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{L-End}Objective To establish the construction of intelligent management system for equipment and supplies of medical rescue teams for provincial nuclear and radiation accidents, based on modern Internet+ Internet of Things. {L-End}Methods The current status and requirements of emergency equipment and supplies allocation and management of medical emergency teams for provincial nuclear and radiation accidents were analyzed. Utilizing technologies such as Internet of Things, low-power Bluetooth, and radio frequency identification, an intelligent management system for medical rescue teams, its equipment and supplies for provincial nuclear and radiation accidents was designed. {L-End}Results The intelligent management system for medical rescue teams, its equipment and supplies for nuclear and radiation accidents was able to perform the inventory warning, expiration date warning, maintenance alert, and warning for emergency personnel health status, based on dynamic management of rescue personnel, equipment and supplies. It provided an effective support for on-site commanders in making emergency decisions. {L-End}Conclusion The use of Internet+Internet of Things technology can achieve intelligent management for medical rescue teams and its equipment and supplies can effectively improve the level of personnel and equipment support for the rescue of nuclear and radiation accidents at the provincial level.
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Objective:To investigate radiation-induced somatic mutations and variations and provide theoretical basis for clarifying radiation-induced genetic changes and long-term effects by whole-genome sequencing analysis of the genetic variations of the victim of the " 5.7" 192Ir radiation accident in Nanjing. Methods:Normal back skin tissue, irradiated bone and soft tissues, and peripheral blood were collected from the victim 2 047 days post-irradiation. DNA of these samples was extracted and sequenced with high-throughput genomics and analyzed by bioinformatics method. The genetic variations of between irradiated and normal tissues were compared.Results:Compared with normal back skin tissue, there are large amounts of genetic variations in the irradiated bone and soft tissues and peripheral blood, including base substitution (transition, transversion), small insertion, small deletion, copy number variation (gain, loss) and structure variation (large deletion, large duplication, inversion, intra-chromosomal translocation, inter-chromosomal translocation). There were 10 666 genetic variations in the irradiated bone and soft tissues and 11 233 genetic variations in peripheral blood, where thousands of genes were involved in. These variations occurred in the exons, introns, UTR′3, UTR′5, splicing sites, within 5 kb upstream of transcription initiation site, within 5 kb downstream of transcription termination site, ncRNA and intergenic region. All chromosomes had genetic variations.Conclusions:There were a large number of genetic variations in the irradiated tissues and blood of the victim at 2 047 days after irradiation, which may affect the body function and cause the long-term effects.
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In order to test the practicability and operability of the emergency plan for environmental emergencies of district, the ability of radiation accidents quickly respond, emergency monitoring and disposal of the radiation emergency monitoring team, and to inspect cooperative disposal ability according to the responsibilities stipulated in the plan of police department, health department, and publicity departments, and to further standardize the emergency response procedures for radiation accidents, and carry out radiation accident emergency drills. To describe the radiation accident drill organized by the district and jointly held by environmental protection, police department, health department, publicity and other departments, to analyze the scenario design, emergency equipment, emergency monitoring, on-site disposal, emergency termination, and to summarize and analyze the drill. The drill strictly implemented the emergency response procedures for radiation accidents, and comprehensively verified the nuclear and radiation emergency system in Chang'an District. By relying on the existing national technical force, the drill vigorously coordinated and cooperated to improve the rapid response ability of radiation emergency. The drill is an important way to effectively improve the emergency management ability of radiation accidents, to improve the technical ability of effectively response and emergency disposal of radiation environmental safety, and improve the technical level of the emergency monitoring team. It is also one of the technical means for the effective supervision of radioactive sources. It is suggested to continuously carry out the construction of online supervision capability during the transportation of radioactive sources, to improve the professional qualities and skills of road transport operators and reduce the probability of accidents, and continue to strengthen emergency exercises (drills) and technological innovation.
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Objective To investigate the late effects induced by ionizing radiation and the rehabilitation treatment of local radiation injury by medical follow-up of the patient exposed to192 Ir at 5.7 accident in Nanjing,and to provide more experience for the treatments in the medical emergency of nuclear or radiological accident.Methods According to the history inquiry and physical examination of the patient in detail and the record of clinical symptoms and signs,the changes of the blood system,immune system,reproductive system,eyes,nervous system were systematically evaluated.The effects of rehabilitation treatment for the patient with lower limb dysfunction were also assessed.Results After the medical treatments of the patient,the hematopoietic immune system was restored,but the bone marrow aspiration still showed low bone marrow hyperplasia in right ilium.Meanwhile,the level of sex hormones was within the normal range,but semen examination showed sperm motility was 0.The radiation damage also occurred in the eye lens,retina and fundus.Howevcr,the psychological evaluation showed that the patient was stable and the right lower limb skin wound healing was well except for dysfunction and pain in some extent,which was relieved after the rehabilitation treatment.Conclusions The physiological function of the exposed victim with mild bone marrow type acute radiation sickness could be completely or partially restored after the clinical treatment in the early stage.
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Objective To make a rapid dose estimation for a patient exposed locally to high dose radiation exposure in early stage of 5.7 192Ir source accident in Nanjing.Methods Based on source parameters,exposure pattern,and time duration,the doses were estimated using MCNP simulations with the aid of the proper East Asia adult male voxel phantom and main physiological parameters of the exposed patient.Result Absorbed doses to 16 organs or tissues were estimated to be in the range 0.03 to 9.16 Gy.Also,the iso-dose curves for the skin of legs showed clearly the dose difference between right and left legs.Absorbed doses to patient's testicles and prostrate,about 9.16 Gy,were higher than those to other organs or tissues.The skin of both legs was exposed locally to high dose radiation exposure,for which the estimated doses were in agreement with the results obtained from infrared thermal imaging.Conclusions Monte Carlo simulation technique and common software can be used for dose estimation in early stage of radiation accidents effectively with integrating proper models.
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Objective To use three different methods in attempt to estimate the biological dose of the patient partially exposed to 192Ir source at5.7 accident in Nanjing,so as to provide dosimetric information for clinical remedy of exposed patients in the emergency of a nuclear accident.Methods Peripheral blood samples were collected on days 5 after exposure.The biological dose was estimated by the yields of dicentrics plus rings ( dic + r),cytokinesis-block micronuclei (CBMN) assay and nucleoplasmic bridge plus FHC (NPB + FHC).The homogeneity of radiation exposure was examined by Poisson distribution of dicentrics.Results By using three different methods,the whole body equivalent dose was dic + r estimated to be 1.51 Gy (95% CI 1.40-1.61),1.47 Gy (95% CI 1.36-1.60) by CBMN and 1.30 Gy (95% CI 1.00-1.60) by NPB + FHC,respectively.A non-poisson distribution was also detected,suggesting partial body radiation exposure.Conclusions The estimated whole body equivalent dose ot a non-uniform radiation exposure was consistent with clinical diagnosis,suggesting that the yields ofdic + r,CBMN,as well as NPB + FHC,are efficient approaches to the estimation of biological doses.
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OBJECTIVE: To estimate the biological dose by the chromosome aberration analysis in a victim suffered in the radioactive source-loss accident in Nanjing City. METHODS: Peripheral blood sample of the victim was collected 6 days after radioactive exposure. Individual radioactive biological dose was estimated by identifying the aberration of the dicentrics plus centric rings in the metaphase chromosome of cells. The distribution of chromosome aberration was tested by the Poisson distribution. Impure Poisson distribution was used to estimate the radiation dose. RESULTS: Among the 353 cells observed at metaphase,75 aberration of dicentrics plus centric rings were found,43 cells had 1 aberration and 7 cells had 2 aberrations. Moreover,there were 3 multi-aberration cells with 3,4 and 11 aberrations respectively. The average individual radiation dose was estimated to be 1. 52 Gy,which was consistent with the clinical diagnosis as mild acute bone marrow radiation disease. The Poisson distribution u test revealed that the patient suffered from nonhomogeneous radiation.By the impure Poisson distribution test,the radiation exposure proportion of the whole body was estimated to be 55% and the average dose was 3. 02 Gy. CONCLUSION: The biological dose estimation was successfully performed,the results showed that this was a case of nonhomogeneous irradiation.
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Objective To observe late effect of 60Co radiation accident on eye lens in the victims.Methods Medical observations of eye lens were performed on ten victims accidentally exposed to 60Co sources in four radiation accidents that have occurred from 1986 to 2000 in Henan Province.Pathological changes of the eye lenses were examined by using slit lamp microscopy after mydriasis with compound tropicamide.Results Of these ten victims, Liang in a radiation accident in Kaifeng (in 1986), Mei in Xinxiang (in 1999) and Xu in Xuchang (in 2000) all had typical radiation-induced cataract 2, 3 and 6 years after irradiation, respectively.Follow-up observation of the lens showed the punctate and/or granular opacities present in the eye posterior subcapsular of Yan in Kaifeng accident, Jie in Zhengzhou (1987), and Tian, Yong and Yi in Xinxiang accident, featuring the early changes of radiation-induced cataract, but the posterior subcapsular opacities were not observed in Wang and Min in Xinxiang accident.Conclusions Focus should be on the eye lens as the target organ of radiation exposure in long-term follow-up of victims accidentally exposed to radiation source.Severity of the lens opacity induced by ionizing radiation is closely associated with radiation doses.
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Objective To investigate the value of cytokinesis-block micronuclei(CBMN)assay in estimation of the biological doses of the victims of radiation accident.Methods Samples of peripheral blood were collected from the 5 victims(Subjects 1-5)at 16 h after the radiation accident of Taiyuan,Shanxi Province.And the peripheral blood samples and bone marrow sample were collected from the victim No.1 at 23 and 24 h after the radiation.Eight days after the accident Subject 1 underwent allogeneic peripheral blood hematopoietic stem cell transplantation.At difierent time points in the period of 1 year after the accident.peripheral blood samples were collected from these 5 victims.CBMN assay was conducted on the peripheral blood lymphocytes on the samples,and the biological doses were estimated based on the micronuclei(MN)frequencies.The nuclear division index(NDI)obtained from in vitro irradiation experiment using high dose of 60Coγ-rays was used to estimate the exposed doses for Subject 1. Dynamic arialysis of the MN frequency for the 5 victims was performed in the period of 1 year after the accident.Results The MN frequency of Subject 1 surpassed the value corresponding to the upper limit of the MN dose.effective curve.The dose range estimated bv the combination of the CBMN and NDI (CBMN+NDl)assay was 10-20 Gy for Subject 1.The doses estimated by MN frequency for Subjects 2,3,4,and 5 were 3.6,2.9,2.3,and 2.9 Gy,respectively.The estimated doses were in accordance with those estimated by physicat method.chromosome aberration analysis.and clinical symptoms.Prominent decrease of the MN frequency was observed at 26 d after the accident(18 d after the transplantation)for Subject 1(u=3.295,P<0.05).Gradual decrease of MN frequency was observed after the accident for Subjects 2,3,4,and 5.The MN frequencies 1 month after the accident of Subjects 3,4,and 5 were all significantly lower than those 16 h later(u=6.874,4.526,and 7.811,P<0.05).Conclusions Quick and accurate.CBMN assay reinforces and verifies the result of chromosome aberration analysis.The new index CBMN+NDI assay is of reference valne for estimating higher dose of irradiation.
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Objective To investigate the late effect of radiation on child-bearing women,through observing "Fang",a 19-week-pregnant woman at age of 23,who was exposed to 60Co radiation in Shanxi Xinzhou radiation accident in November,1992 and diagnosed as moderate bone marrow type acute radiation sickness and recovered after 16 year of follow-up treatment.Methods Clinical data including medical history,physical examination,laboratory data,imaging findings and consulting relevant departments were reviewed.Results The followed-up woman "Fang" often felt weak and caught cold after recovery.When she was 32 years old (9 years after radiation),her hair turned grey,but without hair loss.Her menstrual quantity was lessened since 31 years old (8 years after radiation).She was remarried and pregnant twice in the same year.At the first time she underwent artificial abortion and the second child suffered from intrauterine death after 6 months of pregnancy.The physical examination found bilateral degree Ⅰ thyroid enlargement and sparse armpit hair.The laboratory test showed the increased levels of triiodothyronine,thyroxine and anti-thyroid peroxidase antibody (TMAb) and the decreased thyroid stimulating hormone (TSH).Unstable chromosome aberrations were totally lost and stable aberrations in chromosomes were detected by fluorescence in situ hybridization (FISH).The dose estimated with the residue chromosome aberration was 0.76 Gy.Other laboratory results were normal.Ultrasonic test showed diffuse lesion in bilateral thyroid and multiple cystic nodules in right lobe of thyroid,which was considered to be nodular goiter.The examination of bone mineral density (BMD) showed osteoporosis from the second to the fourth lumber vertebra.There were no diseases associated with radiation based on the consultation from related departments.Conclusions Intrauterine death after 6 months of pregnancy might be associated with the previous exposure.There is no evidence of malignant tumor,but non-cancerous diseases are obvious.
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Objective To reconstruct the absorbed dose for the individual who was accidentally exposed in uterus 16 years ago.Methods Peripheral blood samples were taken from the victim and her mother.The dicentric and centric ring chromosome aberrations were analyzed with conventional method,the micronucleus was observed with cytokinesis-block micronucleus method,and fluorescence in situ hybridization (FISH) with chromosomes 1,2 and 4 painting probes were used for translocation detection.Dose was estimated according to the standard dose-response curves previously established.Results No unstable chromosome aberrations and normal micronucleus frequencies were observed in two persons 16years after the accident.Against the established dose-response curves with FISH,the doses to the mother and her daughter were 0.76 Gy (95% GI 0.41-1.00 Gy) and 0.61 Gy (95% CI 0.44-0.86 Gy),respectively.Because the biological dose estimated for the mother 1 month after the accident was 2.30 Gy (95% CI 2.07-2.50 Gy),the dose correction factor was 3.03 for dose estimation 16 years later.The estimated dose in uterus to the victim was 1.85 Gy (95% CI 1.33-2.61 Gy).Conclusions The estimated dose to the individual accidentally exposed in uterus 16 years ago can be obtained according to the dose correction factor of the mother with FISH method.
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Korea has advanced nuclear and radioisotope industry, and it is urgent to establish a national system to countermeasure the radiation accidents and preparedness for radiation emergency medical management. The Government opened the National Radiation Emergency Medical Center (NREMC) in the Korea Institute of Radiological and Medical Sciences (KIRAMS) in 2002, and the NREMC is setting up a radiation emergency medical preparedness and assistance network in nationwide. On April 30, 2003 the special law was proposed for the physical protection of nuclear facilities and emergency response against radiological accidents, which includes medical preparedness and management. Detailed guidelines for this law is being prepared by the Ministry of Science and Technology (MOST), and will be take effect in February 2004. Per this guideline, regional emergency medical centers will be appointed by the MOST, and the NREMC will operate this national system including education of the medical personnel.
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Education , Emergencies , Jurisprudence , Korea , Medical Assistance , Radioactive Hazard ReleaseABSTRACT
While the use of radioactive materials around the world offers a wide range of benefits in medicine, industry and research, radiation accidents also occur in world-wide. The objective of this article is to provide useful information about radiation accidents to the medical personnel. For this, I attempted to document the circumstances leading to the accident and the subsequent medical treatment and health consequences of the victims. Radiation accidents described in this article are Chernobyl nuclear power plant accident, nuclear weapon accident in bikini atoll, major industrial accidents (Ir-192 Peruvian accident, Ir-192 internal contamination accident in Korea, Tokaimura accident in Japan) and Cs-137 contamination accident in Brazil. After reviewing major radiation accidents, I summarized the lessons to be learned from these accidents and presented the helpful institutes that can offer useful helps when radiation accident occurs.
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Academies and Institutes , Accidents, Occupational , Brazil , Korea , Nuclear Power Plants , Radioactive Hazard Release , WeaponsABSTRACT
OBJECTIVE: To explore a drug supply system to meet radiation accident.METHODS: According to the characteristics of drug utilization for radiation disease,a retrospective analysis was conducted on the drug demand and supply in the course of treating two patients with severe radiation disease.RESULTS: The characteristics of drug supply to meet demand of remedy of acute radiation sickness manifested as a great variety and wide scope of drugs involved and purchase without scheme because of uncertainties of dosages and course of treatment,and the time is urgent,and the drug supply is more difficult.Great importance should be attached to the reserving of drugs,information,capability,and pre-draft in building and operating the drug supply system to meet radiation accident.CONCLUSION: To build a drug supply system to meet radiation accident,reasonable organization and utilization of drugs resources is quite necessary.