They make your dental practice more efficient and ultimately give you more time for your patients. The systems are designed to be simple and easy to use. SOREDEX® digital imaging systems are innovative and accurate diagnostic tools that integrate seamlessly and easily into a dental practice, enhancing the imaging process and improving the workflow. Applying over three decades of experience of imaging excellence, we offer reliable and easy-to-use solutions that help you focus on patient care. Operating worldwide, SOREDEX offers quality imaging systems of true diagnostic value, based on an in-depth understanding of the dental practice. About SOREDEX SOREDEX® designs, develops, manufactures and markets dental imaging systems with an emphasis on innovative digital solutions.
#New digora optime windows
The latest DIGORA® Optime digital imaging plate system, with the new version of the DIGORA® for Windows software, includes also several additional improvements, like showing the patient name on the units display and drag-and-drop support to and from the software. The optimized size and shape of the Comfort Occlusal bite protector enables easy positioning and shields the imaging plates effectively from wear and damage. The unique Comfort Occlusal provides a pleasant imaging procedure for the occlusal projection imaging, even with pediatric patients. The Opticlean hygiene concept is protected by various patents, patent applications and registered designs. In the DIGORA® Optime imaging plate system there is never a need to touch the re-usable imaging plate during the imaging procedure. In addition, the Opticlean hygiene concept provides effortless end-to-end hygienic workflow with touchless operation and enhanced Optibag hygiene bags. This is the latest iteration of the system. The quality of the images is superior to Scan X and other similar charged plate systems in my opinion. My experience with it has been on numerous international discussion forums. Agreement among observers in terms of the number of perceived details was excellent, with the AMICC ranging from 0.845–0.889.ConclusionDigora Optime achieved the best contrast at a lower exposure and demonstrated a better dose response.Not very well known in Canada from what I can determine, this is truly one of the most superb phosphor plate digital systems I’ve seen. The number of details perceived on Optime images was significantly higher than that obtained on the fmx images at all exposure levels (P < 0.05). Digora Optime operated over a wide range of exposures however, the fmx showed a narrower dynamic range. Images obtained with the Optime system achieved the best contrast at a lower exposure than that of the fmx images. The average measured intraclass correlation coefficient (AMICC) was used to compare inter-rater agreement for the number of perceived details.ResultsThe mean gray level output of fmx images was higher, whereas the contrast was lower than Optime images at all exposure levels (P < 0.05). The user can immediately verify image quality and determine if a retake is needed. Image preview The digitized image is displayed instantly on the units display.
#New digora optime how to
Even new users quickly learn how to use the system e'ciently. Repeated-measures of analysis of variance and paired t tests were used to compare the mean gray values and perceptible number of details at each exposure level (P = 0.05). DIGORA Optime supports users with clear animations. In addition, a perceptibility curve test was used to compare the psychophysical properties of the two SPP systems. For each system, pixel-intensity (the mean gray value) measurements, contrast resolution, and exposure range were determined and compared. Three new and three used IPs were tested for signal fading, and the other two new IPs were exposed 1000 times and then tested for durability. Materials and methodsRadiographs of an aluminum test object with a pattern of holes that varied in depth and diameter were exposed to 65 kVp and 10 mA for nine different time settings ranging from a minimum (0.05 seconds) to a maximum (3.2 seconds) using the Digora Optime and Digora fmx SPP systems. AbstractBackground/purposeThe aim of this study was to compare the physical and psychophysical characteristics of a new generation of the Digora storage phosphor plate (SPP) system with its previous version.