This text provides a state of the art overview of tools for guiding surgeons in the modern operating room. The text explains how many modalities in the current armamentarium of radiologic imaging have been brought to the operating room for real time use. It also explains the current use of near infrared, fluorescent, and chemo-luminescent imaging to guide minimally invasive and open surgery to improve outcome. The book is separated into two sections. The first, discusses the biologic principles that underlie novel visualization of normal organs and pathology. The currently available equipment…mehr
This text provides a state of the art overview of tools for guiding surgeons in the modern operating room. The text explains how many modalities in the current armamentarium of radiologic imaging have been brought to the operating room for real time use. It also explains the current use of near infrared, fluorescent, and chemo-luminescent imaging to guide minimally invasive and open surgery to improve outcome. The book is separated into two sections. The first, discusses the biologic principles that underlie novel visualization of normal organs and pathology. The currently available equipment and equipment anticipated in the near future is covered. The second section summarizes current clinical applications of advanced imaging and visualization in the OR. Novel means of visualizing normal anatomic structures such as nerves, bile duct, and vessels that enhance safety of many operations are covered. Novel biologic imaging using radio-labeled and fluorescent-labeled molecular probesthat allow identification of inflammation, vascular abnormalities, and cancer are also discussed. Authored by scientists who pioneer research in optics and radiology, tool makers who use this knowledge to make surgical equipment, and surgeons who innovate the field of surgery using these new operative tools, Imaging and Visualization in the Modern Operating Room is a valuable guide for surgeons, residents and fellows entering the field.
Yuman Fong, M.D. Department of Surgery City of Hope National Medical Center Duarte, CA, USA Pier Cristoforo Giulianotti, M.D. Department of Surgery University of Illinois Hospital and Health Sciences System Chicago, IL, USA Jason S. Lewis, Ph.D. Department of Radiology Memorial Sloan-Kettering Cancer Center New York, NY, USA Bas Groot Koerkamp, M.D. Department of Surgery Erasmus University Medical Center Rotterdam, The Netherlands Thomas Reiner, Ph.D. Department of Radiology Memorial Sloan Kettering Cancer Center New York, NY, USA
Inhaltsangabe
Ch. 1: Lighting in the Operating Room: Current Technologies and Considerations
Jeffrey Berman, A.I.A., A.C.H.A., Robert Brian Leiter, Yuman Fong, M.D.
Ch. 2: Optical Image-Guidance to Bridge the Gap Between Preoperative Planning and Postoperative Control
Ch. 4: Detectors for Intraoperative Molecular Imaging: From Probes to Scanners
Farhad Daghighian, Ph.D., Yuman Fong, M.D.
Ch. 5: Isotopes and Procedural Imaging
Yachao Zhang, M.D., Thomas Reiner, Ph.D., Jason S. Lewis, Ph.D.
Ch. 6: Radiologically Imageable Nanoparticles
Aileen L. Co, B.S., A.M. Sitarski, B.S., Jeremy L. Grant, B.A., M.A., Michael D. Mason, B.S., Ph.D.
Ch. 7: Flat Panel CT and the Future of OR Imaging and Navigation
Ina Schwabenland, M.D., Dirk Sunderbrink, Georg Nollert, M.D., Ph.D., Christopher Dickman, M.D., Ph.D., Markus Weingarten, Ph.D., Andreas Meyer, John Benson, B.S., Philip Mewes, M.Sc., Peter Mountney, Ph.D., Li Zhang, Ph.D., Stephane Nicolau, Ph.D., Luc Soler, Chris Tihansky, B.S., M.B.A.
Ch. 8: Cerenkov Luminescence Imaging
Jan Grimm, M.D., Ph.D
Ch. 9: Organ Deformation and Navigation
Robert L. Galloway, Ph.D., Michael I. Miga, Ph.D.
Ch. 10: Clinical Milestones for Optical Imaging
Jonathan Sorger, Ph.D.
Ch. 11: 3D in the Minimally Invasive Surgery (MIS) Operating Room: Cameras and Displays in the Evolution of MIS
Brian J. Dunkin, M.D., F.A.C.S., Caroline Flowers, B.S.
Ch. 12: Nanotechnology Approaches for Intra-procedural Molecular Diagnostics
Cesar M. Castro, M.D., Hyungsoon Im, Ph.D., Hakoho Lee, Ph.D., Ralph Weissleder, M.D., Ph.D.
Ch. 13: Ultra Small Fluorescent Silica Nanoparticles as Intraoperative Imaging Tools for Cancer Diagnosis and Treatment
Ch. 4: Detectors for Intraoperative Molecular Imaging: From Probes to Scanners
Farhad Daghighian, Ph.D., Yuman Fong, M.D.
Ch. 5: Isotopes and Procedural Imaging
Yachao Zhang, M.D., Thomas Reiner, Ph.D., Jason S. Lewis, Ph.D.
Ch. 6: Radiologically Imageable Nanoparticles
Aileen L. Co, B.S., A.M. Sitarski, B.S., Jeremy L. Grant, B.A., M.A., Michael D. Mason, B.S., Ph.D.
Ch. 7: Flat Panel CT and the Future of OR Imaging and Navigation
Ina Schwabenland, M.D., Dirk Sunderbrink, Georg Nollert, M.D., Ph.D., Christopher Dickman, M.D., Ph.D., Markus Weingarten, Ph.D., Andreas Meyer, John Benson, B.S., Philip Mewes, M.Sc., Peter Mountney, Ph.D., Li Zhang, Ph.D., Stephane Nicolau, Ph.D., Luc Soler, Chris Tihansky, B.S., M.B.A.
Ch. 8: Cerenkov Luminescence Imaging
Jan Grimm, M.D., Ph.D
Ch. 9: Organ Deformation and Navigation
Robert L. Galloway, Ph.D., Michael I. Miga, Ph.D.
Ch. 10: Clinical Milestones for Optical Imaging
Jonathan Sorger, Ph.D.
Ch. 11: 3D in the Minimally Invasive Surgery (MIS) Operating Room: Cameras and Displays in the Evolution of MIS
Brian J. Dunkin, M.D., F.A.C.S., Caroline Flowers, B.S.
Ch. 12: Nanotechnology Approaches for Intra-procedural Molecular Diagnostics
Cesar M. Castro, M.D., Hyungsoon Im, Ph.D., Hakoho Lee, Ph.D., Ralph Weissleder, M.D., Ph.D.
Ch. 13: Ultra Small Fluorescent Silica Nanoparticles as Intraoperative Imaging Tools for Cancer Diagnosis and Treatment