Evaluating 3-Dimensional Soft Tissue Changes in Class III Chinese Patients after Orthognathic Surgery. JX Su, M Yow, MT Chew, HC Wong.

Date: September 2015. Source: 8th International Orthodontic Congress 2015, London. Aim: To evaluate facial soft tissue changes in Class III skeletal Chinese patients who have undergone orthognathic surgery. Objective. To determine if there is a correlation between hard and soft tissue movement after orthognathic surgery. Study Design: This is a retrospective study involving 15 Chinese…

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Assessment of the effects of different rapid maxillary expansion appliances on facial soft tissues using three-dimensional imaging, S Altındiş, E Toy, FA Başçiftçi.

Date: September 18, 2015. Source: Angle Orthodontist [Epub]. Objective: To determine three-dimensional (3D) effects of three different rapid maxillary expansion (RME) appliances on facial soft tissues. Materials and Methods: Forty-two children (18 boys, 24 girls) who required RME treatment were included in this study. Patients were randomly divided into three equal groups: banded RME, acrylic…

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Application of Computer-Assisted Design and Manufacture in Unilateral Alloplastic Microtia Reconstruction, H Chen, ZC Chen.

Date: September 17, 2015. Source: 16th Congress of International Society of Craniofacial Surgery (ISCFS) 2015. Presenter: Hsin-Yu Chen. Background: The advances in 3D scanning, computer-assisted design and manufacture (CAD/CAM), and rapid-prototyping technology make customizing a symmetric auricular framework feasible for unilateral microtia patients. In this study, we used an active stereo-photogrammetry system to acquire the…

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Precision of 3dMD in Anthropometry of the Auricle and its Application in Microtia Reconstruction, SH Mao, ZC Chen.

Date: September 17, 2015. Source: 16th Congress of International Society of Craniofacial Surgery (ISCFS) 2015. Presenter: Shih-Hsuan Mao. Method: A total of 20 normal adult ears were included in this study. Thirteen anthropometric measurements were taken, twice by two plastic surgeons using Direct Measurement (DM) and through images captured via 3dMD. The purpose was to…

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A Morphable Profile Model of the Human Head as an Outcome Tool for Craniosynostosis Surgery, C Duncan, R Armstrong, NE Pears.

Date: September 15, 2015. Source: 16th Congress of International Society of Craniofacial Surgery (ISCFS) 2015. Presenter: C Duncan. Introduction: Outcome analysis in craniosynostosis surgery is difficult and often relies on limited anthropometric measurement, qualitative analysis of photography or patient reported outcome. Quantifiable morphable models of the human face have been described but, to date, a…

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Facial Scanning With a Digital Camera: A Novel Way of Screening for Primary Angle Closure. HKY Choi, W Lin, SC Loon, C Tan, W Wong, J See, Z Gu, CK Kwoh, P Chew.

Date: September 2015 Source: Journal of Glaucoma, Volume 24 – Issue 7 – p 522–526. Purpose: We hypothesize that patients with primary angle closure (PAC) have common significant facial characteristics that set them apart from an age-matched, sex-matched, and race-matched control population. The primary objective of this study was to test whether a 3-dimensional (3D)…

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Preventing deformational plagiocephaly through parent guidance: a randomized, controlled trial. H Aarnivala, V Vuollo, V Harila, T Heikkinen, P Pirttiniemi, AM Valkama.

Date: September 2015. Source: European Journal of Pediatrics, 174(9):1197-208. Abstract: Deformational plagiocephaly (DP) occurs frequently in otherwise healthy infants. Many infants with DP undergo physiotherapy or helmet therapy, and ample treatment-related research is available. However, the possibility of preventing DP has been left with little attention. We sought to evaluate the effectiveness of intervention in the…

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Dyna: A Model of Dynamic Human Shape in Motion. G Pons-Moll, J Romero, N Mahmood, MJ Black.

Date: August 2015. Source: SIGGRAPH 2015. Journal ACM Transactions on Graphics (TOG), Volume 34 Issue 4, Article No. 120. SIGGRAPH Presentation: https://youtu.be/mWthea2K8-Q Abstract: To look human, digital full-body avatars need to have soft-tissue deformations like those of real people. We learn a model of soft-tissue deformations from examples using a high-resolution 4D capture system and…

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

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…

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This 4D scanner captures your unique bodily 'jiggle,' by Liat Clark.

Date: 11 August 15 Headline: This 4D scanner captures your unique bodily ‘jiggle’ by Liat Clark Source: http://www.wired.co.uk/news/archive/2015-08/11/modelling-body-fat-jiggle-in-4d The future avatars we embody will show every lump, bump and jiggle of our soft human flesh – and you have tech to thank. A team at the Max Planck Institute for Intelligent Systems (MPI-IS) has developed…

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