Mixed reality orthognathic surgical simulation by entity model manipulation and 3D-image display

Tatsunari Shimonagayoshi; Yoshimitsu Aoki; Kenji Fushima; Masaru Kobayashi

doi:10.1117/12.649450

Mixed reality orthognathic surgical simulation by entity model manipulation and 3D-image display

Tatsunari Shimonagayoshi, Yoshimitsu Aoki, Kenji Fushima, Masaru Kobayashi

Research output: Contribution to journal › Conference article › peer-review

1 Citation (Scopus)

Abstract

In orthognathic surgery, the framing of 3D-surgical planning that considers the balance between the front and back positions and the symmetry of the jawbone, as well as the dental occlusion of teeth, is essential. In this study, a support system for orthodontic surgery to visualize the changes in the mandible and the occlusal condition and to determine the optimum position in mandibular osteotomy has been developed. By integrating the operating portion of a tooth model that is to determine the optimum occlusal position by manipulating the entity tooth model and the 3D-CT skeletal images (3D image display portion) that are simultaneously displayed in real-time, the determination of the mandibular position and posture in which the improvement of skeletal morphology and occlusal condition is considered, is possible. The realistic operation of the entity model and the virtual 3D image display enabled the construction of a surgical simulation system that involves augmented reality.

Original language	English
Article number	60510M
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	6051
DOIs	https://doi.org/10.1117/12.649450
Publication status	Published - 2005 Dec 1
Externally published	Yes
Event	Optomechatronic Machine Vision - Sappora, Japan Duration: 2005 Dec 5 → 2005 Dec 7

Keywords

3D-image display
Entity model manipulation
Mixed reality
Real time processing
Surgical simulation

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

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10.1117/12.649450

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title = "Mixed reality orthognathic surgical simulation by entity model manipulation and 3D-image display",

abstract = "In orthognathic surgery, the framing of 3D-surgical planning that considers the balance between the front and back positions and the symmetry of the jawbone, as well as the dental occlusion of teeth, is essential. In this study, a support system for orthodontic surgery to visualize the changes in the mandible and the occlusal condition and to determine the optimum position in mandibular osteotomy has been developed. By integrating the operating portion of a tooth model that is to determine the optimum occlusal position by manipulating the entity tooth model and the 3D-CT skeletal images (3D image display portion) that are simultaneously displayed in real-time, the determination of the mandibular position and posture in which the improvement of skeletal morphology and occlusal condition is considered, is possible. The realistic operation of the entity model and the virtual 3D image display enabled the construction of a surgical simulation system that involves augmented reality.",

keywords = "3D-image display, Entity model manipulation, Mixed reality, Real time processing, Surgical simulation",

author = "Tatsunari Shimonagayoshi and Yoshimitsu Aoki and Kenji Fushima and Masaru Kobayashi",

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AU - Shimonagayoshi, Tatsunari

AU - Aoki, Yoshimitsu

AU - Fushima, Kenji

AU - Kobayashi, Masaru

PY - 2005/12/1

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N2 - In orthognathic surgery, the framing of 3D-surgical planning that considers the balance between the front and back positions and the symmetry of the jawbone, as well as the dental occlusion of teeth, is essential. In this study, a support system for orthodontic surgery to visualize the changes in the mandible and the occlusal condition and to determine the optimum position in mandibular osteotomy has been developed. By integrating the operating portion of a tooth model that is to determine the optimum occlusal position by manipulating the entity tooth model and the 3D-CT skeletal images (3D image display portion) that are simultaneously displayed in real-time, the determination of the mandibular position and posture in which the improvement of skeletal morphology and occlusal condition is considered, is possible. The realistic operation of the entity model and the virtual 3D image display enabled the construction of a surgical simulation system that involves augmented reality.

AB - In orthognathic surgery, the framing of 3D-surgical planning that considers the balance between the front and back positions and the symmetry of the jawbone, as well as the dental occlusion of teeth, is essential. In this study, a support system for orthodontic surgery to visualize the changes in the mandible and the occlusal condition and to determine the optimum position in mandibular osteotomy has been developed. By integrating the operating portion of a tooth model that is to determine the optimum occlusal position by manipulating the entity tooth model and the 3D-CT skeletal images (3D image display portion) that are simultaneously displayed in real-time, the determination of the mandibular position and posture in which the improvement of skeletal morphology and occlusal condition is considered, is possible. The realistic operation of the entity model and the virtual 3D image display enabled the construction of a surgical simulation system that involves augmented reality.

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