LEADER 00000nam 22004453u 4500
001 EBL1592193
003 AU-PeEL
005 20161202165306.0
006 m d
007 cr -n---------
008 161202s2013||||||| s|||||||||||eng|d
020 9781461483045
035 EBL1592193
035 (OCoLC)868921043
040 AU-PeEL|beng|cAU-PeEL|dAU-PeEL
050 4 QC1-75
082 00 530
100 1 DeWerd, Larry A.
245 14 The phantoms of medical and health physics :|bdevices for
research and development.
250 1st ed.
260 New York, NY :|bSpringer New York,|c2013.
300 1 online resource (290 p.)
490 1 Biological and medical physics, biomedical engineering
500 Description based upon print version of record.
505 0 Contents -- Contributors -- 1 Introduction to Phantoms of
Medical and Health Physics -- 1.1 Introduction -- 1.2
History -- 1.3 Phantom Materials -- 1.4 Dosimetry Phantoms
-- 1.4.1 Phantom Construction -- 1.4.2 Dosimeters -- 1.4.3
Computational Phantoms -- 1.5 Imaging Phantoms -- 1.6
Scope of the Text -- 1.6.1 Radiation Therapy Phantoms --
1.6.2 X-ray Imaging Phantoms -- 1.6.3 Non-ionizing
Radiation Phantoms -- 1.6.4 Nuclear Medicine Phantoms --
1.6.5 Health Physics and Computational Phantoms -- 1.7
Conclusion -- References -- Part I Phantoms of Radiation
Therapy
505 8 2 Radiation Therapy Dosimetry Phantoms -- 2.1 Introduction
-- 2.1.1 Need for Therapeutic Dosimetry Phantoms -- 2.1.2
Overall Design Goals -- 2.1.3 Literature Review -- 2.2
Common Concepts for Dosimetry Phantoms -- 2.2.1
Classification -- 2.2.1.1 Active Versus Passive Phantoms -
- 2.2.1.2 Modular Versus Integrated Phantoms -- 2.2.2
Phantom Geometry -- 2.2.3 Phantom Composition -- 2.2.3.1
Modality and Energy Considerations -- 2.2.3.2 Length
Scaling for Phantoms -- 2.2.3.3 Phantom Dose Equivalency -
- 2.2.4 Phantom Coordinate Systems -- 2.2.5 Dose
Measurement System Components
505 8 2.2.6 Phantom Measurements -- 2.2.6.1 Setup and Alignment
-- 2.2.6.2 Relative and Absolute Dosimetry -- 2.2.6.3
Detectors and Devices -- 2.2.6.4 Data Processing and
Agreement -- 2.3 Water Phantoms -- 2.3.1 Construction of
Water Phantoms -- 2.3.2 Characteristics of Water Phantoms
-- 2.3.3 Use of Water Phantoms -- 2.3.4 Examples of Water
Phantoms -- 2.4 Non-Water Phantoms -- 2.4.1 Construction
of Non-Water Phantoms -- 2.4.2 Characteristics of Non-
Water Phantoms -- 2.4.3 Examples of Non-Water Phantoms --
2.4.4 Use of Non-Water Phantoms -- 2.5 Integrated Device
Phantoms
505 8 2.5.1 Construction of Integrated Phantoms -- 2.5.2
Characteristics of Integrated Phantoms -- 2.5.3 Examples
of Integrated Phantoms -- 2.5.4 Use of Integrated Phantoms
-- 2.6 Therapeutic Clinical Uses -- 2.6.1 Installation and
Acceptance Testing -- 2.6.2 Calibration and Commissioning
-- 2.6.3 Periodic Performance Monitoring -- 2.6.4 Planned
Patient Dose Validating -- 2.7 Future Directions -- 2.7.1
Automated Data Collection, Analysis, and Management --
2.7.2 Materials that More Closely Mimic the Behavior of
Tissue -- 2.7.3 Variable Density Distribution (Deformable)
Phantoms
505 8 2.7.4 High-Resolution 3D Data Acquisition in Parallel --
2.7.5 In vivo Dose Measurement During Treatment Delivery -
- References -- 3 Anthropomorphic Phantoms for Radiation
Oncology Medical Physics -- 3.1 Introduction -- 3.2
Anthropomorphic Body Phantoms -- 3.2.1 ART Phantom --
3.2.2 RANDOreg Phantom -- 3.2.3 ATOMreg Dosimetry Phantom
-- 3.2.4 Custom Body Phantoms -- 3.3 Anthropomorphic Body-
Part Phantoms -- 3.3.1 Commercially Available
Anthropomorphic Body-Part Phantoms -- 3.3.2
Anthropomorphic Body-Part Phantoms Developed by a QA
Service Organization or Institution for Their Own QA
Purposes
505 8 3.4 Summary
506 1 325 annual accesses.|5UkHlHU
650 0 Human physiology.
650 0 Medical physics.
650 0 Phantoms (Radiology).
650 0 Radiation dosimetry.
700 1 Kissick, Michael.
830 0 Biological and medical physics, biomedical engineering
856 40 |uhttp://hull.eblib.com/patron/FullRecord.aspx?p=1592193
|zGo to ebook
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