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Pamir M.N., Seifert V., Kiris T. (eds.) Intraoperative Imaging
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Wien: Springer, 2011. — 253 p.Intraoperative imaging technologies have taken an ever-increasing role in the daily practice of neurosurgeons and the increasing attention and interest necessitated international interaction and collaboration. The Intraoperative Imaging Society was formed in 2007. This book brings together highlights from the second meeting of the Intraoperative Imaging Society, which took place in Istanbul-Turkey from June 14 to 17, 2009. Included within the contents of the book is an overview of the emergence and development of the intraoperative imaging technology as well as a glimpse on where the technology is heading. This is followed by in detail coverage of intraoperative MRI technology and sections on intraoperative CT and ultrasonography. There are also sections on multimodality integration, intraoperative robotics and other intraoperative technologies. We believe that this book will provide an up-to date and comprehensive general overview of the current intraoperative imaging technology as well as detailed discussions on individual techniques and clinical results.From Vision to Reality: The Origins of Intraoperative MR Imaging
Development of Intraoperative MRI: A Personal Journey
Lows and Highs: 15 Years of Development in Intraoperative Magnetic Resonance Imaging
Intraoperative Imaging in Neurosurgery: Where Will the Future Take Us?Development and Design of Low Field Compact Intraoperative MRI for Standard Operating Room
Low Field Intraoperative MRI in Glioma Surgery
Intraoperative MRI (ioMRI) in the Setting of Awake Craniotomies for Supratentorial Glioma Resection
Glioma Extent of Resection and Ultra-Low-Field iMRI: Interim Analysis of a Prospective Randomized Trial
Impact of a Low-Field Intraoperative MRI on the Surgical Results for High-Grade Gliomas
Intraoperative MRI and Functional Mapping
Information-Guided Surgical Management of Gliomas Using Low-Field-Strength Intraoperative MRI
Implementation of the Ultra Low Field Intraoperative MRI PoleStar N20 During Resection Control of Pituitary Adenomas
Intraoperative MRI for Stereotactic Biopsy
The Evolution of iMRI Utilization for Pediatric Neurosurgery: A Single Center ExperienceImplementation and Preliminary Clinical Experience with the Use of Ceiling Mounted Mobile High Field Intraoperative Magnetic Resonance Imaging Between Two Operating Rooms
High-Field iMRI in Glioblastoma Surgery: Improvement of Resection Radicality and Survival for the Patient?
Image Guided Aneurysm Surgery in a Brainsuite ioMRI Miyabi 1.5 T Environment
From Intraoperative Angiography to Advanced Intraoperative Imaging: The Geneva ExperienceIntraoperative Magnetic Resonance Imaging
3 T ioMRI: The Istanbul ExperienceIntra-operative 3.0 T Magnetic Resonance Imaging Using a Dual-Independent Room: Long-Term Evaluation of Time-Cost, Problems, and Learning-Curve Effect
Multifunctional Surgical Suite (MFSS) with 3.0 T iMRI: 17 Months of Experience
Intra-operative MRI at 3.0 Tesla: A Moveable Magnet
One Year Experience with 3.0 T Intraoperative MRI in Pituitary SurgeryIntraoperative Computed Tomography
Intraoperative CT in Spine Surgery
O-Arm Guided Balloon Kyphoplasty: Preliminary Experience of 16 Consecutive PatientsIntra-operative Imaging with 3D Ultrasound in Neurosurgery
Intraoperative 3-Dimensional Ultrasound for Resection Control During Brain Tumour Removal: Preliminary Results of a Prospective Randomized Study
Advantages and Limitations of Intraoperative 3D Ultrasound in Neurosurgery. Technical noteIntegrated Intra-operative Room Design
Multimodal Navigation Integrated with Imaging
Multimodality Imaging Suite: Neo-Futuristic Diagnostic Imaging Operating Suite Marks a Significant Milestone for Innovation in Medical Technology
Improving Patient Safety in the Intra-operative MRI Suite Using an On-Duty Safety Nurse, Safety Manual and Checklist
Operating Room Integration and TelehealthIntra-operative Robotics: NeuroArm
Clinical Requirements and Possible Applications of Robot Assisted Endoscopy in Skull Base and Sinus Surgery
Robotic Technology in Spine Surgery: Current Applications and Future Developments
Microscope Integrated Indocyanine Green Video-Angiography in Cerebrovascular Surgery
Application of Intraoperative Indocyanine Green Angiography for CNS Tumors: Results on the First 100 CasesA Technical Description of the Brain Tumor Window Model: An In Vivo Model for the Evaluation of Intraoperative Contrast Agents
Development of Intraoperative MRI: A Personal Journey
Lows and Highs: 15 Years of Development in Intraoperative Magnetic Resonance Imaging
Intraoperative Imaging in Neurosurgery: Where Will the Future Take Us?Development and Design of Low Field Compact Intraoperative MRI for Standard Operating Room
Low Field Intraoperative MRI in Glioma Surgery
Intraoperative MRI (ioMRI) in the Setting of Awake Craniotomies for Supratentorial Glioma Resection
Glioma Extent of Resection and Ultra-Low-Field iMRI: Interim Analysis of a Prospective Randomized Trial
Impact of a Low-Field Intraoperative MRI on the Surgical Results for High-Grade Gliomas
Intraoperative MRI and Functional Mapping
Information-Guided Surgical Management of Gliomas Using Low-Field-Strength Intraoperative MRI
Implementation of the Ultra Low Field Intraoperative MRI PoleStar N20 During Resection Control of Pituitary Adenomas
Intraoperative MRI for Stereotactic Biopsy
The Evolution of iMRI Utilization for Pediatric Neurosurgery: A Single Center ExperienceImplementation and Preliminary Clinical Experience with the Use of Ceiling Mounted Mobile High Field Intraoperative Magnetic Resonance Imaging Between Two Operating Rooms
High-Field iMRI in Glioblastoma Surgery: Improvement of Resection Radicality and Survival for the Patient?
Image Guided Aneurysm Surgery in a Brainsuite ioMRI Miyabi 1.5 T Environment
From Intraoperative Angiography to Advanced Intraoperative Imaging: The Geneva ExperienceIntraoperative Magnetic Resonance Imaging
3 T ioMRI: The Istanbul ExperienceIntra-operative 3.0 T Magnetic Resonance Imaging Using a Dual-Independent Room: Long-Term Evaluation of Time-Cost, Problems, and Learning-Curve Effect
Multifunctional Surgical Suite (MFSS) with 3.0 T iMRI: 17 Months of Experience
Intra-operative MRI at 3.0 Tesla: A Moveable Magnet
One Year Experience with 3.0 T Intraoperative MRI in Pituitary SurgeryIntraoperative Computed Tomography
Intraoperative CT in Spine Surgery
O-Arm Guided Balloon Kyphoplasty: Preliminary Experience of 16 Consecutive PatientsIntra-operative Imaging with 3D Ultrasound in Neurosurgery
Intraoperative 3-Dimensional Ultrasound for Resection Control During Brain Tumour Removal: Preliminary Results of a Prospective Randomized Study
Advantages and Limitations of Intraoperative 3D Ultrasound in Neurosurgery. Technical noteIntegrated Intra-operative Room Design
Multimodal Navigation Integrated with Imaging
Multimodality Imaging Suite: Neo-Futuristic Diagnostic Imaging Operating Suite Marks a Significant Milestone for Innovation in Medical Technology
Improving Patient Safety in the Intra-operative MRI Suite Using an On-Duty Safety Nurse, Safety Manual and Checklist
Operating Room Integration and TelehealthIntra-operative Robotics: NeuroArm
Clinical Requirements and Possible Applications of Robot Assisted Endoscopy in Skull Base and Sinus Surgery
Robotic Technology in Spine Surgery: Current Applications and Future Developments
Microscope Integrated Indocyanine Green Video-Angiography in Cerebrovascular Surgery
Application of Intraoperative Indocyanine Green Angiography for CNS Tumors: Results on the First 100 CasesA Technical Description of the Brain Tumor Window Model: An In Vivo Model for the Evaluation of Intraoperative Contrast Agents
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