radiation safety: ppe and dosimetry
TRANSCRIPT
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PPE and Dosimetry
March 11, 2021
Followed by Araguacu Latin Dance Co.
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• Audio and video
– Will be from the presenters only
– Use computer or telephone (call in)
– Computer seems to give the best sound quality
• Use the “Chat” feature to enter comments
• Use the “Questions” feature to ask questions
• Posted on webinar page
– Video, Q&A answers, copy of the slides
• Follow up email will be sent
– Topics covered, time of attendance
• It may be possible to change your Zoom view if the controls are hidingthe closed captioning.
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Webinar Functionality
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Outline
• What is Radiation?
• Ionizing vs. Non-ionizing
• Particle vs. Electromagnetic
• Aspects of a Radiation Protection Program
• Regulation
• Internal vs. External Exposures
• PPE Types
• Dosimeters
• PPE and Dosimetry by Radiation Type
• How to find out more
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What is Radiation?
• Matter
– Mass
– Volume
• Energy
– Ability to make changes in matter
• Radiation
– Energy moving out from a source
– Material particles
– Electromagnetic
• Electromagnetic waves
• photos
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Non-Ionizing
• Will not remove electrons fromorbit
• Heating
• Photochemical effects
• Electromagnetic radiation
• Radio – mid UV
Ionizing
• Electrons can be removed from orbit
• Stochastic
• Deterministic/tissue
• Electromagnetic radiation
• Mid UV – Ɣ/x-ray
• Particles (α, β, neutron)
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Ionizing vs. Non-Ionizing
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• Ejected byradioisotopes
•α, β charged
• Neutronneutral
• All ionizing
Particles
• Electromagneticwaves/photons
• Photon energyrelated towavelength
• UVB and aboveionizing
• X-ray produced bymachines, ingamma range
Electromagnetic
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Particle vs. Electromagnetic
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Regulation
CNSC Mandate
Regulate use of
• Nuclear energy
• Nuclear materials
• Prescribed equipment
• Prescribed information
To Protect
• Health
• Safety
• Security
• Environment
To Implement
• Internationalcommitments
• Peaceful use
• Nuclear energy
To Disseminate
• Scientific, technical,and regulatoryinformation
• To public
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Regulation
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Province or Territory Acts and Regulations Addressing Radiation Safety
Alberta Radiation Protection Act , Radiation Protection Regulations
British Columbia Workers Compensation Act, Occupational Health and Safety Regulation
Manitoba The Radiation Protection Act and Regulations
New Brunswick Radiation listed as a health hazard in general terms in Public Health Act. No
specific act or regulations.
Newfoundland and Labrador Radiation Health and Safety Act and Regulations
Northwest Territories Safety Act, Occupational Health & Safety regulations, Part 23
Nova Scotia Medical Imaging and Radiation Therapy Professionals Act mentions radiation
safety, but no regulations regarding specifics to date
Nunavut Safety Act, Occupational Health & Safety regulations, Part 23
Ontario Occupation Health and Safety Act, Regulation 861 and the Healing Arts
Radiation Protection Act, Regulation 543
Prince Edward Island Occupational Health and Safety Act General Regulations for non-ionizing
radiation; otherwise, no regulations
Quebec Occupational Health and Safety Act and Regulations has basic expectations
for dosimetry and protection as a contaminant
Saskatchewan The Saskatchewan Employment Act Part V, The Radiation Health and Safety
Regulations, Occupational Health and Safety Regulations, Health Hazard
Regulations
Yukon Yukon Occupational Health and Safety Act, Radiation Protection Regulations
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Aspects of a Radiation
Protection Program
• Doses ALARA
• Management control
• Personnel qualification and
training
• Control of occupational and public
exposure
• Planning for unusual situations
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Internal vs. External
Exposure
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Mikael Häggström, Public domain, via Wikimedia Commons
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External radiation exposure can be decreased by:
Time Distance Shielding
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Radiation Protection
Principles
www.ultraray.com
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Shielding
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Personal Protective
Equipment
A –thyroid protection collar;
B – outside personal dosimeter (in
the pocket);
C – protective eyeglasses;
D – radiation panoramic full-face
mask for face shielding
(preferred to eyeglasses);
E – protective one-piece apron;
F – additional protection for the
gonads.
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Image from Caluk, J. (2013) doi:10.5772/54033
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Personal Protective
Equipment
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Care and Use of PPE
• Check for damage
– Record/report
• Annual screening of lead PPE
• Proper fit
• Storage
– Hung properly
– Cool, dry
– Eye shields in cases
• Clean as directed
• Follow disposal guidelines
• Check service life
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Radiation Dose
• Energy given to thebody by radiationper unit mass
• Measure in Gray(Gy)
Absorbed Dose
• Absorbed dosethat also takes thetype of radiationinto account.
• Measure inSieverts (Sv)
Equivalent Dose• Equivalent dose
that also looks atthe sensitivity ofspecific tissues toradiation.
• Measure inSieverts (Sv)
Effective Dose
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Dosimetry
• Ionizing radiation
– Cannot detect with our senses
– Effects can occur years later
• Different types
– Type of radiation
– Location
• Internal or external
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Effective Dose Limits
Person PeriodCNSC Effective
Dose Limit
Ontario Effective
Dose Limit
Nuclear Energy
Worker / X-Ray
Worker
1-yr dosimetry
period
50 mSv 50 mSv
5-yr dosimetry
period
100 mSv n/a
Pregnant NEW / X-
Ray Worker
Balance of the
pregnancy
4 mSv 5 mSv
A person who is not
a designated worker
1 calendar year 1 mSv 5 mSv
ALARA: As Low As Reasonably Achievable
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External Dosimetry
• Source external to the body
• Radiation can penetrate skin
– Beta
– Ionizing electromagnetic
– Neutron
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Dosimeters
• Used to measure ionizing radiationdose
• Passive or active
• Sample collection (indirect) orpersonal
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Dosimeters
• Different strengths and weaknesses
– Energy and angle dependence
– Type of radiation
– Fading
– Response to dose
– Minimum dose measured
– Single or multiple use
– Dose saved or time or not
– Ease of wear and durability
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TLD
• Contains a chip
• Radiation causes electron release
• Electrons trapped in dopingcenters in excited state
• Chip heated in a reader
• Trapped electrons return toground state
• Visible light emitted and detected
• Light curve analyzed to determinedose
• Come in badges, bracelets, rings(extremity)
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TLD
• TLD systems require calibration to
be accurate
• Signal fade
• Linear over a wide range
• Can be reused
• Can only be read once
• Can be read on site
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OSLD
• Newer technology
• Works similarly to TLD
• Light is used to stimulate thetrapped electrons
• Not affected by typicaltemperature variations
• More sensitive
• Can be reread
– Can be stored for several years
• Can be reused
• More expensive
• Can be read on site
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DRD
• Real-time measurement
– Diode
– Geiger-Mueller
• Not typically official dose
• Alarms
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Solid-State Nuclear Track
• Neutrons
– Interact with matter differently
– Interact more with elements withlight nuclei
• Solid-state nuclear track
– CR-39 plastic
– Interaction produces chargedparticles
– Tracks made visible by chemicaletching
– Tracks imaged
– Number of tracks related to dose
• Large angular dependence
• Not sensitive to low doses
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Portable Neutron Survey
• Area monitor
• Contains material which interacts
with neutrons
• Personal dose is calculated rather
than read
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Dosimeter Placement
• Badge dosimeter should be worn
underneath the apron/PPE
• Ring or bracelet dosimeters can keep
track of dose to the hands
• Eye dose measured using a
dosimeter on the collar above the
apron/PPE
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Dosimeter Best Practice
• Have a different dosimeter for
each work location
– In case of an unusual exposure
– Each dosimeter reported to
employee.
• Do not expose dosimeters to
extreme conditions
• Store as directed
– away from radiation sources
• Do NOT share dosimeters
– Extras should be available
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Internal Dosimetry
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Picture from National Archives at College Park, Public domain, via Wikimedia Commons
• Whole/partial body counters
– Gamma
• Body excretions
– Activity concentration
• Activity in the air
– Personal or fixed
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Personal Alpha Track
• Uranium produces radon
• Radon and progeny are
carcinogenic
• 2nd leading cause of lung cancer
after smoking
• PAD
– Film shows tracks
– Tracks correlate with dose
– Actively draw in air
– Charged after use
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Internal Dosimetry
Image from IAEA Safety Standards Series No GSG-7
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Licensed Dosimetry Providers
• CNSC licensed serviceproviders report dose to theNational Dose Registry (NDR)– National Dosimetry Services,
Heath Canada
– Landauer
– Mirion Technologies
• The National Dose Registrykeeps a record of individualcumulative dose overmultiple licensed serviceproviders and multipleemployers
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PPE
• Ejected α particles will not penetrate dead layer of skin
• PPE blocks routes of entry
• Radioisotopes can contaminate PPE
Dosimetry
• Personal Alpha Dosimeters
• Internal Dosimetry Measures
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Alpha (α)
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Beta (β)
PPE
• Ejected β particles can penetrate skin
• β can be shielded with plastic or aluminum
• Use of more dense materials can produce x-rays
• PPE for shielding and/or block routes of entry
• Radioisotopes can contaminate PPE
Dosimetry
• TLD
• OSLD
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Neutron
PPE
• Not a common type of radiation
• Portable sources have heavy shielding
• Engineering controls used in facilities
• Materials can become radioactive
• PPE as shielding and to prevent internal exposure for unsealed sources
• May need to shield for secondary radiation
• Low atomic weight-rich materials, textile composites
Dosimetry
• Solid-state nuclear track
• Portable Neutron Survey
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Gamma
PPE
• Provide protection from beam or from contaminationfrom unsealed sources
• External shielding has high atomic number, such aslead
Dosimetry
• TLD
• OSLD
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X-ray
PPE
• X-ray are solely external
• High atomic number, such as lead
Dosimetry
• TLD
• OSLD
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UV
PPE
• Welding masks
• Clothing with SPF
• Sunscreens with SPF
• Glass/plastic
Dosimetry
• Provincially regulated
• Available, but may not be mandated
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Laser
PPE
• Danger of burns, generated airborne, or fire
• Eye protection
• Protective clothing
• Air filtration
Dosimetry
• Non-Ionizing
• Not Applicable
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Infrared
PPE
• Danger from heat
• Flame resistant/retardant
Dosimetry
• Non-Ionizing
• Not Applicable
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Takeaway Points
• PPE and dosimetry
– Specific to the type of radiation
– Specific to the situation
– Part of a complete radiation
protection program
• Procedures developed
– Not arbitrary
– For protection
• If unsure, ask
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How to Find Out More
• Radiation Safety Officer
• X-ray Safety Officer
• Health and Safety Committee
• CANLII
• References
• RSIC
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• The Radiation Safety Institute of Canada is an independent, not-
for-profit organization specializing in radiation safety.
• For further information on all types of radiation contact us at:
1-800-263-5803
www.radiationsafety.ca
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Radiation Safety Institute of
Canada
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• Canadian Nuclear Safety Commission. (2018). Proper Care and Use of Personal Dosimeters[Poster]. Ottawa, ON: Author. Retrieved March 10, 2021, fromhttps://nuclearsafety.gc.ca/pubs_catalogue/uploads/proper-care-personal-dosimeters-eng.pdf
• Introduction to Dosimetry [February 2012]. Ottawa, ON: Canadian Nuclear SafetyCommission. Retrieved March 10, 2021, fromhttps://nuclearsafety.gc.ca/pubs_catalogue/uploads/INFO-0827-Introduction-to-Dosimetry-e.pdf
• Izewska, J., & Rajan, I. (2005). Chapter 03 - Radiation Dosimeters. In 1241530410920899393 E. B. Podgorsak (Ed.), Radiation Oncology Physics: A Handbook for Teachers andStudents. Vienna, Austria: International Atomic Energy Agency. Retrieved March 10, 2021,from https://www-pub.iaea.org/MTCD/Publications/PDF/Pub1196_web.pdf
• Occupational Radiation Protection: General Safety Guide (IAEA Safety Standards Series No.GSG-7) [October 2018]. Vienna: International Atomic Energy Agency. Retrieved March 10,2021, from https://www-pub.iaea.org/MTCD/publications/PDF/PUB1785_web.pdf
• Personal Protective Equipment (Practical Radiation Technical Manual 5) [April 2004].Vienna: International Atomic Energy Agency. Retrieved March 10, 2021, from https://www-pub.iaea.org/MTCD/Publications/PDF/PRTM-5_web.pdf
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References/Resources