Martin, Colin John,
Guidance on the personal monitoring requirements for personnel working in healthcare / Colin John Martin, David Temperton, Anthony Hughes, Thomas Jupp. - 1 online resource (various pagings) : illustrations (some color). - [IOP release 5] IOP expanding physics, 2053-2563 Series in physics and engineering in medicine and biology . - IOP (Series). Release 5. IOP expanding physics. Series in physics and engineering in medicine and biology. .
"Version: 20181101"--Title page verso.
Includes bibliographical references.
1. Requirements for monitoring radiation dose -- 1.1. Introduction--historical perspective -- 1.2. Requirements for monitoring radiation in the workplace (1999-2018) -- 1.3. What dose quantity is measured? -- 1.4. Approval criteria for dosimetry 2. Dosemeters available -- 2.1. External monitoring -- 2.2. Internal monitoring -- 2.3. Use of electronic monitors 3. Nuclear medicine -- 3.1. Introduction -- 3.2. Diagnostic nuclear medicine with [gamma]-emitting radionuclides -- 3.3. 18FDG-positron emission tomography (PET) imaging -- 3.4. Therapy with unsealed radionuclides -- 3.5. Use of electronic perso 4. Dosimetry for personnel working with x-ray equipment -- 4.1. Background -- 4.2. Options for body dosimetry -- 4.3. Assessment of eye dose -- 4.4. Use of a collar dosemeter worn outside lead protection -- 4.5. The double dosemeter body monitor 5. Use of x-rays in diagnostic and interventional radiology -- 5.1. Introduction -- 5.2. Diagnostic radiography and fluoroscopy in x-ray departments -- 5.3. Interventional radiology and cardiology -- 5.4. Mobile C-arm -- 5.5. Training in dose op 6. Radiotherapy -- 6.1. Introduction -- 6.2. External beam radiotherapy -- 6.3. HDR/PDR brachytherapy -- 6.4. Manual brachytherapy (temporary implants) -- 6.5. Permanent iodine seed implants -- 6.6. Ophthalmic applicators -- 6.7. Intraoperative 7. Risk assessments to predict likely personal doses -- 7.1. Introduction -- 7.2. Risk assessment in interventional and fluoroscopy procedures -- 7.3. Risk assessments for the use of radionuclides -- 7.4. Options for use in appraising personal m 8. Managing personal monitoring -- 8.1. General -- 8.2. Wearing and looking after the dosemeter -- 8.3. Missing dosemeters -- 8.4. Application of dose correction factors -- 8.5. Monitoring pregnant staff -- 8.6. Employees with multiple employers
Arrangements for personal monitoring have evolved as dose limits and practices using radiation have developed. Therefore, new approaches involving more personal dosimetry are required, and methods are needed that can be used to predict probable
Medical physicists in radiation protection, diagnostic radiology and nuclear medicine, Radiographers and technologists.
Mode of access: World Wide Web.
System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
Colin Martin. Colin is an honorary senior clinical lecturer for the University of Glasgow and has carried out research in many aspects of radiation protection and radiation dosimetry. He has been a certified RPA since 1990 and has been an RPA200
9780750321990 9780750321983
10.1088/2053-2563/aaddb6 doi
Medical personnel--Health and hygiene.
Ionizing radiation--Dosage.
Ionizing radiation--Safety measures.
Health Personnel.
Radiation, Ionizing.
Safety Management
Medical physics.
MEDICAL / Radiology, Radiotherapy & Nuclear Medicine.
RC965.M39 / M374 2018eb
363.15
WA 18.2 / M379g 2018eb
Guidance on the personal monitoring requirements for personnel working in healthcare / Colin John Martin, David Temperton, Anthony Hughes, Thomas Jupp. - 1 online resource (various pagings) : illustrations (some color). - [IOP release 5] IOP expanding physics, 2053-2563 Series in physics and engineering in medicine and biology . - IOP (Series). Release 5. IOP expanding physics. Series in physics and engineering in medicine and biology. .
"Version: 20181101"--Title page verso.
Includes bibliographical references.
1. Requirements for monitoring radiation dose -- 1.1. Introduction--historical perspective -- 1.2. Requirements for monitoring radiation in the workplace (1999-2018) -- 1.3. What dose quantity is measured? -- 1.4. Approval criteria for dosimetry 2. Dosemeters available -- 2.1. External monitoring -- 2.2. Internal monitoring -- 2.3. Use of electronic monitors 3. Nuclear medicine -- 3.1. Introduction -- 3.2. Diagnostic nuclear medicine with [gamma]-emitting radionuclides -- 3.3. 18FDG-positron emission tomography (PET) imaging -- 3.4. Therapy with unsealed radionuclides -- 3.5. Use of electronic perso 4. Dosimetry for personnel working with x-ray equipment -- 4.1. Background -- 4.2. Options for body dosimetry -- 4.3. Assessment of eye dose -- 4.4. Use of a collar dosemeter worn outside lead protection -- 4.5. The double dosemeter body monitor 5. Use of x-rays in diagnostic and interventional radiology -- 5.1. Introduction -- 5.2. Diagnostic radiography and fluoroscopy in x-ray departments -- 5.3. Interventional radiology and cardiology -- 5.4. Mobile C-arm -- 5.5. Training in dose op 6. Radiotherapy -- 6.1. Introduction -- 6.2. External beam radiotherapy -- 6.3. HDR/PDR brachytherapy -- 6.4. Manual brachytherapy (temporary implants) -- 6.5. Permanent iodine seed implants -- 6.6. Ophthalmic applicators -- 6.7. Intraoperative 7. Risk assessments to predict likely personal doses -- 7.1. Introduction -- 7.2. Risk assessment in interventional and fluoroscopy procedures -- 7.3. Risk assessments for the use of radionuclides -- 7.4. Options for use in appraising personal m 8. Managing personal monitoring -- 8.1. General -- 8.2. Wearing and looking after the dosemeter -- 8.3. Missing dosemeters -- 8.4. Application of dose correction factors -- 8.5. Monitoring pregnant staff -- 8.6. Employees with multiple employers
Arrangements for personal monitoring have evolved as dose limits and practices using radiation have developed. Therefore, new approaches involving more personal dosimetry are required, and methods are needed that can be used to predict probable
Medical physicists in radiation protection, diagnostic radiology and nuclear medicine, Radiographers and technologists.
Mode of access: World Wide Web.
System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.
Colin Martin. Colin is an honorary senior clinical lecturer for the University of Glasgow and has carried out research in many aspects of radiation protection and radiation dosimetry. He has been a certified RPA since 1990 and has been an RPA200
9780750321990 9780750321983
10.1088/2053-2563/aaddb6 doi
Medical personnel--Health and hygiene.
Ionizing radiation--Dosage.
Ionizing radiation--Safety measures.
Health Personnel.
Radiation, Ionizing.
Safety Management
Medical physics.
MEDICAL / Radiology, Radiotherapy & Nuclear Medicine.
RC965.M39 / M374 2018eb
363.15
WA 18.2 / M379g 2018eb