![dolphin imaging supported scanners dolphin imaging supported scanners](https://www.mdpi.com/ijms/ijms-22-12849/article_deploy/html/images/ijms-22-12849-g006.png)
The treatment Simulation software module includes interactive tools for high-precision diagnostics, planning, and creating presentations of clinical cases in a side projection. The combination of TRG (lateral ,frontal analysis) The combination of TRG and photographs of the patient profile
![dolphin imaging supported scanners dolphin imaging supported scanners](https://s1.manualzz.com/store/data/007971860_1-2c56d732d97e023f78b7c01704aedefc.png)
planning operations to improve the condition of the supporting bone.performing high-precision measurements.modeling the spatial position of the implant in the bone.a set of tools for improving the quality of x-ray images.Modeling of treatment: before, at the stage, after.Ī multi-functional and easy-to-use software module for planning implants directly on the patient’s x-ray image. improving communication with the patient.
![dolphin imaging supported scanners dolphin imaging supported scanners](https://www.dolphinimaging.com/areas/Support/images/Overview/English/Support_Alerts/20160908/20160907_MyOrthoQRcode_banner.jpg)
ability to print x-ray images in 1:1 scale.compare images step by step in real time.creating automatic cephalometric markup.orthodontic and surgical modeling: quickly changing the contours of the patient’s profile to demonstrate the predicted result of treatment, modeling of frontal images, detailed drawing tools.
Dolphin imaging supported scanners full#
import x-ray images and other images using the TWAIN standard, full integration with digital x-ray machines.organize patient photos in the desired sequence inside a standard template, and use a wide toolbar for image editing.Create a presentation of your treatment plan in an accessible way for the patient using powerful and intuitive tools. Allows you to manage photos, images, and x-rays. A more careful interpretation of CBCT volumetric data to achieve adequate conclusions of the clinical outcomes is necessary.The main module of the Dolphin Imaging software. Conclusions: Different CBCT exams with equal scanning and patient positioning protocols can result in different 3D PAS readings. Regarding the cephalometric angles, average differences between T0 and T1 scans were 0.6 degrees, 2.7 degrees, and 0.4 degrees for OPT.CVT, OPT.SN, and cranial base, respectively. Average differences of 682.1 mm(3), 2255.3 mm(3), and 517.4 mm(3) were found for the nasopharynx, oropharynx, and hypopharynx, respectively. However, The ICC between the measurements performed on the first and second CBCT scans (T0 and T1) showed that the only variable with high reproducibility between the 2 scans was cranial base, with an ICC >0.97. Results: The variables exhibited high intraclass correlation coefficients (ICCs) when measuring the same CBCT scan twice (T0 and T0). We also evaluated the craniocervical position with the use of a lateral cephalogram. Dolphin Imaging software was used to measure the volumes of the nasopharynx, oropharynx, and hypopharynx. The mean age at T0 was 31 years (range 17-62 years) and the follow-up records (T1) were taken after 4-6 months. Methods: We evaluated a total of 27 patients' CBCT scans obtained at 2 time points with the use of a standardized acquisition protocol. Our objective was to evaluate possible changes in the PAS reading in the same patient from their consecutive cone-beam computed tomography (CBCT) scans.
![dolphin imaging supported scanners dolphin imaging supported scanners](https://sc04.alicdn.com/kf/Hf8f21ee42086423dbe500d98ec605593t.jpg)
Introduction: Pharyngeal airway space (PAS) assessment has been used in the past for a better understanding of orthodontic and surgical outcomes however, this analysis could be unreliable.