RADIATION PROTECTION IN DIAGNOSTIC AND INTERVENTIONAL RADIOLOGY Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology RADIATION PROTECTION IN DIAGNOSTIC AND INTERVENTIONAL RADIOLOGY L13.2: Occupational exposure - Radioprotection measures Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Part No...., Module No....Lesson No Module title Introduction Subject matter: occupational exposure and regulatory aspects The monitoring procedures Investigation and follow up protocols Explanation or/and additional information Instructions for the lecturer/trainer 13.2: Occupational exposure - Radioprotection measures IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Part No...., Module No....Lesson No Module title Topics Personal protective equipment Individual monitoring and exposure assessment Investigation and follow up Health surveillance Records Explanation or/and additional information Instructions for the lecturer/trainer 13.2: Occupational exposure - Radioprotection measures IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Part No...., Module No....Lesson No Module title Overview To become familiar with the BSS detailed requirement for radiation protection of workers in diagnostic radiology. Lecture notes: ( about 100 words) Instructions for the lecturer/trainer 13.2: Occupational exposure - Radioprotection measures IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Part 13.2: Occupational exposure Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology Part 13.2: Occupational exposure Topic 1: Personal protective equipment Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Personal protective equipment Registrants and licensees shall ensure that workers are provided with suitable and adequate personal protective equipment which meets any relevant regulations or standards (BSS 3.76). Protective equipment includes lead aprons, thyroid protectors, protective eye-wear and gloves. The need for these protective devices should be established by the RPO 13.2: Occupational exposure - Radioprotection measures

Protective clothing: Gowns, aprons and thyroid protectors made of a material (such as vinyl) which contains lead or other high Z material Aprons should be equivalent to at least 0.25 mm Pb if the X Ray equipment operates up to 100 kV and 0.35 mm Pb if it operates above 100 kV Aprons may be of the style which is open, or contains less lead, at the back, due to the extra weight of lead required - this assumes, however, that the wearer is always facing the radiation source Heavy, leaded gloves have limited value because they are difficult to use 13.2: Occupational exposure - Radioprotection measures

Protective devices SCREEN AND GOGGLES CURTAIN 13.2: Occupational exposure - Radioprotection measures

Personal protective equipment Additional protective devices should be available in fluoroscopy and interventional radiology rooms which include: Ceiling suspended protective screens. Protective lead curtains mounted on the patient table. Protective lead curtains for the operator if the X Ray tube is placed in an over couch geometry and if the radiologist must stand near the patient 13.2: Occupational exposure - Radioprotection measures

Part 13.2: Occupational exposure Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology Part 13.2: Occupational exposure Topic 2: Individual monitoring and exposure assessment Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Individual monitoring and exposure assessment (I) Individual dose monitoring shall be undertaken for workers who are normally exposed to radiation in controlled areas: radiologists, medical physicists, the RPO, radiographers and nurses Other frequent users of X Ray systems such as endoscopists, anaesthetists, cardiologists, surgeons etc., as well as ancillary workers who work in controlled areas, shall also be monitored. 13.2: Occupational exposure - Radioprotection measures

Individual monitoring and exposure assessment (II) Individual external doses should be determined by using individual monitoring devices: Thermoluminescent or optically stimulated luminescence Film badges Electronic dosimeters Worn at breast level, between the shoulders and the waist The monitoring period should be one month, and shall not exceed three months. The exchange of dosimeters and report receipt should not exceed three months 13.2: Occupational exposure - Radioprotection measures

Several personal dosimeters are recommended Personal dosimetry Several personal dosimeters are recommended From: Avoidance of radiation injuries from interventional procedures. ICRP Publication 85 13.2: Occupational exposure - Radioprotection measures

Different types of personal dosimeters… film termoluminescence (TLD) and optically stimulated luminescence (OSL) dosimeters ”electronic” dosimeters 13.2: Occupational exposure - Radioprotection measures

detects beta, gamma, X Ray Film badge plastic filter metal filters open windows open window detects beta, gamma, X Ray 13.2: Occupational exposure - Radioprotection measures

TLD 13.2: Occupational exposure - Radioprotection measures

TLDs extremity whole body 13.2: Occupational exposure - Radioprotection measures

OSL 1 cm 13.2: Occupational exposure - Radioprotection measures

Individual monitoring and exposure assessment (III) Evaluation of dose is an important aspect of radiation protection It is important that workers return dosimeters on time for processing Delays in the evaluation of a dosimeter can result in the loss of the stored information Licensees should make every effort to recover any missing dosimeters 13.2: Occupational exposure - Radioprotection measures

Individual monitoring when a lead apron is used (I) The dosimeter should be worn under the apron for estimating the effective dose The other body areas not protected by the apron will receive higher dose One dosimeter worn under the apron will yield a reasonable estimate of effective dose for most instances In case of high workload (interventional radiology) an additional dosimeter outside the apron should be considered by the RPO 13.2: Occupational exposure - Radioprotection measures

Individual monitoring when a lead apron is used (II) When expected doses are high, two dosimeters are required: 1 under the apron at waist level 1 over the apron at collar level The effective dose E is given by: E = 0.5 Hw + 0.025 Hn where: Hw : dose at waist level under the apron Hn : dose recorded by a dosimeter worn at neck level over the apron Note: The thyroid shielding allows 50% reduction of the E The dosimeter worn over the apron at collar level gives also an estimation of thyroid and eye lens doses 13.2: Occupational exposure - Radioprotection measures

Individual monitoring and exposure assessment (IV) In some facilities and for some individuals with a low level of exposure (e.g.: general dental practitioners), area dosimetry to estimate the level of dose per procedure can be an acceptable alternative. Some X Ray systems for dental radiography, or others used in surgical theatres which use X Rays on a limited number of occasions a month may not require individual dosimetry for all staff involved although fluoroscopy in surgical theatres may lead to high dose in short time if not properly conducted In these cases, area dosimetry or some other individual dose evaluation per procedure could allow the RPO to estimate the typical level of risk 13.2: Occupational exposure - Radioprotection measures

Special aspects of individual monitoring In case of loss of a dosimeter, the dose estimation may be carried out from: recent dose history, co-workers dose or, workplace dosimetry Individual monitoring devices should be calibrated Laboratory performing personnel dosimetry should be approved by the regulatory authority 13.2: Occupational exposure - Radioprotection measures

Monitoring of the workplace (I) Registrant and licensees shall develop programmes for monitoring of the workplace: All survey meters used for workplace monitoring shall be calibrated and this calibration shall be traceable to a standards dosimetry laboratory Initial monitoring should be conducted immediately after the installation of new radiology equipment and shall include measurements of radiation leakage from equipment, and area monitoring of useable space around radiology rooms 13.2: Occupational exposure - Radioprotection measures

Monitoring of the workplace (II) Annual area surveys should be performed All radiation monitors shall be calibrated, and their warning devices and operability should be checked prior to each day of use (BSS 3.76) 13.2: Occupational exposure - Radioprotection measures

Part 13.2: Occupational exposure Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology Part 13.2: Occupational exposure Topic 3: Investigation and follow up Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Investigation levels (I) Employers, registrants and licensees shall, in consultation with workers or through their representatives, include in the local rules and procedures the values of any relevant investigation level, and the procedure to be followed in the event that any such value is exceeded. 13.2: Occupational exposure - Radioprotection measures

Investigation levels (II) A suitable quantity for use as investigation level is the monthly individual effective dose. The dose measured outside the lead apron (at collar or shoulder level) and the dose to the hands can also be used as a quantity for an investigation level for staff in interventional radiology. 13.2: Occupational exposure - Radioprotection measures

Investigation levels (III) Monthly values higher than 0.5 mSv (for the dosimeter worn under the lead apron) should be investigated. Values higher than 5 mSv per month in the over apron dosimeter or in the hand or finger dosimeters should also be investigated with a view to optimization. 13.2: Occupational exposure - Radioprotection measures

Investigation levels (IV) The licensee shall conduct formal investigations, as required by the Regulatory Authority, whenever (BSS 3.46): an individual effective dose exceeds investigation levels any of the operational parameters related to protection or safety are out of the normal range established for operational conditions 13.2: Occupational exposure - Radioprotection measures

Investigation levels (V) any equipment failure, severe accident or error takes place, which causes, or has the potential to cause, a dose in excess of annual dose limit any other event or unusual circumstance that causes, or has the potential to cause a dose in excess of the annual dose limits or the operational restrictions imposed on the installation (e.g., the significant change in workload or operating conditions of radiology equipment) 13.2: Occupational exposure - Radioprotection measures

Investigation levels (VI) The investigation shall be initiated as soon as possible following discovery of the event, and a written report shall be prepared concerning its cause (determination or verification of any doses received, corrective actions, and instructions or recommendations to avoid recurrence) The report shall be submitted to the Regulatory Authority and other concerned bodies as required, as soon as possible after the investigation, or as otherwise specified and kept for a specified period. 13.2: Occupational exposure - Radioprotection measures

Part 13.2: Occupational exposure Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology Part 13.2: Occupational exposure Topic 4: Health surveillance Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Health surveillance (I) Primary purpose is to assess the initial and continuing fitness of employees for their intended tasks Medical surveillance (medical examinations) to workers as specified by the Regulatory Authority. Counselling should be provided for women who are or may be pregnant This is especially relevant in interventional radiology. 13.2: Occupational exposure - Radioprotection measures

Health surveillance (II) Under normal working conditions, the doses incurred in a radiology department are lower than the dose limits. No specific radiation-related medical examinations are normally required for persons who are occupationally exposed to ionizing radiation, as there are no diagnostic tests which yield information relevant to exposures that are close to or below dose limits. 13.2: Occupational exposure - Radioprotection measures

Health surveillance (III) It is therefore rare for the radiation component of the working environment of a radiology department to significantly influence the decision about the fitness of a worker to undertake work with radiation or the influence the general conditions of service However in the case of accidental exposure to high doses (of the order of magnitude of 0.2 - 0.5 Sv or higher), specific radiation-related medical investigation are necessary 13.2: Occupational exposure - Radioprotection measures

Part 13.2: Occupational exposure Part No...., Module No....Lesson No Module title IAEA Training Material on Radiation Protection in Diagnostic and Interventional Radiology Part 13.2: Occupational exposure Topic 5: Records Part …: (Add part number and title) Module…: (Add module number and title) Lesson …: (Add session number and title) Learning objectives: Upon completion of this lesson, the students will be able to: … . (Add a list of what the students are expected to learn or be able to do upon completion of the session) Activity: (Add the method used for presenting or conducting the lesson – lecture, demonstration, exercise, laboratory exercise, case study, simulation, etc.) Duration: (Add presentation time or duration of the session – hrs) Materials and equipment needed: (List materials and equipment needed to conduct the session, if appropriate) References: (List the references for the session) IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Records (I) The registrant or licensee should maintain: exposure records medical records for each worker results from workplace monitoring 13.2: Occupational exposure - Radioprotection measures

Record (II) Other records to be maintained: The authorization or registration documents Training provided (initial and refresher): Name of the person who delivered the training Name of the person who received the training Date and length of the training List of the topics addressed Copy of the certificates of training 13.2: Occupational exposure - Radioprotection measures

Record (III) Other records to be maintained: Results from acceptance and commissioning tests of radiology equipment Audits and reviews Installation, maintenance and repair work Facility modification Incident and accident investigation reports 13.2: Occupational exposure - Radioprotection measures

Part No...., Module No....Lesson No Module title Summary Different technical approaches can be followed to monitor the occupational exposure as well as to optimize the radiation protection Several operating rules can be used to investigate the radiation dose level occurring at the different working area Let’s summarize the main subjects we did cover in this session. (List the main subjects covered and stress again the important features of the session) 13.2: Occupational exposure - Radioprotection measures IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources

Where to Get More Information Part No...., Module No....Lesson No Module title Where to Get More Information Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, Revision of IAEA Safety Series No. 115, IAEA, Vienna Austria, 2011 The 2007 Recommendations of the International Commission on Radiological Protection, ICRP 103, Annals of the ICRP 37(2-4):1-332 (2007) International Atomic Energy Agency, Safety Report on Methodology for Investigation of Accidents involving Sources of Ionizing Radiation, IAEA, Vienna (in press). 13.2: Occupational exposure - Radioprotection measures IAEA Post Graduate Educational Course in Radiation Protection and Safe Use of Radiation Sources