Handbook of Radiotherapy Physics: Theory and PracticeP Mayles, A Nahum, J.C Rosenwald CRC Press, 12.06.2007 - 1470 Seiten From background physics and biological models to the latest imaging and treatment modalities, the Handbook of Radiotherapy Physics: Theory and Practice covers all theoretical and practical aspects of radiotherapy physics. In this comprehensive reference, each part focuses on a major area of radiotherapy, beginning with an introduction by the |
Inhalt
CHAPTER 2 Radiactivity | 19 |
CHAPTER 3 Interactions of Charged Particles with Matter | 35 |
CHAPTER 4 Interactions of Photons with Matter | 57 |
CHAPTER 5 The Monte Carlo Simulation of Radiation Transport | 75 |
CHAPTER 6 Principles and Basic Concepts in Radiation Dosimetry | 89 |
Radiobiology | 123 |
CHAPTER 7 Radiobiology of Tumours | 127 |
CHAPTER 8 Radiobiology of Normal Tissues | 149 |
CHAPTER 35 Dose Evaluation of Treatment Plans | 719 |
CHAPTER 36 Biological Evaluation of Treatment Plans | 731 |
Quality Assurance | 789 |
CHAPTER 37 Rationale and Management of the Quality System | 793 |
CHAPTER 38 Quality Control of Megavoltage Equipment | 809 |
CHAPTER 39 Quality Assurance of the Treatment Planning Process | 841 |
CHAPTER 40 Quality Control of Treatment Delivery | 867 |
CHAPTER 41 Recording and VerificationNetworking | 897 |
CHAPTER 9 Dose Fractionation in Radiotherapy | 163 |
Equipment | 183 |
CHAPTER 10 Kilovoltage XRay Units | 187 |
CHAPTER 11 Linear Accelerators | 197 |
CHAPTER 12 Cobalt Machines | 241 |
CHAPTER 13 Simulators | 251 |
CHAPTER 14 Portal Imaging Devices | 261 |
Dose Measurement | 275 |
CHAPTER 15 Ionisation Chambers | 279 |
CHAPTER 16 Radiothermoluminescent Dosimeters and Diodes | 303 |
CHAPTER 17 Radiation Sensitive Films and Gels | 321 |
CHAPTER 18 Absolute Dose Determination under Reference Conditions | 333 |
CHAPTER 19 Relative Dose Measurements and Commissioning | 367 |
Supplementary Details on Codes of Practice for Absolute Dose Determination | 385 |
Clinical Beams | 429 |
CHAPTER 20 From Measurements to Calculations | 433 |
CHAPTER 21 Kilovoltage XRays | 439 |
CHAPTER 22 Megavoltage Photon Beams | 451 |
CHAPTER 23 Manual Dose Calculations on Photon Beams | 483 |
CHAPTER 24 Electron Beams | 519 |
Patient Dose Computation Methods | 545 |
CHAPTER 25 Principles of Patient Dose Computation | 549 |
CHAPTER 26 Patient Dose Computation for Photon Beams | 559 |
CHAPTER 27 Patient Dose Computation for Electron Beams | 587 |
CHAPTER 28 MonteCarlo Based Patient Dose Computation | 603 |
Treatment Planning | 633 |
CHAPTER 29 Target Definition | 637 |
CHAPTER 30 Patient Data Acquisition | 647 |
CHAPTER 31 Magnetic Resonance Imaging in Treatment Planning | 657 |
CHAPTER 32 Beam DefinitionVirtual Simulation | 669 |
CHAPTER 33 PhotonBeam Treatment Planning Techniques | 681 |
CHAPTER 34 ElectronBeam Treatment Planning Techniques | 701 |
CHAPTER 42 Data Communication with DICOM | 909 |
Special Techniques | 937 |
CHAPTER 43 Conformal and IntensityModulated Radiotherapy | 943 |
Practical Aspects | 975 |
CHAPTER 45 Stereotactic Techniques | 987 |
CHAPTER 46 Proton Beams in Radiotherapy | 1005 |
CHAPTER 47 Total Body Irradiation | 1033 |
CHAPTER 48 Total Skin Electron Irradiation | 1043 |
CHAPTER 49 HighLET Modalities | 1053 |
Brachytherapy | 1089 |
CHAPTER 50 Clinical Introduction to Brachytherapy | 1093 |
CHAPTER 51 Calibration and Quality Assurance of Brachytherapy Sources | 1101 |
CHAPTER 52 Afterloading Equipment for Brachytherapy | 1117 |
CHAPTER 53 Dose Calcutation for Brachytherapy Sources | 1131 |
CHAPTER 54 Brachytherapy Treatment Planning | 1141 |
CHAPTER 55 Radiobiology of Brachytherapy | 1181 |
Therapy with Unsealed Sources | 1201 |
CHAPTER 56 Dosimetry of Unsealed Sources | 1205 |
CHAPTER 57 Radionuclide Selection for Unsealed Source Therapy | 1211 |
CHAPTER 58 Radiopharmaceutical Targeting for Unsealed Source Therapy | 1219 |
Radiation Protection in Radiotherapy | 1229 |
CHAPTER 59 Theoretical Background to Radiation Protection | 1233 |
CHAPTER 60 Radiation Protection Regulation | 1245 |
CHAPTER 61 Practical Radiation Protection in Radiotherapy | 1257 |
Reference Data | 1303 |
TABLES M1 PHYSICAL CONSTANTS AND USEFUL DATA | 1305 |
TABLES M2 ELECTRON STOPPING POWERS RANGES AND RADIATION YIELDS | 1308 |
TABLE M3 PHOTON INTERACTION COEFFICIENTS | 1335 |
TABLE M4 RADIOACTIVE NUCLIDES USED IN RADIOTHERPAY | 1388 |
1397 | |
Back cover | 1453 |
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Häufige Begriffe und Wortgruppen
absorbed dose accelerator applicator approach atomic axis Biol calculation calibration cavity cells chamber Chapter charged clinical collimator considered correction curve defined definition density depends depth detector determined direction distance dose distribution dosimetry edge effect electron beams energy Equation et al example factor field Figure fraction function given IAEA ICRU important increase International ionisation chamber irradiation limited machine mass material maximum mean measurements method Monte Carlo Nahum normal obtained Oncol parameters particles patient phantom photon beams Phys Physics position possible practice produced radiation radiotherapy range ratio reduced reference relative Report response result scatter shape shown shows simulation standard surface Table therapy thickness tissue treatment planning tumour uncertainties unit values variation volume wedge x-ray
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