Presentation is loading. Please wait.

Presentation is loading. Please wait.

The pathological effects of ionising radiation

Published byRené Sylvain Modified over 6 years ago

Similar presentations

Presentation on theme: "The pathological effects of ionising radiation"— Presentation transcript:

1 The pathological effects of ionising radiation
We will not develop the management of deterministic effects; let say that respecting dose limist is enough for avoiding effects

2 The exposure risk relationship for radiation induced stochastic effects (ICRP 103 –Whole life)
The exposure - risk relationship is assumed to be linear without any threshold

3 The risk for stochastic effects
A worker who, during his working life (35 years), would have received 20 mSv each year, would have cumulated 700 mSv, which corresponds to a risk of death from radiological induced cancer of 2.8 % (i.e a total risk of dying from a cancer of 30,4%, in western Europe ; of 32,5 %in the USA Canada ………) Taking into account the global risk of dying from a cancer and the extra risk from ionising radiation

4 3 PRINCIPLES To be responsible in managing Radiological Risk
Justification of practices Expected benefits must over weight detriment Optimisation of protection To maintain, the risk of exposures, the number of exposed people and the individual doses as low as reasonably achievable (ALARA) economical and social factors being taken into account Making use of risks and doses constraints for : (a) reducing inequity (b) taking care of multiple sources. Limitation of individual exposures A l'exception des expositions médicales des patients.

5 ALARA : a predictive approach
To try to maintain exposures as low as reasonably achievable (i.e) possible, implies adopting a predictive attitude in order to: Evaluate and predict individual and collective exposures Envisage actions likely to reduce exposures Select those actions considered reasonable To what questions does the evaluation should try to answer? Who? When? How?are the doses undertaken One can even then ask for: what are the criteria to tell « it is reasonable »

6 Radiation Protection standards set up at international level

7 Safety Principles in the International Basic Safety Standards IAEA 2011 interim edition 1.7
The safety principles are presented in the introduction / background /1.7 Principle 4: Justification of facilities and activities Facilities and activities that give rise to radiation risks must yield an overall benefit. Principle 5: Optimization of protection Protection must be optimized to provide the highest level of safety that can reasonably be achieved. . The term ‘facilities and activities’ is a general term encompassing any human activity that may cause people to be exposed to radiation risks arising from naturally occurring or artificial sources. The term ‘facilities’ includes: nuclear facilities; irradiation installations; some mining and raw material processing facilities such as uranium mines; radioactive waste management facilities; and any other places where radioactive material is produced, processed, used, handled, stored or disposed of — or where radiation generators are installed — on such a scale that consideration of protection and safety is required. The term ‘activities’ includes: the production, use, import and export of radiation sources for industrial, research and medical purposes; the transport of radioactive material; the decommissioning of facilities; radioactive waste management activities such as the discharge of effluents; and some aspects of the remediation of sites affected by residues from past activities.

8 More on optimisation (intro, background 1.15)
The optimization of protection and safety, when applied to the exposure of workers …, is a process for ensuring that the magnitude and likelihood of exposures and the number of individuals exposed are as low as reasonably achievable, with economic, societal and environmental factors taken into account. …Optimization is a prospective and iterative process that requires both qualitative and quantitative judgements to be made. . To insist on the fact that BSS are totally coherent with the above mentioned philosophy and even wording of ICRP

9 The radiological protection optimisation approach

10 One can find a lot of information on the optimisation process and procedure in the IAEA Safety report n° 21, 2002 A less recent reference, but still useful is the European commission book: “ALARA from theory towards practice” EC Report EUR EN DG Science, Research and Development, 1991

11 The radiological protection optimisation Procedure
The procedure is a simple checklist of 5 steps and sub-steps that structure the approach to any problem or decision in radiation protection. We will select three questions for each step, and come back during the whole week to these steps and questions One can also find a lot of information in the European commission book: “ALARA from theory towards practice” EC Report EUR EN DG Science, Research and Development, 1991

12 Implementing the Radiological protection Optimisation procedure…
Will lead to optimised dose objectives in terms of collective dose, and eventually individual doses They have to be checked against reality, to point out gaps, To keep track of actual new data, for improving situation on the spot and often… … making feedback analysis to prepare the next operations, making use again of the radiological protection optimisation procedure Also later

13 … Within a global ALARA approach following the operational phases of any activity
See ALARA programme later

Download ppt "The pathological effects of ionising radiation"

Similar presentations

Fundamental Principles of Radiation Protection

Fundamental Principles of Radiation Protection
Revision and consolidation of Euratom Basic Safety Standards

Revision and consolidation of Euratom Basic Safety Standards
International Standards and Organizations

International Standards and Organizations
Exemption, Clearance, Discharges

Exemption, Clearance, Discharges
 Progress with the revision and consolidation of the European Basic Safety Standards Directive Stefan Mundigl European Commission DG Energy and Transport.

 Progress with the revision and consolidation of the European Basic Safety Standards Directive Stefan Mundigl European Commission DG Energy and Transport.
PROTECTFP6-036425 Application of Optimisation within PROTECT.

PROTECTFP Application of Optimisation within PROTECT.
SÄTEILYTURVAKESKUS STRÅLSÄKERHETSCENTRALEN RADIATION AND NUCLEAR SAFETY AUTHORITY Protection of the environment from ionising radiation - views of a regulator.

SÄTEILYTURVAKESKUS STRÅLSÄKERHETSCENTRALEN RADIATION AND NUCLEAR SAFETY AUTHORITY Protection of the environment from ionising radiation - views of a regulator.
PART IX: EMERGENCY EXPOSURE SITUATIONS Module IX.1: Generic requirements for emergency exposure situations Lesson IX.1-2: General Requirements Lecture.

PART IX: EMERGENCY EXPOSURE SITUATIONS Module IX.1: Generic requirements for emergency exposure situations Lesson IX.1-2: General Requirements Lecture.
Protection Against Occupational Exposure

Protection Against Occupational Exposure
Environmental Protection Waste Safety Section, Division of Radiation, Transport and Waste Safety Department of Nuclear Safety and Security.

Environmental Protection Waste Safety Section, Division of Radiation, Transport and Waste Safety Department of Nuclear Safety and Security.
IAEA International Atomic Energy Agency International Workshop on the Safe Disposal of Low Level Radioactive Waste WG3 debriefing.

IAEA International Atomic Energy Agency International Workshop on the Safe Disposal of Low Level Radioactive Waste WG3 debriefing.
Maximum Permissible Dose (MPD)

Maximum Permissible Dose (MPD)
Safety Assessment Methodologies and Implementation of Monitoring and Control Programmes Dr. Japie van Blerk AquiSim Consulting (Pty) Ltd Wednesday, 24.

Safety Assessment Methodologies and Implementation of Monitoring and Control Programmes Dr. Japie van Blerk AquiSim Consulting (Pty) Ltd Wednesday, 24.
IAEA Safety Publications Related to Regulatory Infrastructure Safety Fundamentals SF 1 Safety Requirements GSR Part 1, GSR Part 3 School of Drafting.

IAEA Safety Publications Related to Regulatory Infrastructure Safety Fundamentals SF 1 Safety Requirements GSR Part 1, GSR Part 3 School of Drafting.
The ICRP System of Protection Applied to Medical Exposures

The ICRP System of Protection Applied to Medical Exposures
The System of Radiation Protection

The System of Radiation Protection
07/10/2015radiation safety - level 51 Radiation safety level 5 Frits Pleiter.

07/10/2015radiation safety - level 51 Radiation safety level 5 Frits Pleiter.
New Nuclear Build and Evolving Radiation Protection Challenges Dr. Ted Lazo Deputy Head for Radiation Protection Division of Radiation Protection and Radioactive.

New Nuclear Build and Evolving Radiation Protection Challenges Dr. Ted Lazo Deputy Head for Radiation Protection Division of Radiation Protection and Radioactive.
INTERNATIONAL COMMISSION ON RADIOLOGICAL PROTECTION —————————————————————————————————— Optimisation of Radiological Protection in ICRP’s New Recommendations.

INTERNATIONAL COMMISSION ON RADIOLOGICAL PROTECTION —————————————————————————————————— Optimisation of Radiological Protection in ICRP’s New Recommendations.
Organization and Implementation of a National Regulatory Program for the Control of Radiation Sources Legislation.

Organization and Implementation of a National Regulatory Program for the Control of Radiation Sources Legislation.

Similar presentations

Ads by Google