015

Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology

236

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3D volume rendering using multislice CT for dental implants.

Cavalcanti

Ruprecht²,

Vannier³

2002

Dentomaxillofacial Radiology

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Accuracy of linear measurement in the Galileos cone beam computed tomography under simulated clinical conditions

Ganguly¹,

Ruprecht²,

Vincent³

et al. 2011

Dentomaxillofacial Radiology

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Objectives: The aim of this study was to determine the geometric accuracy of cone beam CT (CBCT)-based linear measurements of bone height obtained with the Galileos CBCT (Sirona Dental Systems Inc., Bensheim, Hessen, Germany) in the presence of soft tissues. Methods: Six embalmed cadaver heads were imaged with the Galileos CBCT unit subsequent to placement of radiopaque fiduciary markers over the buccal and lingual cortical plates. Electronic linear measurements of bone height were obtained using the Sirona software. Physical measurements were obtained with digital calipers at the same location. This distance was compared on all six specimens bilaterally to determine accuracy of the image measurements. Results: The findings showed no statistically significant difference between the imaging and physical measurements (P . 0.05) as determined by a paired sample t-test. The intraclass correlation was used to measure the intrarater reliability of repeated measures and there was no statistically significant difference between measurements performed at the same location (P . 0.05). Conclusions: The Galileos CBCT image-based linear measurement between anatomical structures within the mandible in the presence of soft tissues is sufficiently accurate for clinical use.

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Comparison of observer reliability of three-dimensional cephalometric landmark identification on subject images from Galileos and i-CAT cone beam CT

Katkar¹,

Kummet²,

Dawson³

et al. 2013

Dentomaxillofacial Radiology

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A Ruprecht

Incidental Findings on Cone Beam Computed Tomography Images

The three-dimensional microstructure of the trabecular bone in the mandible

Parameters of radiologic care: An official report of the American Academy of Oral and Maxillofacial Radiology

Accuracy of facial soft tissue thickness measurements in personal computer-based multiplanar reconstructed computed tomographic images

AAE and AAOMR Joint Position Statement

3D volume rendering using multislice CT for dental implants.

Accuracy of linear measurement in the Galileos cone beam computed tomography under simulated clinical conditions

Comparison of observer reliability of three-dimensional cephalometric landmark identification on subject images from Galileos and i-CAT cone beam CT

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