Reproducibility of the lip position at rest: A 3-dimensional perspective. Furkan Dindaroğlu, Gökhan Serhat Duran, Serkan Görgülü.

3dMD Customer Research, Dental, Medical, Craniofacial/Cleft, Oral and Maxillofacial, Orthodontics

Date: May 2016. Source: American Journal of Orthodontics and Dentofacial Orthopedics, Volume 149, Issue 5, Pages 757–765. Highlights: • We assessed the reproducibility of the rest position using 3D soft tissue images. • 3D stereophotogrammetry images of a participant were acquired using 3dMD flex. • The reproducibility was assessed on the same day and 6…

Social smile reproducibility using 3-D stereophotogrammetry and reverse engineering technology. F Dindaroğlu, GS Duran, S Görgülü, E Yetkiner.

3dMD Customer Research, Dental

Date: May 2016. Source: Angle Orthodontist, 86(3):448-55. doi: 10.2319/040915-236.1. Objective: To assess the range of social smile reproducibility using 3-D stereophotogrammetry and reverse engineering technology. Materials and Methods: Social smile images of white adolescents (N = 15, mean age = 15.4 ±1.5 years; range = 14-17 years) were obtained using 3dMDFlex (3dMD, Atlanta, USA). Each…

Reproducibility and reliability of three-dimensional soft tissue landmark identification using three-dimensional stereophotogrammetry. A Baysal, AO Sahan, MA Ozturk, T Uysal.

3dMD Customer Research, Dental, Medical, 3dMDface, Craniofacial/Cleft, Oral and Maxillofacial, Orthodontics, Orthognathic, Plastics, 3dMDface System

Date: February 2016 (ONLINE AHEAD OF PRINT). Source: Angle Orthodontist Objective: To evaluate the intraexaminer repeatability and interexaminer reproducibility of soft tissue landmarks on three-dimensional (3D) stereophogrammetric images. Materials and Methods: Thirty-four stereophotogrammetric images were taken and 19 soft tissue points were identified. The images were obtained using the 3dMDface (3dMD, Atlanta, USA) system. Two…

Social smile reproducibility using 3-D stereophotogrammetry and reverse engineering technology. F Dindaroğlu, GS Duran GS, S Görgülü S, E Yetkiner.

3dMD Customer Research, Computer Science | Computer Vision, Dental, Medical, Psychology, Morphometrics, Craniofacial/Cleft, Oral and Maxillofacial, Orthodontics

Date: August 2015. Source: Angle Orthod. [Epub ahead of print] Objective: To assess the range of social smile reproducibility using 3-D stereophotogrammetry and reverse engineering technology. Materials and Methods: Social smile images of white adolescents (N=15, mean age = 15.4 ±1.5 years; range = 14-17 years) were obtained using 3dMDflex (3dMD, Atlanta, Ga). Each participant was asked…

Thesis: Investigating the Accuracy and Reproducibility of 3dMDface System for Soft Tissue Analysis. YM Kachroo.

3dMD Customer Research, Computer Science | Computer Vision, Dental, Human Factors | Anthropometric, Medical, 3dMDface, Anthropometric, Computer Science, Morphometrics, Craniofacial/Cleft, Oral and Maxillofacial, Orthodontics, Plastics, 3dMDface System

Date: June 2015. Source: Theses. ProQuest, Publication No. 1590412. University of California, Los Angeles. Advisers: Yeumin Hong; Won Moon. Objective: Three-dimensional (3D) soft tissue (ST) changes from orthodontic treatment can now be evaluated with the development of 3D photography. However, the accuracy and reliability of this method is still in question. This study aims to…