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Development of a biokinetic model for radionuclide-contaminated wounds and procedures for their assessment, dosimetry and treatment

https://bccalibrary.andornot.com/en/permalink/catalog16218
National Council on Radiation Protection and Measurements. [Bethesda, MD]: National Council on Radiation Protection and Measurements , 2007.
Audience
Professional
Call Number
WN650 N39 2007 v.156
Availability
1 copy, 1 available
Corporate Author
National Council on Radiation Protection and Measurements
Place of Publication
[Bethesda, MD]
Publisher
National Council on Radiation Protection and Measurements
Publication Date
2007
Physical Description
xvi, 411 p. : ill. ; 24 cm.
Series
NCRP report 156
Subjects
Radiation Injuries - therapy
Radiometry - methods
Radiation Protection
Models, Biological
Radioisotopes - adverse effects
Risk Assessment - methods
Wounds, Penetrating - therapy
Guideline
ISBN
9780929600932
0929600932
Language
English
Material Type
Book
Audience
Professional
Location
VC Medical Physics
FVC Medical Physics
VIC Medical Physics
Kelowna Library
Call Number
WN650 N39 2007 v.156

Copies

c.1 BC Cancer Agency KEL Library Available
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Radiation safety aspects of nanotechnology : recommendations of the National Council on Radiation Protection and Measurements

https://bccalibrary.andornot.com/en/permalink/catalog121019
National Council on Radiation Protection and Measurements. [Bethesda, MD]: National Council on Radiation Protection and Measurements , 2017.
Audience
Professional
Table of Contents:; 1. Executive Summary -- 1.1 Background -- 1.2 Scope -- 1.3 Conclusions and Recommendations -- 1.3.1 General -- 1.3.2 Operational Health Physics -- 1.3.3 Internal Dosimetry -- 1.3.4 Summary -- 2. Introduction -- 2.1 Background -- 2.2 Purpose -- 3. Types and Sources of Nanomateria…
  1 read online  
Corporate Author
National Council on Radiation Protection and Measurements
Place of Publication
[Bethesda, MD]
Publisher
National Council on Radiation Protection and Measurements
Publication Date
2017
Physical Description
1 online resource
Series
Proquest Ebook Central
NCRP report 176
Subjects
Nanoparticles
Radiation Exposure - adverse effects
Radiation Protection - methods
Radiometry
Safety Management - methods
Nanotechnology - standards
United States
Guideline
Abstract
Table of Contents:
1. Executive Summary -- 1.1 Background -- 1.2 Scope -- 1.3 Conclusions and Recommendations -- 1.3.1 General -- 1.3.2 Operational Health Physics -- 1.3.3 Internal Dosimetry -- 1.3.4 Summary -- 2. Introduction -- 2.1 Background -- 2.2 Purpose -- 3. Types and Sources of Nanomaterials Including Radioactive Nanoparticles -- 3.1 Introduction -- 3.2 Naturally Occurring and Incidentally Produced Nanomaterials -- 3.3 Radiation-Induced Synthesis of Nanomaterials -- 3.4 Radioactive Nanomaterials -- 3.4.1 Naturally Occurring Radioactive Nanomaterials -- 3.4.2 Incidentally Produced Radioactive Nanomaterials -- 3.4.3 Radiolabeled Nanomaterials -- 4. Physicochemical Concerns for Exposure to Nanoparticles -- 4.1 Nanoparticle Physicochemical Properties -- 4.1.1 Deposition Within the Respiratory Tract -- 4.1.2 Translocation Across Organ Membranes -- 4.1.3 Surface Area and Reactivity in Biological Systems -- 4.1.4 Particle Shape -- 4.1.5 Particle Agglomeration -- 4.1.6 Material Dispersibility -- 4.1.7 Material Surface Charge -- 4.2 Nanoparticle Exposure Experiences Involving Humans -- 4.2.1 Magic Nano Event -- 4.2.2 Event in China -- 4.2.3 Nickel Sensitization Case -- 4.2.4 Polymer and Metal Fume Experience -- 4.3 Guidance on Managing Physicochemical Concerns for Exposure to Nanoparticles -- 5. Operational Health Physics in a Nanotechnology Environment -- 5.1 Introduction -- 5.1.1 Attention to the Physicochemical Toxicity of Radioactive Nanomaterials -- 5.1.2 Changes that May be Needed for Internal Dosimetry -- 5.1.3 Changes that May be Needed for Dispersion of Airborne Particles -- 5.1.4 Summary of Radiation Program Elements Applicable to Working with Radioactive Nanomaterials -- 5.2 Hierarchy of Exposure Controls for Facility and Process Design -- 5.2.1 Elimination and Substitution -- 5.2.2 Engineered Controls
5.2.3 Administrative Controls -- 5.2.4 Personal Protective Equipment -- 5.3 Use of Radioactive Nanomaterials in Medical Settings -- 5.4 Management and Disposal of Radioactive Nanomaterial Waste -- 5.5 Control of Public Exposure -- 5.6 Emergency Response -- 5.7 Incident Investigation -- 5.8 Effective Risk Communication -- 6. Nanoparticle Issues for Internal Radiation Dosimetry -- 6.1 Framework for Considering Radioactive Nanoparticle Internal Dosimetry -- 6.2 General Approach to Biokinetic Modeling for Intakes of Radioactive Nanoparticles -- 6.3 Radiation Dosimetry of Inhaled Radioactive Nanoparticles -- 6.3.1 Deposition of Inhaled Radioactive Nanoparticles -- 6.3.2 Clearance of Inhaled Radioactive Nanoparticles -- 6.3.3 Respiratory Tract Dosimetry for Radioactive Nanoparticles -- 6.4 Radiation Dosimetry of Ingested Radioactive Nanoparticles -- 6.5 Radiation Dosimetry of Radioactive Nanoparticles for Intact Skin -- 6.6 Radiation Dosimetry of Radioactive Nanoparticles in Wounds -- 6.7 Biokinetics of Nanoparticles that Affect Internal Dosimetry -- 6.7.1 Regional Deposition of Radioactive Nanoparticles -- 6.7.2 Biokinetic Characteristics of Inhaled Radioactive Nanoparticles -- 6.7.3 Biokinetics Example: Monomeric and Polymeric Plutonium -- 7. Dose Assessment and Medical Management for Individuals Exposed to Radioactive Nanoparticles -- 7.1 Approaches for Dose Assessment -- 7.2 Occupational Exposure and Dose Assessment Scenario: Plutonium Processing Facility -- 7.3 Impact of Radioactive Nanoparticles on Dose Assessment -- 7.4 Impact of Radioactive Nanoparticles on Medical Management Decisions -- 8. Conclusions and Recommendations -- 8.1 Hazard and Exposure Assessment -- 8.1.1 Conclusions -- 8.1.2 Recommendations -- 8.2 Operational Health Physics -- 8.2.1 Conclusions -- 8.2.2 Recommendations -- 8.3 Nanoparticle Issues for Radiation Dosimetry
8.3.1 Conclusions -- 8.3.2 Recommendations -- 8.4 Dose Assessment and Medical Management -- 8.4.1 Conclusions -- 8.4.2 Recommendations -- Appendix A. Radiolabeled Nanoparticles -- A.1 Use of Radionuclides to Characterize and Quantitate Nanoparticle Contents -- A.2 Radiolabeled Nanoparticles for Biokinetic and Toxicologic Investigations -- A.3 Radiolabeled Nanoparticles for Diagnostic Medicine -- A.4 Radiolabeled Nanoparticles for Medical Imaging -- A.5 Radiolabeled Nanoparticles for Therapeutic Medicine -- A.6 Use of Radiation-Induced Emissions and Hyperthermal Effects from Nanoparticles in Therapeutic Medicine -- Appendix B. Biokinetic Models -- B.1 Fate of Nanoparticles in the Lungs -- B.2 Particle Clearance and Translocation Pathways -- B.3 Exposure and Biokinetics of Ingested Nanoparticles -- B.4 Human and Animal Studies Using Radioactive Nanoparticles -- Appendix C. Key Concepts for Understanding Nanoparticle Aerosol Properties and Behaviors -- C.1 Introduction -- C.2 A Range of Mechanisms Influence Particle Motion and Collection -- C.3 Behavior of Airborne Nanoparticles is Dominated by Brownian Diffusion -- C.4 Particle Volume Equivalent Diameter, Thermodynamic Diameter, and Aerodynamic Equivalent Diameter are Related -- C.5 Particle Size Distributions are Frequently Lognormal -- C.6 Nanoparticles Dominate the Count Distribution -- C.7 Nanoparticles Exist to Some Extent in the Majority of Occupational Aerosols -- C.8 Smaller Particles have a Greater Fraction of Their Atoms at the Particle Surface -- C.9 Number Concentrations of Concern Depend on the Material of Concern -- C.10 Realistic Airborne Particle Number Concentrations can be Limited by Coagulation -- C.11 Smaller Particles are More Difficult to Dislodge from Surfaces than Larger Particles -- Abbreviations, Acronyms and Symbols -- Glossary -- References -- Scientific Committee and Staff
The NCRP -- Officers -- Members -- Distinguished Emeritus Members -- Lauriston S. Taylor Lectures -- Warren K. Sinclair Keynote Addresses -- Thomas S. Tenforde Topical Lectures -- NCRP Publications -- NCRP Reports -- NCRP Commentaries -- Proceedings of the Annual Meeting -- Lauriston S. Taylor Lectures -- Warren K. Sinclair Keynote Addresses -- Thomas S. Tenforde Topical Lectures -- Symposium Proceedings -- NCRP Statements -- Other Documents
Notes
Title page: March 2, 2017
ISBN
9780913392041
9780913392027
Language
English
Material Type
Ebook
Audience
Professional
Location
Internet
Website Notes
This Proquest title is licensed for ONE BC Cancer staff user at a time. If you are denied access while on a network computer, please try again later.
Authentication via HealthBC sign in required. Use your BC Cancer staff username and ID when prompted.
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Uncertainties in the measurement and dosimetry of external radiation

https://bccalibrary.andornot.com/en/permalink/catalog18046
National Council on Radiation Protection and Measurements. Scientific Committee 6-1. [Bethesda, MD]: National Council on Radiation Protection and Measurements , 2008.
Audience
Professional
Call Number
WN650 N39 2008 v.158
Availability
1 copy, 1 available
Corporate Author
National Council on Radiation Protection and Measurements. Scientific Committee 6-1
Place of Publication
[Bethesda, MD]
Publisher
National Council on Radiation Protection and Measurements
Publication Date
2008
Physical Description
xx, 546 p. : ill. ; 24 cm.
Series
NCRP report 158
Subjects
Radiometry - methods
Radiation Effects
Models, Statistical
Uncertainty
Guideline
ISBN
9780929600949
0929600940
Language
English
Material Type
Book
Audience
Professional
Location
VC Medical Physics
FVC Medical Physics
VIC Medical Physics
Kelowna Library
Call Number
WN650 N39 2008 v.158

Copies

c.1 BC Cancer Agency KEL Library Available
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