Difference between revisions of "Information for healthcare providers"

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==Radiation health effects==
 
==Radiation health effects==
 
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Radiation exposure can lead to either tissue reactions or stochastic effects ([[ICRP Publication 103]], Annex A). Tissue reactions ([[ICRP Publication 118]] CRP Statement on Tissue Reactions / Early and Late Effects of Radiation in Normal Tissues and Organs – Threshold Doses for Tissue Reactions in a Radiation Protection Context) can occur in the application of ionizing radiation in radiation therapy, and in interventional procedures, particularly when fluoroscopically guided interventional procedures are complex and require longer fluoroscopy time or acquisition of numerous images. Tissue reactions occur when many cells in an organ or tissue are killed, the effect will only be clinically observable if the radiation dose is above some threshold. The magnitude of this threshold will depend on the dose rate (i.e. dose per unit time) and linear energy transfer of the radiation, the organ or tissue irradiated, the volume of the irradiated part of the organ or tissue, and the clinical effect of interest.
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Stochastic effect (somatic or heritable) increases with radiation dose and is probably proportional to dose at low doses and low dose rates ([[ICRP Publication 99]] Low-dose Extrapolation of Radiation-related Cancer Risk). At higher doses and dose rates, the probability often increases with dose more markedly than simple proportion. At even higher doses, close to the thresholds of tissue reactions, the probability increases more slowly, and may begin to decrease as a result of the competing effect of cell killing. It is not feasible to determine on epidemiological grounds alone that there is, or is not, an increased risk of cancer for members of the public associated with absorbed doses of the order of 100 mGy or below. The linear non-threshold model remains a prudent basis for the practical purposes of radiological protection at low doses and low dose rates.
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More detailed information on radiation effects can be found in [[ICRP Publication 103]] (Annex A) or at the [https://www.unscear.org UNSCEAR] website.
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==Radiological protection of patients==
 
==Radiological protection of patients==
 
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Medical exposure of patients has unique considerations that affect how the fundamental principles of radiological protection are applied. Such uniqueness is reflected in the application of all three principles in the protection of patients ([[ICRP Publication 103]] The 2007 Recommendations of the International Commission on Radiological Protection, [[ICRP Publication 105]] Radiological Protection in Medicine).
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===justification in protection of patients===
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===Optimisation of protection for patients===
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===Application of dose limits for protection of patients===
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===Protecting pregnant patients===
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===Protecting pediatric patients===
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===Preventing accidents in radiation therapy===
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===Special notes on the use of effective dose and dose measurements===
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Revision as of 15:23, 10 September 2019

Information for healthcare providers
The primary aim of radiological protection is to provide an appropriate standard of protection for people and the environment without unduly limiting the beneficial practices giving rise to radiation exposure. ICRP has formulated a set of fundamental principles of radiological protection that apply to radiation sources and to the individuals being exposed (ICRP Publication 103 The 2007 Recommendations of the International Commission on Radiological Protection ). Such principles are applicable to radiological protection in healthcare for the protection of patients, family members and other carers, the general public, volunteers in biomedical research, and healthcare providers. ICRP has provided specific recommendations for medical settings in ICRP Publication 105 Radiological Protection in Medicine, ICRP Supporting Guidance 2 Radiation and your patient - A Guide for Medical Practitioners and ICRP Publication 73 Radiological Protection and Safety in Medicine.

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Radiation health effects


Radiation exposure can lead to either tissue reactions or stochastic effects (ICRP Publication 103, Annex A). Tissue reactions (ICRP Publication 118 CRP Statement on Tissue Reactions / Early and Late Effects of Radiation in Normal Tissues and Organs – Threshold Doses for Tissue Reactions in a Radiation Protection Context) can occur in the application of ionizing radiation in radiation therapy, and in interventional procedures, particularly when fluoroscopically guided interventional procedures are complex and require longer fluoroscopy time or acquisition of numerous images. Tissue reactions occur when many cells in an organ or tissue are killed, the effect will only be clinically observable if the radiation dose is above some threshold. The magnitude of this threshold will depend on the dose rate (i.e. dose per unit time) and linear energy transfer of the radiation, the organ or tissue irradiated, the volume of the irradiated part of the organ or tissue, and the clinical effect of interest.


Stochastic effect (somatic or heritable) increases with radiation dose and is probably proportional to dose at low doses and low dose rates (ICRP Publication 99 Low-dose Extrapolation of Radiation-related Cancer Risk). At higher doses and dose rates, the probability often increases with dose more markedly than simple proportion. At even higher doses, close to the thresholds of tissue reactions, the probability increases more slowly, and may begin to decrease as a result of the competing effect of cell killing. It is not feasible to determine on epidemiological grounds alone that there is, or is not, an increased risk of cancer for members of the public associated with absorbed doses of the order of 100 mGy or below. The linear non-threshold model remains a prudent basis for the practical purposes of radiological protection at low doses and low dose rates.


More detailed information on radiation effects can be found in ICRP Publication 103 (Annex A) or at the UNSCEAR website.

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Radiological protection of patients


Medical exposure of patients has unique considerations that affect how the fundamental principles of radiological protection are applied. Such uniqueness is reflected in the application of all three principles in the protection of patients (ICRP Publication 103 The 2007 Recommendations of the International Commission on Radiological Protection, ICRP Publication 105 Radiological Protection in Medicine).

justification in protection of patients

Optimisation of protection for patients

Application of dose limits for protection of patients

Protecting pregnant patients

Protecting pediatric patients

Preventing accidents in radiation therapy

Special notes on the use of effective dose and dose measurements

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Radiological protection of family members, carers and the public


Content Here Back to Top

Radiological protection of volunteers in biomedical research


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Radiological protection of healthcare staff


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More In-Depth Information


Links to additional sites or publication that could further someone’s understanding Back to Top

References


Any references used, linked if necessary Back to Top

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