2. Refer to General Diagnostic Guide of radiation-induced diseases in English.
3 basic information ICS 13. 100
C 60
China people * * * People's Republic of China (PRC) national occupational health standard GBZ1/KLOC-0-2017 replaced GBZ112-2002 "General Guide to Radiological Disease Diagnosis". The National Health and Family Planning Commission of the People's Republic of China promulgated it on May 18, 2065438, and it will be implemented from October1year1month.
Preface Chapter 3 of this standard is mandatory, while other chapters are recommended.
This standard is formulated according to the Law of People's Republic of China (PRC) on the Prevention and Control of Occupational Diseases.
This standard was drafted according to GB/T1.1-2009.
This standard replaces GBZ 1 12—2002 General Diagnostic Criteria for Radioactive Diseases. Compared with GBZ 1 12—2002, the main technical changes are as follows:
—— Deleted normative reference documents;
—— Delete emergency irradiation, personal dosimeter, biological dosimeter, workplace monitoring and biological sample analysis from the terminology, change radiation workers to radiation workers, personal detection to personal dose monitoring, and medical follow-up observation to medical follow-up, and increase deterministic effect and random effect;
—— Chapters 3-4 mainly refer to the format of General Rules for Occupational Disease Diagnosis, mainly including basic principles (disease identification and hazard factors).
The principle of determining causality and causality by elements, adding diagnostic basis and dose evaluation principle) and treatment principle;
-the requirements for diagnostic institutions and diagnostic personnel in radioactive diseases have been deleted;
-Deleted the appendix.
Drafting units of this standard: Institute of Radiation Medicine of China Academy of Medical Sciences, Henan Institute of Occupational Disease Prevention and Control, Hunan Institute of Occupational Disease Prevention and Control, Xinjiang Uygur Autonomous Region Center for Disease Control and Prevention, and Tianjin Bohai Chemical Group Co., Ltd. Institute of Labor Health.
Main drafters of this standard: Xing Zhiwei, Jiang Enhai, Fu, Zeng, Wu, Yu Chengcheng, Zhao,.
General rules for diagnosis of radioactive diseases in standard text 5
5. 1 1 Scope This standard specifies the basic principles of diagnosis and treatment of radioactive diseases.
This standard is applicable to the diagnosis and treatment of radiation diseases of radiation workers.
5.2 2 Terms and Definitions The following terms and definitions apply to this document.
2. 1
Radioactive disease? Radiation-induced diseases
The general term for injury or disease caused by ionizing radiation.
2.2
Occupational exposure? occupational exposure
All radiation received by staff in the course of work, except radiation excluded by national regulations and standards and radiation generated by exempted practices or sources according to regulations.
2.3
Radiation workers? Radiation workers
Persons exposed to ionizing radiation in radiation work units engaged in radiation occupational activities.
2.4
Personal dose monitoring? Personal monitoring
Measurements made by using dosimeters worn by workers or by measuring the types and activities of radionuclides in their bodies and excreta.
2.5
Deterministic effect? Decisive effect
Organizational reaction? Harmful tissue reaction
Health effects caused by radiation. There is usually a threshold dose level, beyond which the severity of the effect increases with the increase of radiation dose.
2.6
Random effect? Random effect
Health effects caused by radiation. The probability of its occurrence increases with the increase of radiation dose, and the severity of the impact (if it occurs) has nothing to do with radiation dose. Random effects may be physical effects or genetic effects, and there is generally no threshold dose level. Include various solid cancers and leukemia.
2.7
Long-term radiation effect and late radiation effect
Long-term harmful effects after repeated high-dose or low-dose exposure, such as leukemia, cataract and other cancers.
2.8
Medical follow-up? Medical follow-up observation
In order to find out the long-term and late-term health effects of ionizing radiation, long-term systematic medical follow-up observation was carried out for those exposed to excessive dose limit and accidental radiation accidents.
5.3 3 Basic principles of diagnosis of radioactive diseases 5.3. 1.3. 1 principle of disease differentiation 3. 1. 1 disease refers to a series of abnormal states caused by the disorder of homeostasis in the body, resulting in changes in metabolism, function or structure. Its clinical manifestations and corresponding auxiliary examinations are the main basis for judging whether there is a disease and its severity.
3. 1.2 Diagnosis and differential diagnosis should be carried out according to the requirements of evidence-based medicine.
5.3.2 3.2 Determination principle of hazard factors 3.2. 1 There should be exposure history of occupational exposure.
3.2.2 Its cumulative exposure dose (including dose rate) meets the dose requirements given in various diagnostic standards for radioactive diseases, especially those with definite effects.
3.2.3 The diagnosis of radioactive diseases should be based on its corresponding diagnostic criteria; When there is no corresponding diagnostic standard, refer to this standard.
5.3.3.3's Principle of Causality Determination 5.3.3. 1 Time Sequence Principle 3.3. 1 Radioactive diseases must occur after exposure to ionizing radiation, and it conforms to the objective law of biological incubation period of radioactive diseases.
5.3.3.2 3.3.2 Principle of Biological Rationality There is biological rationality between ionizing radiation and the occurrence of radiation diseases, that is, the physical characteristics and toxicological data of ionizing radiation confirm that ionizing radiation can cause corresponding diseases and the manifestations of diseases are consistent with the biological effects of ionizing radiation.
5.3.3.3 3.3.3 There is a dose-effect relationship between the deterministic effect of biological gradient principle and ionizing radiation exposure, that is, ionizing radiation exposure should reach the dose threshold of the corresponding disease to cause radiation diseases; The greater the cumulative absorbed dose, the more serious the radiation sickness will be. There is a connection between random effect and ionizing radiation exposure. The greater the cumulative absorbed dose, the higher the probability of occurrence, and the severity has nothing to do with the exposure dose.
5.3.4 3.4 Diagnostic Basis 3.4. 1 The diagnosis of radioactive diseases should follow the catalogue of radioactive diseases in the Classification and Catalogue of Occupational Diseases.
3.4.2 The diagnosis of radioactive diseases should be based on the exposure history of ionizing radiation (including radiation types), exposure dose (including dose rate), clinical manifestations, corresponding auxiliary examination results and special laboratory examination results related to radiation effects, and comprehensive analysis should be made according to the requirements of evidence-based medicine, and the diagnosis conclusion should be made with reference to previous health conditions to exclude other related diseases.
5.3.5 3.5 Dose evaluation principle 3.5. 1 Dose determination of short-term (relatively) high-dose irradiation: Based on personal dosimeter, the dose (including biological dose and physical dose) of the irradiated person who is not wearing personal dosimeter can be estimated, and the articles and biological samples used for dose estimation can be saved in time; The lower limit of irradiation dose can be preliminarily determined by early clinical manifestations and the lowest absolute value of lymphocytes after irradiation.
3.5.2 Dose data of low-dose occupational exposure can come from personal dose monitoring files and other dose data provided by radiation protection departments.
3.5.3 Comprehensive analysis of radiation exposure, using dose data collected from various aspects, evaluate the dose of the irradiated person, determine the condition, so as to take effective treatment measures.
5.4 4 Principles for Treatment of Radioactive Diseases 4. 1 Correct on-site rescue should be carried out in time, especially for life-threatening injuries, and every effort should be made to save lives.
4.2 Get the exposed person away from the radioactive source as soon as possible, decontaminate radioactive pollution, and take measures to block the absorption of radionuclides or promote the discharge of radionuclides.
4.3 Take comprehensive symptomatic treatment and supportive therapy in time.
4.4 Psychological intervention should be carried out as soon as possible.
4.5 Take effective protective measures for workers exposed to ionizing radiation to prevent or delay the occurrence of radioactive diseases; Workers suffering from radioactive diseases can get better and be cured through active treatment after leaving their original workplaces.
4.6 Patients with radiation diseases will be included in the medical follow-up plan.
6 refer to [1] GBZ/T 265 "general principles of occupational disease diagnosis"
[2] GBZ/T 163 Medical Follow-up Specification for Long-term Effects of Acute Radiation Diseases Caused by External Irradiation
[3] Medical Terminology Review Committee, Radiation and Protection Terminology Review Subcommittee. Terminology of radiology and protection [M]. Science press, 20 14.
7 standard full text
The second volume The area of teaching reflection Chapter 65438 +0
I had a review class on the circumference and area of a circle.