The road to surgical simulation and surgical navigation

Suzuki, Norihiro; Hattori, Akira

doi:10.1007/s10055-008-0103-0

Cited by 4 publications

(2 citation statements)

References 18 publications

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“…The researchers in INRIA developed a virtual liver cutting operation system (Ayache, 1999) based with force feedback devices. Tokyo Jikei Medical University in Japan developed human living virtual surgery system based on sphere-filled model (Suzuki & Hattori, 2008), the system simulated the interactive manipulations of lifting, pressing and tissue cutting. NRC developed a neurosurgical virtual surgical simulator named NeuroTouch (Delorme, Laroche, Diraddo & Del Maestro, 2012), which reconstructed a 3-D high resolution human brain model based on MRI images, the surgeons can train the cutting operations of brain tumour by manipulating mechanical arms.…”

Section: Virtual Open Surgery Emulatormentioning

confidence: 99%

The application of virtual reality technology in medical education and training

Lai

Zou

2018

GJIT

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The development of virtual reality (VR) technology has greatly changed various industries, and medicine field is not exceptional too. This paper briefly introduces application of VR from two aspects. The application in theoretical teaching is virtual anatomy and virtual human projects have been widely researched in various universities and institutions all over the world, which will give medical students a more realistic visual sense compared to the traditional teaching methods with 2-D diagrams. And VR surgical system plays an important role in clinical practice training, which provides surgeons a simulation environment with vivid visual, auditory, haptic senses, it will be an excellent substitute of cadaver because residents and interns can repeat all kinds of operations in the system without limits.

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Section: Virtual Open Surgery Emulatormentioning

confidence: 99%

The application of virtual reality technology in medical education and training

Lai

Zou

2018

GJIT

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“…This system integrates computer graphics, computer network technology, 3D technology, force feedback technology and other high end technologies to develop a minimally invasive surgery training and evaluation system with high reality and high utility, and to provide users with the most immersive VR surgical training platform [1] . The system provides users with the most immersive VR minimally invasive surgical training platform through 3D display terminals, client graphic workstations and force feedback simulation workbench.…”

Section: Introductionmentioning

confidence: 99%

The Development of Minimally Invasive Surgery Simulation Training System Based on Virtual Reality Technology

Liu¹,

Jiang²,

Shen

2011

AMR

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Minimally Invasive Surgery Simulation Training System based on VR technology is comprised of intelligent 3-Dimensional images VR software system and simulated surgical instrument with high perceptibility and high precision force feedback characteristics. Real time VR and simulated instrument with force feedback interact with the operator in real time, achieve high immersive virtual surgery scenario, and allows trainees to perform and improve the whole surgical procedures. By applying synchronized network video server and real-time communication server based on TRP/RTCP, the instructor can view all details of an operator's surgical procedure by a network terminal, and provide real time technical guidance. The system covers minimally invasive surgeries of digestive, urinary, gynecological, thoracic, pediatric , etc.

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Medical Video Processing

Goswami¹,

Dey²,

Roy³

et al. 2017

Advances in Multimedia and Interactive Technologies

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In today's medical environments, imaging technology is extremely significant to provide information for accurate diagnosis. An increasing amount of graphical information from high resolution 3D scanners is being used for diagnoses. Improved medical data quality become one of the major aims of researchers. This leads to the development of various medical modalities supported by cameras that can provide videos for the human body internal for surgical purposes and more information for accurate diagnosis. The current chapter studied concept of the video processing, and its application in the medical domain. Based on the highlighted literatures, it is convinced that video processing and real time frame will have outstanding value in the clinical environments.

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The road to surgical simulation and surgical navigation

Cited by 4 publications

References 18 publications

The application of virtual reality technology in medical education and training

The application of virtual reality technology in medical education and training

The Development of Minimally Invasive Surgery Simulation Training System Based on Virtual Reality Technology

Medical Video Processing

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