Introduction to Radiation Protection PDF

Summary

This document provides an introduction to radiation protection, covering sources, effects, and protection methods. It includes information about radiation safety, medical exposures, and relevant regulations.

Full Transcript

Summary
Introduction to  Sources of radiation
Radiation  Effects of radiation
 Who are the advisory bodies?
Protection  UK legislation
 Principles of Radiation Protection
 Ionising Radiation Regulations 2017 - IRR 2017
 Ionising Radiations (Medical Exposures)
Dr Stamatia Papathanasiou Regulations 2024 - IR(ME)R 2024
[email protected]  Discuss some of the relevant regulations and
comment on where they fit into working practices

1 2

How do we quantify ionising radiation?

When we are interested on the effects of ionizing
radiation to living organisms, then the physical
quantity of interest is the radiation Dose.

Dose is measured in Gy (Grays).
What is ionising radiation?
E.g. a patient who has a chest X-ray will receive a
dose of 0.02 mGy.

3 4

Sources of ionizing radiation Medical exposure

 X-rays and Radioactive isotopes used for imaging
and treatment
 Radiotherapy doses are higher but diagnostic
contributes more to population as a whole
 Of the 15% of medical dose of entire population
almost 90% is from diagnostic radiography
CT = 7% of procedures
CT = 47% of annual collective dose from diagnostic
imaging

1
Health Professions Agency 2005

5 6
 A full study of radiation protection requires
covering:

 Radiobiology
 Genetics
 Statistical analysis of risk
 Methods of reducing radiation doses to workers
How can we protect ourselves from
 Rate and decay patterns of radioactivity released into
radiation?
the environment
 Absorbing power of different materials to different
radiations

7 8

Why do we need to have radiation Inherited radiation damage
protection?
 Does not introduce new, unique mutations
 May increase the incidence of the same mutations
that occur spontaneously

9 10

Discussions

 A 22-year-old female patient was referred to imaging
Deterministic effect department for abdomen x-ray with clinical indication
from diagnostic bowel obstruction. How do you proceed with this
imaging request?
(Cardiac
 Points to consider:
Angiography)  Is patient’s age under important consideration before
proceeding the x-ray?
 Any radiation protection or safety issue to be considered?
 Any screening method may involved?
Dose
Optimisation
Justification Limitation 2

11 12
 Lead Rubber Aprons Hazard Warnings

 Thyroid collars required
when primary beam is
directed towards the
thyroid
 Prudent to use for
female patients who are
or maybe pregnant Must be able to identity that equipment
is switched on at the mains power
Equipment must be able to flash to
demonstrate that an exposure has
occurred

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Practical Methods of Reducing Dose The aims of radiation protection are:

 Stand at cables full length (2m) and never in  To prevent deterministic effects by keeping doses
‘controlled area’ during exposure below the thresholds for those effects
 Personal monitoring dosimeters for staff
 To reduce the risk of stochastic effects to levels
 Good technique means not having to repeat which are considered acceptable
procedure
 Correctly identify the patient and obtain their consent
for the X-ray

15 16

What does the IRCP do? International Commission on Radiological
Protection (ICRP)

 Non-government body -
Used worldwide as a common basis for expert advisers (200
volunteer scientists)
 Radiation protection standards, guidelines and
 They make
legislation recommendations either
Prevents broad or detailed based
cancer caused
International
by ionising on research
radiation
 These are not
mandatory but influential
Protects
Independent environment  Differences between
from ionising
radiation countries are found in
ICRP methods of enforcement
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 New Regulations UK Radiation Legislation

Ionising Radiations Ionising Radiation
 The Euratom/European Union Directive Basic Safety Regulations (Medical
Standards Directive 2013 (BSSD) stipulated that all IRR 2017 Exposure)
EU member states must have new radiation safety Regulations
regulations in place by 6 February 2018 (Deals with equipment and workers) IR(ME)R 2024

UK legislation

 Ionising Radiations Regulations 2017 (enforced by
HSE, Health and Safety Executive)
 Ionising Radiations (Medical Exposures) Regulations
2017 (enforced by the CQC, Care Quality
Commission)

19 20

Principles of Radiation Radiation Legislation

Protection
 Justification – The benefits of the use of radiation
must outweigh the associated risks and hazards
 IRR 2017
 Optimisation – ALARP (As Low As Reasonably
 Dose limits – Limits of radiation which should not be
Practicable)
exceeded by workers and the public.
 Dose Limitation – staff and general public (not
patients)

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IRR 2017 Dose Limits IRR 2017 Dose Limits

 If you reach 3 tenths of any dose limit e.g. Whole
body (20mSv) that is 6 mSv an investigation is
20 needed and you become a classified worker
 relevant employees will be made subject to medical
surveillance and have their doses appropriately
assessed and recorded

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 Radiation Legislation

 All members of the public have a dose limit of 1 mSv In terms of dose limitations, who do
 Pregnant employees are not to exceed 1 mSv for the
you think has higher dose limit?
a) The general public
remainder of the pregnancy i.e. from when they notify
b) The radiation workers
the RPS/RPA

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IRR 2017 Controlled and Supervised areas

Controlled Areas (17)
Any area where radiation doses could exceed 6mSv a
year
Entry into this area must be restricted
Physical demarcation of controlled area 1
Supervised Areas (17)
Any area not designated as a controlled area but under
review
Likely to receive 1mSv a year
2

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Controlled Areas Controlled Areas

2m

 A controlled area is an area around a patient and x-
Primary Beam
ray set prohibiting normal access during 2m

radiography and exist whilst the x-ray machine
is…..

Wall
- sufficiently
attenuating 5

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 Controlled Areas
Monitoring

 The area extends 2m from the patient, tube and film in
any direction until it has been sufficiently attenuated by
a primary barrier.
 Prohibit normal access during radiography  You are monitored
 Operate in accordance with Local Rules – film badges and
 In a controlled area you could receive 3/10ths of a dose TLD
limit
 Also referred to as ‘Designated Area’

31 32

RPA and RPS

 Radiation Protection Advisor
Someone who advices on implementation of
designated areas, installation and acceptance of
new equipment, testing engineering controls, staff
training.
 Conducts investigation following a radiation
incident

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RPA and RPS Over-exposure

 What to do in the event of an over-exposure?
 Contingency plans (stated in Local Rules)
 Radiation Protection Supervisor  What would you do if the x-ray tube continued to
produce radiation after the exposure button was
 Someone appointed by the LEGAL PERSON to help
released?
ensure compliance with the regulations and supervise
arrangements set out in the local rules
 They must receive appropriate training.

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 Who do you notify if there has been an Routine Inspection and testing of equipment
over exposure?

 RPA without delay – this person will commence an
 Necessary for confirm no changes to description
investigation
of equipment and the ongoing acceptability of the
 RPS
location
 ? Patient
 Health and Safety Executive (HSE)  Quality Assurance (QA) Tests to identify and
 Medicines and Healthcare products Regulatory Agency investigate trends that suggest possible
(MHRA) - online deterioration

37 38

Ionising Radiation (Medical Exposure)
Regulations
IR(ME)R 2024

IR(ME)R 2024  Deals with radiation protection for patients

39 40

Ionising Radiation (Medical Exposure)
Regulations IR(ME)R 2024 Responsible for
auxillary
Responsible for
equipment
every X-ray unit
associated with
radiation safety

Takes legal Staff who are or
 Four levels of Responsibility responsibility for maybe pregnant
implementing must inform the
 Employer (Legal Person) IRR17 & employer in
IR(ME)R 2024 Employer writing ASAP
 Referrer (Legal
 Practitioner
Person)

 Operator

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 Usually a Usually a
medical doctor, medical doctor,
dentist, or other dentist, or other
health care health care
professional professional
Takes Primary
Is permitted to Refer to the function is to
responsibility
refer individuals IR(ME)R for an individual justify the
for medical X- practitioner individual
medical
ray exposure exposure
exposure

Referrer Practitioner

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IR(ME)R 2024
Position patient,
film and X-ray
tube
Setting  Came into force in 6 Feb 2018
parameters for
Correctly identify
the patient!!
and delivering  To protect the patient
the X-ray
exposure  Covers duties of employers and employees in
ensuring that x-ray equipment, shielding and
standard operating procedures meet adequate
Performs the standards of radiation protection
practical aspects
Processing  Care Quality Commission oversees compliance
associated with a Operator films, QA testing  https://www.cqc.org.uk/guidance-providers/ionising-
radiographic
examination radiation/enforcing-irmer

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Application (3) Interpretation (2)

The regulations apply to following medical Carers and comforters
exposures:
In medical diagnosis or treatment Individuals who are knowingly and willingly exposed to
ionising radiation through support and comfort of those
As part of occupational health surveillance undergoing exposure
As part of health screening programmes
 Consider:
In medical or biomedical, diagnostic or therapeutic
research programmes Dose constraint
Dose optimisation
As part of medico-legal procedures Recording / reviewing
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 Specified Duty Holders Interpretation (2)

 Employer
Employer
 Referrer
Any natural or legal person, in the course of trade,
 Practitioner business or other undertaking, carries out (other
than an employee), or engages others to carry out
 Operator medical exposures at a given radiological
installation

In NHS the hospital trust is the employer

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Duties of Employer (4) Duties of Employer (4)

 Written procedures for medical exposures (6)  Ensures adequate training of staff

 Written protocols for every type of standard  Ensures adverse incidents involving radiation other
radiological practice for each equipment (6) than defective equipment are investigated -
accidental or unintended exposure
 Referral criteria for medical exposure (6)
 Review why reference dose levels are exceeded and
 QA programmes (6) take action (e.g. individual training)

 Clinical audit (7)

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Written procedures Interpretation (2)

 Advice obtained from other colleagues in radiology,
radiotherapy and NM etc. Referrer
 Practitioner may write them but employer is still A registered medical or dental practitioner, or
responsible other health professional who is entitled in
accordance with the employer’s procedures to
 E.g. refer individuals for medical exposure to a
 Positive ID procedure practitioner
 Procedure for enquiries of females of child bearing age
 Procedures for giving information and written instructions
 Specific to each machine, room and examination

9

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 Referrer Interpretation (2)

 Agreement at local level between employer and
health care professional Practitioner
 e.g. certain health care professionals may refer A registered medical or dental practitioner, or
patients for extremities but not CT other health professional who is entitled in
accordance with the employer’s procedures to
 Screening programmes exclude referrer take responsibility for an individual medical
exposure.

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Practitioner Interpretation (2)

 Agreed locally between employer and health care
professionals
Operator
 e.g. can act as practitioner for extremities, but not
Any person who is entitled in accordance with the
interventional procedures
employer’s procedures to carry out any practical aspect
associated with the procedure of a medical exposure
 Requires full knowledge of potential benefit and
therefore adequately trained

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Operator Interpretation (2)

 Responsibilities must be clearly defined in written Practical aspect
procedures
The physical conduct of any of the exposure and any
 e.g. by profession, grade, or individual name (Job
supporting aspects including handling and use of
descriptions)
radiological equipment, and the assessment of
 Operators include doctors, medical physicists,
technical and physical parameters including radiation
medical physics technicians, nurses, radiographers,
doses, calibration and maintenance of equipment,
radiopharmacists and assistant practitioners
preparation and administration of radioactive medicinal
 Physicists employed by Trust check equipment prior
products and the post processing of medical images.
to use

10

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 Practical aspect Interpretation (2)

Medical physics expert (14)
E.g. Certificate of competence
 Calibration of equipment that emits ionising radiation
Demonstrate underpinning knowledge, competence
 Preparation of radioactive medicinal products requires demonstration of practical experience in the
following areas:
 Computer planning  Compliance with IR(ME)R 2017
 Equipment management / Dosimetry -Technical
 Calculation of monitor units used in radiotherapy specs.
 Optimisation - QA, acceptance testing, DRLs,
 Performing the exposure incidents

 May need applications training
 Could also be RPA

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Duties of practitioner, Operator and Duties of practitioner, Operator and Referrer (5)
Referrer (5)

 Practitioner and Operator shall comply with  Operator will be responsible for each and every
employer’s written procedures practical aspect which he/she carries out

 Practitioner responsible for justification of medical  Referrer shall provide practitioner with sufficient
exposure medical data to enable the practitioner to decide on
whether there is sufficient net benefit of such an
 Practical aspects may be allocated to specific exposure i.e. justification
individuals (by employer or practitioner) who are then
responsible

63 64

Duties of practitioner, Operator and Interpretation (2)
Referrer

 Practitioner and Operator shall cooperate, regarding Diagnostic Reference Levels
practical aspects, with other specialists and staff
involved in a medical exposure
Dose levels in medical radiodiagnostic practices or, in
 Any person who acts as employer, referrer, the case of radioactive medicinal products levels of
practitioner or operator must comply with the above activity, for typical examinations for groups of standard-
duties sized patients for broadly defined types of equipment

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 Medical Exposure National DRLs

 Dose limits do not apply to medical imaging  Reviewed at five-yearly intervals
exposures  Medical physics to contribute patient dosimetry data
 Diagnostic reference levels are recommended to National Patient Dose Database (NPDD)
 DRLs are published for Dose Area Product (DAP)  List of examinations for which there are National
and Entrance Surface Dose (ESD) values for DRLs are being extended when sufficient data on UK
common examinations and projections practice has accrued
 Departments are expected to survey their own doses
 Investigations should be undertaken in X-ray There are now reference levels for more examinations
departments where doses are found to exceed these National Diagnostic Reference Levels (NDRLs)
Updated 19 August 2019)
levels

https://www.gov.uk/government/publications/diagnostic-radiology-
national-diagnostic-reference-levels-ndrls/ndrl

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National DRLs Exam
1995 2000
review review review
2005 2010
review Local DRLs
ESD per radiograph (mGy)
Skull AP/PA 4 3 2 1.8
Skull LAT 2 1.6 1.3 1.1
 Reference doses set at this Chest PA 0.2 0.2 0.15 0.15  Employers are responsible for setting local DRLs
level are intended to be an Chest LAT 0.7 1 0.6 0.5
 DRLs should be reviewed annually
indication of abnormally high T/Spine AP 5 3.5 4 3.5
doses. T/Spine LAT 16 10 7 7  Provides a formal mechanism for revision of locally
L/Spine AP 7 6 5 5.7 adopted DRL values which may follow revised or new
 When compared with local L/Spine LAT 20 14 11 10 national DRLs, or additions to local patient dose data
measurements they identify L/Spine  Where examination protocols have been changed,
examinations or rooms in L5/S1 35 26 26
most urgent need of Abdomen AP 7 6 4 4
the effect on the locally adopted DRLs should be
investigation and corrective Pelvis AP 5 4 4 4 considered
action. DAP per examination (Gy.cm2)
IVU 25 16 14 14
Barium meal 17 13 14 12
Barium
enema 35 31 24 21

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Dose regularly exceeded Justification of Individual Medical
Exposure (11)

 Investigation by Radiology manager and Medical Special attention shall be paid to:
Physics Expert (MPE)
 Specific objectives of exposure and characteristics of
the individual
 Performance of X-ray equipment
 Exposures that have no direct benefit for individuals
 Exposure protocols undergoing the exposure
 Potential detriment to the individual
 Technique and training of operator
 Available alternative techniques
 Look at level at which DRL has been set  The urgency of the procedure

12

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 Optimisation (12) Optimisation (12)

‘involves ensuring that doses arising from exposures ALARP principle, operator must pay attention to the
are kept as low as reasonably practicable, but following when selecting equipment and techniques:
consistent with the intended purpose’
 QA

In practice, optimisation is a process which relies  Assessment of patient dose
heavily on professional competence and skill  Adherence to diagnostic reference levels (must be
monitored)

73 74

Optimisation (12) Other employer responsibilities

Practitioner and operator must pay attention to:  Clinical Audit

 Expert Advice
 Medico-legal exposures
 Medical exposures of children  Equipment
 Medical exposures in health screening programmes
 Training
 Medical exposures where pregnancy cannot be excluded
 In NM, breast feeding females undergoing medical exposures

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Web addresses City, University of London
Northampton Square
London
EC1V 0HB
United Kingdom

 http://www.radiation.org.uk/ - Useful Radiation T: +44 (0)20 7040 5060
E: [email protected]
Safety References & Web Sites www.city.ac.uk/department

 http://www.hse.gov.uk/radiation/ionising/index.ht
m - Health and Safety Executive

 https://www.gov.uk/government/publications/diag
nostic-radiology-national-diagnostic-reference-
Thank you!
levels-ndrls/ndrl - National Diagnostic Levels

 http://www.cqc.org.uk – Care Quality
Commission

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