Preface |
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vii | |
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Accelerating Technology Transfer: New Relationships for Academia, Industry, and Government |
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1 | (6) |
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An Immersive Environment for the Direct Visualization and Segmentation of Volumetric Data Sets |
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7 | (6) |
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The Virtual Reality Arthroscopy Training Simulator |
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13 | (7) |
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A Comparative Analysis of Integrating Visual Representations with Haptic Displays |
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20 | (7) |
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3D Visual Presentation of Shoulder Joint Motion |
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27 | (7) |
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Medical Volume Rendering over the WWW Using VRML and JAVA |
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34 | (7) |
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International Surgical Telementoring: Our Initial Experience |
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41 | (7) |
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48 | (5) |
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Web-Based Segmentation and Display of Three-Dimensional Radiologic Image Data |
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53 | (7) |
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Attract: Applications in Telemedicine Taking Rapid Advantage of Cable Television Network Evolution |
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60 | (7) |
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A Patient-Centric Approach to Telemedicine Database Development |
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67 | (7) |
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Secured Medical Imaging over the Internet |
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74 | (5) |
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Demonstration of Surgical Telerobotics and Virtual Telepresence by Internet + ISDN from Monterey (U.S.A.) to Milan (Italy) |
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79 | (5) |
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Virtual Endoscopy Software Application on a PC |
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84 | (6) |
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Audio-Guided Blind Biopsy Needle Placement |
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90 | (6) |
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Telepresence Interface with Applications to Microsurgery and Surgical Simulation |
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96 | (7) |
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Computer-Assisted Image-Guided Surgery Using the Regulus Navigator |
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103 | (7) |
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Virgy: A Virtual Reality and Force Feedback-Based Endoscopic Surgery Simulator |
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110 | (7) |
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VR Simulation of Abdominal Trauma Surgery |
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117 | (7) |
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Validation of Virtual Reality To Teach and Access Psychomotor Skills in Laparoscopic Surgery: Results from Randomised Controlled Studies Using the MIST VR Laparoscopic Simulator |
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124 | (7) |
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3D and 4D Atlas Systems of Living Human Body Structure |
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131 | (6) |
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CT-Based 3D-Planning for Dental Implantology |
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137 | (7) |
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Experience with MR-Guided Therapy |
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144 | (6) |
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Brain Surgery Simulation Systems Using VR Technique and Improvement of Presence |
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150 | (5) |
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A PC-Based Surgical Simulator for Laparoscopic Surgery |
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155 | (6) |
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Telemedicine: A Personal Journey |
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161 | (7) |
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Bedside Wellness: Development of a Virtual Forest Rehabilitation System |
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168 | (7) |
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Comparing Virtual and Real Worlds for Acrophobia Treatment |
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175 | (5) |
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A New Project for Rehabilitation and Psychomotor Disease Analysis with Virtual Reality Support |
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180 | (6) |
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Virtual Reality Techniques in the Treatment of Impotence and Premature Ejaculation |
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186 | (7) |
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Personal Stories Within Virtual Environments: Embodiments of a Model for Cancer Patient Information Software |
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193 | (3) |
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The Construction of Tridimensional Representation of Body and External Reality in Man: The Greatest Achievement of Evolution to Date Implications for Virtual Reality |
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196 | (6) |
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Review of Orthopaedic Manipualtor Arms |
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202 | (7) |
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Planning and Simulation of Medical Robot Tasks |
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209 | (6) |
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Motion Feedback as a Navigation Aid in Robot-Assisted Neurosurgery |
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215 | (5) |
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A System for Robot-Assisted Maxillofacial Surgery |
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220 | (7) |
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Simulator for Virtual Surgery Using Deformable Organ Models and Force Feedback System |
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227 | (7) |
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3D-Brain 2.0: Narrowing the Gap Between Personal Computers and High End Workstations |
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234 | (6) |
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The Virtual Instrumentation (VI) Laboratory Facilitates Customized On-Site Ergonomic Analysis of Minimally Invasive Surgery |
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240 | (6) |
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A Non-Intrusive Display Technique for Providing Real-Time Data Within a Surgeon's Critical Area of Interest |
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246 | (6) |
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The Virtual Retinal Display: A New Technology for Virtual Reality and Augmented Vision in Medicine |
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252 | (6) |
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A Sensate Liner for Biomedical Monitoring Applications |
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258 | (7) |
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Computerized Endoscopic Surgical Grasper |
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265 | (7) |
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Development of the Force-Feedback Model for an Epidural Needle Insertion Simulator |
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272 | (6) |
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A New Imaging Paradigm for Medical Applications |
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278 | (6) |
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A Theoretical Comparison of 2-Camera and 3-Camera Optical Localizers with Active or Passive Instrumentation |
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284 | (7) |
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Training Environment for Inferior Vena Caval Filter Placement |
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291 | (7) |
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Ultra Trainer: A Training System for Medical Ultrasound Examination |
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298 | (4) |
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A Commercially Viable Virtual Reality Knee Arthroscopy Training System |
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302 | (7) |
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Virtual Medical Trainer: Patient Assessment and Trauma Care Simulator |
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309 | (7) |
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Virtual Environments for Training Critical Skills in Laparoscopic Surgery |
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316 | (7) |
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A National Center for Biocomputation: In Search of a Patient-Specific Interactive Virtual Surgery Workbench |
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323 | (6) |
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Virtual Jaw: A 3D Simulation for Computer-Assisted Surgery and Education |
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329 | (7) |
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Assessing a VR-Based Learning Environment for Anatomy Education |
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336 | (5) |
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The Clinical Advantages of Editable Real-Time Volume Rendering in a Medical Virtual Environment: VolMed |
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341 | (5) |
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The Virtual Temporal Bone |
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346 | (7) |
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Knowledge-Based Segmentation |
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353 | (2) |
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Generating Finite Element Models from Volumetric Medical Images |
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355 | (2) |
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Advanced 3D-Visualization, Including Virtual Reality, Distributed by PES in Brain Research, Clinical Radiology, and Education |
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357 | (2) |
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Computer in the O.R. for Quality Control: Intraoperative Data Acquisition Model for Laparoscopy |
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359 | (2) |
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Trans-Telephonic Electrocardiographic Monitoring (TTEM): First Indian Experience |
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361 | (3) |
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Videoconferencing as a Medical Education Tool: First Experience in Argentinean Public Hospital |
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364 | (2) |
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Modeling of a Knee Joint for the VRDA Tool |
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366 | (2) |
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A Window on Regional Cerebral Blood Flow via Voluntary Hand Activity Using a Whole Hand Input in a Virtual Environment |
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368 | (2) |
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Information Frames: A New Multimedia Approach to Web-Based Learning of Biology and Medicine |
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370 | (3) |
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Building a Virtual Invasive Patient on a Budget |
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373 | (2) |
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Development and Evaluation of a Spine Biopsy Simulator |
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375 | (2) |
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Implications of 3D Visualization for Medical Education |
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377 | (2) |
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Simulation Technology in Surgical Education: Can We Assess Manipulative Skills and What Does It Mean to the Learner |
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379 | (2) |
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Modern Cosmology and the Origin of Our Three Dimensionality |
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381 | (2) |
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Internet-Based Telemedicine: A Practical Tool? |
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383 | (2) |
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Force Interactions in Laparoscopic Simulations: Haptic Rendering of Soft Tissues |
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385 | (7) |
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Formative Design of a Virtural Learning Environment |
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392 | (7) |
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Validation of the Madigan ESS Simulator |
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399 | (8) |
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Author Index |
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407 | |