Forensic Medicine

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Richard Dirnhofer - One of the best experts on this subject based on the ideXlab platform.

  • the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine
    2009
    Co-Authors: Michael Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Introduction Foreward (R)evolution in Forensic Medicine - Preface From Autopsy to Virtopsy: Oral Description Versus Image - Value of Evidence History of Virtopsy - How it all began... "Virtopsy (R) after more than some 100 cases: Statement and Perspectives of Forensic Imaging by using 3D Optical and combined CT / MRI Whole Body Scanning" Legal Side Virtopsy and the Law The Extraordinary Death Virtopsy and the Swiss Legal system - New Evidence Law in Forensic Medicine? Religion Imaging and Visualization Methods / Explanation of Technique External Body Documentation Historical Development of Geometric Documentation of Wounds in Forensic Medicine Photogrammetrical 3D Documentation Optical 3D Surface Scanning Photogrammetry and 3D Surface Scanning of the Deceased Digitizing of Injuries of Living Persons Internal Body Documentation Conventional Radiography X-ray Computed Tomography Micro-CT Basics of MR Imaging and Spectroscopy Virtual Histology by Magnetic Resonance Microscopy 3D Visualization of Radiological Data Visualization of Radiological Data - Basics Visualization of Radiological Data - Future Storage of Radiological Data (PACS) The Virtopsy Database Head to toe: Forensic Atlas and Application of Imaging techniques Intravital Versus Post-Mortem Imaging The Virtopsy Project - a Historical Overview of the Literature External Body Documentation 3D Photogrammetric Analysis of Injuries Generation of 3D Models from the Surface Scanning Data Visualization of the 3D Models in True Color Internal Body Documentation Conventional Radiology Computed Tomography - CT Magnetic Resonance Imaging - MRI Nuclear Magnetic Resonance Spectroscopy in Forensic Medicine Documentation of Extracorporeal Findings Injury-Inflicting Instruments Incident Scenes Forensic Topics Radiologic Identification Thanatology Decomposition Investigation of Decomposing Sheep Brain by Means of 1H-MR-Spectroscopy: An Attempt Towards an Objective PMI Estimation in the Later Postmortem Period Vital Reactions / Vital Signs Incident Specific Natural Death Cerebral Pathology in Natural Death Cardiac Pathology Other Organsystem Pathology Post-Mortem Imaging of Blunt Trauma Forensic Neuroimaging Sharp Trauma Gunshot Fatal Hemorrhage in Post-mortem Cross Sectional Radiology Strangulation Drowning - Post-Mortem Imaging Findings Thermal Damage Thermal Damage - Heat and Burns Hypothermia Electricity Clinical Forensic Imaging Medical Malpractice Virtopsy as a Multi Tool Approach Analysis, Visualization and Reconstruction Methods Morphologic- Geometric Comparison of Patterned Injuries with the Assumed Injury Causing Tool Forensic Reconstruction Blood Spatter Analysis Footprint Documentation Biopsy Angiography Post-Mortem Angiography: Historical Review and Overview of Former and Current Techniques Postmortem Minimal Invasive Angiography Experiences with Virtual Autopsy Approached Worldwide Miscellaneous Paleoradiology Forensic Veterinary Radiology

  • virtopsy the concept of a centralized database in Forensic Medicine for analysis and comparison of radiological and autopsy data
    Journal of Forensic and Legal Medicine, 2008
    Co-Authors: Emin Aghayev, Richard Dirnhofer, Lukas P Staub, Tony Ambrose, Christian Jackowski, Kathrin Yen, Stephan A Bolliger, Andreas Christe, Christoph Roeder
    Abstract:

    Recent developments in clinical radiology have resulted in additional developments in the field of Forensic radiology. After implementation of cross-sectional radiology and optical surface documentation in Forensic Medicine, difficulties in the validation and analysis of the acquired data was experienced. To address this problem and for the comparison of autopsy and radiological data a centralized database with internet technology for Forensic cases was created. The main goals of the database are (1) creation of a digital and standardized documentation tool for Forensic-radiological and pathological findings; (2) establishing a basis for validation of Forensic cross-sectional radiology as a non-invasive examination method in Forensic Medicine that means comparing and evaluating the radiological and autopsy data and analyzing the accuracy of such data; and (3) providing a conduit for continuing research and education in Forensic Medicine. Considering the infrequent availability of CT or MRI for Forensic institutions and the heterogeneous nature of case material in Forensic Medicine an evaluation of benefits and limitations of cross-sectional imaging concerning certain Forensic features by a single institution may be of limited value. A centralized database permitting international Forensic and cross disciplinary collaborations may provide important support for Forensic-radiological casework and research.

  • comprar the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine michael j thali 9780849381782 informa healthcare
    2008
    Co-Authors: Michael J Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Tienda online donde Comprar The Virtopsy Approach: 3D Optical and Radiological Scanning and Reconstruction in Forensic Medicine al precio 174,84 € de Michael J. Thali | Richard Dirnhofer | Peter Vock, tienda de Libros de Medicina, Libros de Radiologia - Radiologia General

  • virtopsy radiology in Forensic Medicine
    Imaging Decisions Mri, 2007
    Co-Authors: Silke Grabherr, Richard Dirnhofer, Andreas Christe, B A Stephan, Ursula Buck, Silvio Nather, Lars Oesterhelweg, Steffen Ross, Michael J Thali
    Abstract:

    Summary During the last few years, modern cross-sectional imaging techniques have pioneered Forensic Medicine. Magnetic resonance imaging and especially multislice computed tomography are becoming increasingly implemented into post-mortem examinations. These non-invasive techniques can augment and even partially replace a traditional autopsy. Beside the radiological imaging techniques, the methods of three-dimensional surface scanning and photogrammetry are used for the documentation of the external findings of the body. To realize the goal of a minimal-invasive autopsy, other tools like post-mortem biopsy and post-mortem angiography have been developed. In analogy to the clinical use of biopsy and angiography these techniques will permit post-mortem tissue sampling for further analyses and enable post-mortem examinations of the vascular system. With the use of these methods, a minimally invasive, objective and investigatorindependent documentation of Forensic cases can be realized to reach quality improvements in Forensic pathological investigations.

  • optical 3d surface digitizing in Forensic Medicine 3d documentation of skin and bone injuries
    Forensic Science International, 2003
    Co-Authors: Michael J Thali, Marcel Braun, Richard Dirnhofer
    Abstract:

    Photography process reduces a three-dimensional (3D) wound to a two-dimensional level. If there is a need for a high-resolution 3D dataset of an object, it needs to be three-dimensionally scanned. No-contact optical 3D digitizing surface scanners can be used as a powerful tool for wound and injury-causing instrument analysis in trauma cases. The 3D skin wound and a bone injury documentation using the optical scanner Advanced TOpometric Sensor (ATOS II, GOM International, Switzerland) will be demonstrated using two illustrative cases. Using this 3D optical digitizing method the wounds (the virtual 3D computer model of the skin and the bone injuries) and the virtual 3D model of the injury-causing tool are graphically documented in 3D in real-life size and shape and can be rotated in the CAD program on the computer screen. In addition, the virtual 3D models of the bone injuries and tool can now be compared in a 3D CAD program against one another in virtual space, to see if there are matching areas. Further steps in Forensic Medicine will be a full 3D surface documentation of the human body and all the Forensic relevant injuries using optical 3D scanners.

Michael J Thali - One of the best experts on this subject based on the ideXlab platform.

  • communicating 3d data interactive 3d pdf documents for expert reports and scientific publications in the field of Forensic Medicine
    International Journal of Legal Medicine, 2020
    Co-Authors: Soren Kottner, Michael J Thali, Patricia M Flach, Dominic Gascho, Garyfalia Ampanozi, Lars C Ebert
    Abstract:

    Introduction: Modern Forensic investigations increasingly revert to 3D imaging techniques, such as computed tomography, magnetic resonance imaging, and 3D surface imaging. Findings are therefore often based on 3D data sets; however, this information is commonly reported and communicated within 2D imagery. The use of interactive 3D PDFs is already established in the scientific community but has yet to be implemented in the field of Forensic Medicine. Methods and materials: Three example cases were chosen to serve as exemplary data for the most commonly applied imaging techniques in postmortem imaging. 3D surface models were created from postmortem magnetic resonance imaging (PMMR), postmortem computed tomography (PMCT), and 3D surface imaging data sets. Results: PMMR revealed a space-occupying subdural hemorrhage that led to ipsilateral compression of the brain tissue of the right hemisphere. PMCT displayed a defect in the skull on the left side of the temporal bone. 3D surface imaging data displayed a patterned discoloration on the inside of the left forearm. Discussion: Interactive 3D PDFs offer the possibility to communicate 3D information to the reader while maintaining all the benefits of a regular 2D PDF. With Adobe Acrobat, the reader can interactively navigate through 3D data sets and create sufficient depth cues to generate a realistic 3D perception of the data. Conclusion: The interactive 3D PDF is a useful extension of standard 2D PDFs and has the potential to communicate 3D data to the reader in a more complete, more comprehensible, and less subjective manner than 2D PDFs.

  • Forensic 3d surface documentation at the institute of Forensic Medicine in zurich workflow and communication pipeline
    Journal of forensic radiology and imaging, 2016
    Co-Authors: Lars C Ebert, Michael J Thali, Patricia M Flach, Wolf Schweitzer, Anja Leipner, Soren Kottner, Dominic Gascho, Robert Breitbeck
    Abstract:

    Abstract This educational article is an introduction for Forensic pathologists to the use of structured light scanners for the documentation of bodies, living persons and objects. We discuss the general layout of the relevant parts for Virtual Autopsy at the Institute of Forensic Medicine in Zurich, the communication organization and the embedding of scanning into the general workflow. A brief introduction on the processing of compiled data for use in incident reconstruction is also provided.

  • one small scan for radiology one giant leap for Forensic Medicine post mortem imaging replaces Forensic autopsy in a case of traumatic aortic laceration
    Legal Medicine, 2011
    Co-Authors: Thomas D Ruder, Gary M Hatch, Michael J Thali, Nadja Fischer
    Abstract:

    The questions of cause and manner of death are the most pressing ones in any Forensic investigation. Traditionally, autopsy is the means to provide answers to these questions and despite the increasing use of CT and MR in the post-mortem setting, imaging has usually been an adjunct to Forensic autopsy. Here we describe a case where post-mortem CT and MR were performed instead of autopsy, at the request of the responsible public prosecutor. The Forensic conclusions derived from imaging, including cause and manner of death were accepted by the legal authorities, thereby setting precedence for future cases. This case represents a landmark in Forensic Medicine and is another step toward the full realization of minimally invasive Forensic autopsy.

  • comprar the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine michael j thali 9780849381782 informa healthcare
    2008
    Co-Authors: Michael J Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Tienda online donde Comprar The Virtopsy Approach: 3D Optical and Radiological Scanning and Reconstruction in Forensic Medicine al precio 174,84 € de Michael J. Thali | Richard Dirnhofer | Peter Vock, tienda de Libros de Medicina, Libros de Radiologia - Radiologia General

  • virtopsy radiology in Forensic Medicine
    Imaging Decisions Mri, 2007
    Co-Authors: Silke Grabherr, Richard Dirnhofer, Andreas Christe, B A Stephan, Ursula Buck, Silvio Nather, Lars Oesterhelweg, Steffen Ross, Michael J Thali
    Abstract:

    Summary During the last few years, modern cross-sectional imaging techniques have pioneered Forensic Medicine. Magnetic resonance imaging and especially multislice computed tomography are becoming increasingly implemented into post-mortem examinations. These non-invasive techniques can augment and even partially replace a traditional autopsy. Beside the radiological imaging techniques, the methods of three-dimensional surface scanning and photogrammetry are used for the documentation of the external findings of the body. To realize the goal of a minimal-invasive autopsy, other tools like post-mortem biopsy and post-mortem angiography have been developed. In analogy to the clinical use of biopsy and angiography these techniques will permit post-mortem tissue sampling for further analyses and enable post-mortem examinations of the vascular system. With the use of these methods, a minimally invasive, objective and investigatorindependent documentation of Forensic cases can be realized to reach quality improvements in Forensic pathological investigations.

Patricia M Flach - One of the best experts on this subject based on the ideXlab platform.

  • communicating 3d data interactive 3d pdf documents for expert reports and scientific publications in the field of Forensic Medicine
    International Journal of Legal Medicine, 2020
    Co-Authors: Soren Kottner, Michael J Thali, Patricia M Flach, Dominic Gascho, Garyfalia Ampanozi, Lars C Ebert
    Abstract:

    Introduction: Modern Forensic investigations increasingly revert to 3D imaging techniques, such as computed tomography, magnetic resonance imaging, and 3D surface imaging. Findings are therefore often based on 3D data sets; however, this information is commonly reported and communicated within 2D imagery. The use of interactive 3D PDFs is already established in the scientific community but has yet to be implemented in the field of Forensic Medicine. Methods and materials: Three example cases were chosen to serve as exemplary data for the most commonly applied imaging techniques in postmortem imaging. 3D surface models were created from postmortem magnetic resonance imaging (PMMR), postmortem computed tomography (PMCT), and 3D surface imaging data sets. Results: PMMR revealed a space-occupying subdural hemorrhage that led to ipsilateral compression of the brain tissue of the right hemisphere. PMCT displayed a defect in the skull on the left side of the temporal bone. 3D surface imaging data displayed a patterned discoloration on the inside of the left forearm. Discussion: Interactive 3D PDFs offer the possibility to communicate 3D information to the reader while maintaining all the benefits of a regular 2D PDF. With Adobe Acrobat, the reader can interactively navigate through 3D data sets and create sufficient depth cues to generate a realistic 3D perception of the data. Conclusion: The interactive 3D PDF is a useful extension of standard 2D PDFs and has the potential to communicate 3D data to the reader in a more complete, more comprehensible, and less subjective manner than 2D PDFs.

  • Forensic 3d surface documentation at the institute of Forensic Medicine in zurich workflow and communication pipeline
    Journal of forensic radiology and imaging, 2016
    Co-Authors: Lars C Ebert, Michael J Thali, Patricia M Flach, Wolf Schweitzer, Anja Leipner, Soren Kottner, Dominic Gascho, Robert Breitbeck
    Abstract:

    Abstract This educational article is an introduction for Forensic pathologists to the use of structured light scanners for the documentation of bodies, living persons and objects. We discuss the general layout of the relevant parts for Virtual Autopsy at the Institute of Forensic Medicine in Zurich, the communication organization and the embedding of scanning into the general workflow. A brief introduction on the processing of compiled data for use in incident reconstruction is also provided.

  • Virtobot 2.0: the future of automated surface documentation and CT-guided needle placement in Forensic Medicine
    Forensic Science Medicine and Pathology, 2014
    Co-Authors: Lars Christian Ebert, Michael Thali, Robert Breitbeck, Wolfgang Ptacek, Martin Fürst, Gernot Kronreif, Rosa Maria Martinez, Patricia M Flach
    Abstract:

    In this paper we present the second prototype of a robotic system to be used in Forensic Medicine. The system is capable of performing automated surface documentation using photogrammetry, optical surface scanning and image-guided, post-mortem needle placement for tissue sampling, liquid sampling, or the placement of guide wires. The upgraded system includes workflow optimizations, an automatic tool-change mechanism, a new software module for trajectory planning and a fully automatic computed tomography-data-set registration algorithm. We tested the placement accuracy of the system by using a needle phantom with radiopaque markers as targets. The system is routinely used for surface documentation and resulted in 24 surface documentations over the course of 11 months. We performed accuracy tests for needle placement using a biopsy phantom, and the Virtobot placed introducer needles with an accuracy of 1.4 mm (±0.9 mm). The second prototype of the Virtobot system is an upgrade of the first prototype but mainly focuses on streamlining the workflow and increasing the level of automation and also has an easier user interface. These upgrades make the Virtobot a potentially valuable tool for case documentation in a scalpel-free setting that uses purely imaging techniques and minimally invasive procedures and is the next step toward the future of virtual autopsy.

Michael Thali - One of the best experts on this subject based on the ideXlab platform.

  • Communicating 3D data—interactive 3D PDF documents for expert reports and scientific publications in the field of Forensic Medicine
    International Journal of Legal Medicine, 2019
    Co-Authors: Soren Kottner, Michael Thali, Dominic Gascho, Patricia Mildred Flach, Garyfalia Ampanozi, Lars C Ebert
    Abstract:

    Introduction Modern Forensic investigations increasingly revert to 3D imaging techniques, such as computed tomography, magnetic resonance imaging, and 3D surface imaging. Findings are therefore often based on 3D data sets; however, this information is commonly reported and communicated within 2D imagery. The use of interactive 3D PDFs is already established in the scientific community but has yet to be implemented in the field of Forensic Medicine. Methods and materials Three example cases were chosen to serve as exemplary data for the most commonly applied imaging techniques in postmortem imaging. 3D surface models were created from postmortem magnetic resonance imaging (PMMR), postmortem computed tomography (PMCT), and 3D surface imaging data sets. Results PMMR revealed a space-occupying subdural hemorrhage that led to ipsilateral compression of the brain tissue of the right hemisphere. PMCT displayed a defect in the skull on the left side of the temporal bone. 3D surface imaging data displayed a patterned discoloration on the inside of the left forearm. Discussion Interactive 3D PDFs offer the possibility to communicate 3D information to the reader while maintaining all the benefits of a regular 2D PDF. With Adobe Acrobat, the reader can interactively navigate through 3D data sets and create sufficient depth cues to generate a realistic 3D perception of the data. Conclusion The interactive 3D PDF is a useful extension of standard 2D PDFs and has the potential to communicate 3D data to the reader in a more complete, more comprehensible, and less subjective manner than 2D PDFs.

  • Virtobot 2.0: the future of automated surface documentation and CT-guided needle placement in Forensic Medicine
    Forensic Science Medicine and Pathology, 2014
    Co-Authors: Lars Christian Ebert, Michael Thali, Robert Breitbeck, Wolfgang Ptacek, Martin Fürst, Gernot Kronreif, Rosa Maria Martinez, Patricia M Flach
    Abstract:

    In this paper we present the second prototype of a robotic system to be used in Forensic Medicine. The system is capable of performing automated surface documentation using photogrammetry, optical surface scanning and image-guided, post-mortem needle placement for tissue sampling, liquid sampling, or the placement of guide wires. The upgraded system includes workflow optimizations, an automatic tool-change mechanism, a new software module for trajectory planning and a fully automatic computed tomography-data-set registration algorithm. We tested the placement accuracy of the system by using a needle phantom with radiopaque markers as targets. The system is routinely used for surface documentation and resulted in 24 surface documentations over the course of 11 months. We performed accuracy tests for needle placement using a biopsy phantom, and the Virtobot placed introducer needles with an accuracy of 1.4 mm (±0.9 mm). The second prototype of the Virtobot system is an upgrade of the first prototype but mainly focuses on streamlining the workflow and increasing the level of automation and also has an easier user interface. These upgrades make the Virtobot a potentially valuable tool for case documentation in a scalpel-free setting that uses purely imaging techniques and minimally invasive procedures and is the next step toward the future of virtual autopsy.

  • the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine
    2009
    Co-Authors: Michael Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Introduction Foreward (R)evolution in Forensic Medicine - Preface From Autopsy to Virtopsy: Oral Description Versus Image - Value of Evidence History of Virtopsy - How it all began... "Virtopsy (R) after more than some 100 cases: Statement and Perspectives of Forensic Imaging by using 3D Optical and combined CT / MRI Whole Body Scanning" Legal Side Virtopsy and the Law The Extraordinary Death Virtopsy and the Swiss Legal system - New Evidence Law in Forensic Medicine? Religion Imaging and Visualization Methods / Explanation of Technique External Body Documentation Historical Development of Geometric Documentation of Wounds in Forensic Medicine Photogrammetrical 3D Documentation Optical 3D Surface Scanning Photogrammetry and 3D Surface Scanning of the Deceased Digitizing of Injuries of Living Persons Internal Body Documentation Conventional Radiography X-ray Computed Tomography Micro-CT Basics of MR Imaging and Spectroscopy Virtual Histology by Magnetic Resonance Microscopy 3D Visualization of Radiological Data Visualization of Radiological Data - Basics Visualization of Radiological Data - Future Storage of Radiological Data (PACS) The Virtopsy Database Head to toe: Forensic Atlas and Application of Imaging techniques Intravital Versus Post-Mortem Imaging The Virtopsy Project - a Historical Overview of the Literature External Body Documentation 3D Photogrammetric Analysis of Injuries Generation of 3D Models from the Surface Scanning Data Visualization of the 3D Models in True Color Internal Body Documentation Conventional Radiology Computed Tomography - CT Magnetic Resonance Imaging - MRI Nuclear Magnetic Resonance Spectroscopy in Forensic Medicine Documentation of Extracorporeal Findings Injury-Inflicting Instruments Incident Scenes Forensic Topics Radiologic Identification Thanatology Decomposition Investigation of Decomposing Sheep Brain by Means of 1H-MR-Spectroscopy: An Attempt Towards an Objective PMI Estimation in the Later Postmortem Period Vital Reactions / Vital Signs Incident Specific Natural Death Cerebral Pathology in Natural Death Cardiac Pathology Other Organsystem Pathology Post-Mortem Imaging of Blunt Trauma Forensic Neuroimaging Sharp Trauma Gunshot Fatal Hemorrhage in Post-mortem Cross Sectional Radiology Strangulation Drowning - Post-Mortem Imaging Findings Thermal Damage Thermal Damage - Heat and Burns Hypothermia Electricity Clinical Forensic Imaging Medical Malpractice Virtopsy as a Multi Tool Approach Analysis, Visualization and Reconstruction Methods Morphologic- Geometric Comparison of Patterned Injuries with the Assumed Injury Causing Tool Forensic Reconstruction Blood Spatter Analysis Footprint Documentation Biopsy Angiography Post-Mortem Angiography: Historical Review and Overview of Former and Current Techniques Postmortem Minimal Invasive Angiography Experiences with Virtual Autopsy Approached Worldwide Miscellaneous Paleoradiology Forensic Veterinary Radiology

Peter Vock - One of the best experts on this subject based on the ideXlab platform.

  • the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine
    2009
    Co-Authors: Michael Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Introduction Foreward (R)evolution in Forensic Medicine - Preface From Autopsy to Virtopsy: Oral Description Versus Image - Value of Evidence History of Virtopsy - How it all began... "Virtopsy (R) after more than some 100 cases: Statement and Perspectives of Forensic Imaging by using 3D Optical and combined CT / MRI Whole Body Scanning" Legal Side Virtopsy and the Law The Extraordinary Death Virtopsy and the Swiss Legal system - New Evidence Law in Forensic Medicine? Religion Imaging and Visualization Methods / Explanation of Technique External Body Documentation Historical Development of Geometric Documentation of Wounds in Forensic Medicine Photogrammetrical 3D Documentation Optical 3D Surface Scanning Photogrammetry and 3D Surface Scanning of the Deceased Digitizing of Injuries of Living Persons Internal Body Documentation Conventional Radiography X-ray Computed Tomography Micro-CT Basics of MR Imaging and Spectroscopy Virtual Histology by Magnetic Resonance Microscopy 3D Visualization of Radiological Data Visualization of Radiological Data - Basics Visualization of Radiological Data - Future Storage of Radiological Data (PACS) The Virtopsy Database Head to toe: Forensic Atlas and Application of Imaging techniques Intravital Versus Post-Mortem Imaging The Virtopsy Project - a Historical Overview of the Literature External Body Documentation 3D Photogrammetric Analysis of Injuries Generation of 3D Models from the Surface Scanning Data Visualization of the 3D Models in True Color Internal Body Documentation Conventional Radiology Computed Tomography - CT Magnetic Resonance Imaging - MRI Nuclear Magnetic Resonance Spectroscopy in Forensic Medicine Documentation of Extracorporeal Findings Injury-Inflicting Instruments Incident Scenes Forensic Topics Radiologic Identification Thanatology Decomposition Investigation of Decomposing Sheep Brain by Means of 1H-MR-Spectroscopy: An Attempt Towards an Objective PMI Estimation in the Later Postmortem Period Vital Reactions / Vital Signs Incident Specific Natural Death Cerebral Pathology in Natural Death Cardiac Pathology Other Organsystem Pathology Post-Mortem Imaging of Blunt Trauma Forensic Neuroimaging Sharp Trauma Gunshot Fatal Hemorrhage in Post-mortem Cross Sectional Radiology Strangulation Drowning - Post-Mortem Imaging Findings Thermal Damage Thermal Damage - Heat and Burns Hypothermia Electricity Clinical Forensic Imaging Medical Malpractice Virtopsy as a Multi Tool Approach Analysis, Visualization and Reconstruction Methods Morphologic- Geometric Comparison of Patterned Injuries with the Assumed Injury Causing Tool Forensic Reconstruction Blood Spatter Analysis Footprint Documentation Biopsy Angiography Post-Mortem Angiography: Historical Review and Overview of Former and Current Techniques Postmortem Minimal Invasive Angiography Experiences with Virtual Autopsy Approached Worldwide Miscellaneous Paleoradiology Forensic Veterinary Radiology

  • comprar the virtopsy approach 3d optical and radiological scanning and reconstruction in Forensic Medicine michael j thali 9780849381782 informa healthcare
    2008
    Co-Authors: Michael J Thali, Richard Dirnhofer, Peter Vock
    Abstract:

    Tienda online donde Comprar The Virtopsy Approach: 3D Optical and Radiological Scanning and Reconstruction in Forensic Medicine al precio 174,84 € de Michael J. Thali | Richard Dirnhofer | Peter Vock, tienda de Libros de Medicina, Libros de Radiologia - Radiologia General

  • 3d surface and body documentation in Forensic Medicine 3 d cad photogrammetry merged with 3d radiological scanning
    Journal of Forensic Sciences, 2003
    Co-Authors: Michael J Thali, Peter Vock, Marcel Braun, Joachim Wirth, Richard Dirnhofer
    Abstract:

    A main goal of Forensic Medicine is to document and to translate medical findings to a language and/or visualization that is re adable and understandable for judicial persons and for medical laymen. Therefore, in addition to classical methods, scientific cutting -edge technologies can and should be used. Through the use of the Forensic, 3-D/CAD-supported Photogrammetric method the documentation of so-called "morphologic fingerprints" has been realized. Forensic, 3-D/CAD-supported Photogrammetry creates morphologic data models of the injury and of the suspected injury-causing instrument allowing the evaluation of a match between the injury and the instrument. In addition to the photogra mmetric body sur- face registration, the radiological documentation provided by a volume scan (i.e., spiral, multi-detector CT, or MRI) registers the sub-surface injury, which is not visible to Photogrammetry. The new, combined method of merging Photogrammetry and Radiology data sets creates the potential to perform many kinds of reconstructions and postprocessing of (patterned) injuries in the realm of Forensic medical case work. Us ing this merging method of colored photogrammetric surface and gray-scale radiological internal documentation, a great step towards a new kind o f reality-based, high-tech wound documentation and visualization in Forensic Medicine is made. The combination of the methods of 3D/CAD Photogra mmetry and Radiology has the advantage of being observer-independent, non-subjective, non-invasive, digitally storable over years or decad es and even trans- ferable over the web for second opinion.

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