SCIENTIFIC AND INFORMATION-ANALYTICAL MAGAZINE

ISSN 1024-6177 (Print), ISSN 2618-9615 (Online)

JOURNAL DESCRIPTION

The Medical Radiology and Radiation Safety journal ISSN 1024-6177 was founded in January 1956 (before December 30, 1993 it was entitled Medical Radiology, ISSN 0025-8334). In 2018, the journal received Online ISSN: 2618-9615 and was registered as an electronic online publication in Roskomnadzor on March 29, 2018. It publishes original research articles which cover questions of radiobiology, radiation medicine, radiation safety, radiation therapy, nuclear medicine and scientific reviews. In general the journal has more than 30 headings and it is of interest for specialists working in thefields of medicine¸ radiation biology, epidemiology, medical physics and technology. Since July 01, 2008 the journal has been published by State Research Center - Burnasyan Federal Medical Biophysical Center of Federal Medical Biological Agency. The founder from 1956 to the present time is the Ministry of Health of the Russian Federation, and from 2008 to the present time is the Federal Medical Biological Agency.

Members of the editorial board are scientists specializing in the field of radiation biology and medicine, radiation protection, radiation epidemiology, radiation oncology, radiation diagnostics and therapy, nuclear medicine and medical physics. The editorial board consists of academicians (members of the Russian Academy of Science (RAS)), the full member of Academy of Medical Sciences of the Republic of Armenia, corresponding members of the RAS, Doctors of Medicine, professor, candidates and doctors of biological, physical mathematics and engineering sciences. The editorial board is constantly replenished by experts who work in the CIS and foreign countries.

Six issues of the journal are published per year, the volume is 13.5 conventional printed sheets, 88 printer’s sheets, 1.000 copies. The journal has an identical full-text electronic version, which, simultaneously with the printed version and color drawings, is posted on the sites of the Scientific Electronic Library (SEL) and the journal's website. The journal is distributed through the Rospechat Agency under the contract № 7407 of June 16, 2006, through individual buyers and commercial structures. The publication of articles is free.

The journal is included in the List of Russian Reviewed Scientific Journals of the Higher Attestation Commission. Since 2008 the journal has been available on the Internet and indexed in the RISC database which is placed on Web of Science. Since February 2nd, 2018, the journal "Medical Radiology and Radiation Safety" has been indexed in the SCOPUS abstract and citation database.

Brief electronic versions of the Journal have been publicly available since 2005 on the website of the Medical Radiology and Radiation Safety Journal: http://www.medradiol.ru. Since 2011, all issues of the journal as a whole are publicly available, and since 2016 - full-text versions of scientific articles. Since 2005, subscribers can purchase full versions of other articles of any issue only through the National Electronic Library. The editor of the Medical Radiology and Radiation Safety Journal in accordance with the National Electronic Library agreement has been providing the Library with all its production since 2005 until now.

The main working language of the journal is Russian, an additional language is English, which is used to write titles of articles, information about authors, annotations, key words, a list of literature.

Since 2017 the journal Medical Radiology and Radiation Safety has switched to digital identification of publications, assigning to each article the identifier of the digital object (DOI), which greatly accelerated the search for the location of the article on the Internet. In future it is planned to publish the English-language version of the journal Medical Radiology and Radiation Safety for its development. In order to obtain information about the publication activity of the journal in March 2015, a counter of readers' references to the materials posted on the site from 2005 to the present which is placed on the journal's website. During 2015 - 2016 years on average there were no more than 100-170 handlings per day. Publication of a number of articles, as well as electronic versions of profile monographs and collections in the public domain, dramatically increased the number of handlings to the journal's website to 500 - 800 per day, and the total number of visits to the site at the end of 2017 was more than 230.000.

The two-year impact factor of RISC, according to data for 2017, was 0.439, taking into account citation from all sources - 0.570, and the five-year impact factor of RISC - 0.352.

Issues journals

Medical Radiology and Radiation Safety. 2017. Vol. 62. No. 5. P. 28-32

RADIATION MEDICINE

DOI: 10.12737/article_59f2f93b8906c4.36666437

Organization of Personnel Individual Protection Conducting Diagnostic and Treatment Procedures Using Radionuclide and Generating Sources of Ionizing Radiation

V.I. Rubtsov, V.N. Klochkov, A.Yu. Nephedov, L.I. Tyuneeva, E.V. Klochkova, A.B. Trebukhin

A.I. Burnasyan Federal Medical Biophysical Center, Moscow, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

V.I. Rubtsov – Head of Laboratory, Dr. Sc. Tech.; V.N. Klochkov – Leading Researcher, Dr. Sc. Tech.; A.Yu. Nephedov – Senior Researcher, PhD Med.; L.I. Tyuneeva – Senior Researcher; E.V. Klochkova – Research Officer; A.B. Trebukhin – Leading Researcher, PhD Tech.

Abstract

Purpose: To improve radiation safety of medical staff and patients during diagnostic and treatment procedures with using of radionuclide radiation sources. Material and methods: Staff working conditions have been analyzed and the potential for using of various personal protective equipment has been assessed based on the developed framework of personal protection of medical staff and patients at nuclear medicine centers. In accordance with methods described in the current Russian standards, specimens of personal protective equipment manufactured at Russian industrial plants and suitable for use by medical staff and patients at nuclear medicine centers have been tested.

Results: Results of laboratory tests of new advanced high-performance personal protective equipment of various purposes for protection of medical staff and patients during diagnostic and treatment procedures with using of radiation sources are provided. Training and information documents and guidelines have been developed, including “Study guide on personal protection during diagnostic and treatment procedures with using of radionuclides and ionizing radiation sources” for various departments of the Institute of Continuing Vocational Education, in A.I. Burnasyan Federal Medical Biophysical Center of the FMBA of Russia, and “Guidelines on personal protection of medical staff and patients during diagnostic and treatment procedures with using of radionuclides and ionizing radiation sources”.

Conclusion: Study guide and Guidelines on personal protection of medical staff and patients at nuclear medicine centers during diagnostic and treatment procedures with using of radionuclide radiation sources, as well as the draft of the Standard guidelines on delivery of free personal protective equipment to medical staff have been developed based on the results of work and studies.

Kew words: nuclear medicine, staff, patients, external and internal exposure, radionuclides, personal protective equipment

REFERENCES

  1. Sources and effects of ionizing radiation. United Nations Scientific Committee on the Effects of Atomic Radiation. UNSCEAR 2008. Report to the General Assembly with Scientific Annexes. Volume 1. Annex A. Medical Radiation Exposures. United Nations. New York. 2010.
  2. Narkevich B.Ya., Kostylev V.A. Problemy obespecheniya radiatsionnoy bezopasnosti v sovremennoy radionuklidnoy diagnostike. Medical Radiology and Radiation Safety. 2009. Vol. 54. No. 2. P. 166–167. (In Russ.).
  3. Narkevich B.Ya., Kostylev V.A., Levchuk A.V. et al. Radiatsionnaya bezopasnost v meditsinskoy radiologii. Chast 3. Obespecheniye radiatsionnoy bezopasnosti personala. naseleniya i okruzhayushchey sredy. Medical Radiology and Radiation Safety. Vol. 54. No. 4. P. 14–24. (In Russ.).
  4. Mettler F.A. et al. Effective doses in radiology and diagnostic nuclear medicine: a catalog . Radiology. 2008. Vol. 248. No. 1. P. 254–263.
  5. Radiologicheskaya zashchita pri meditsinskom obluchenii ioniziruyushchim izlucheniyem. Rukovodstvo po bezopasnosti. Seriya norm bezopasnosti. RS-G-1. IAEA. 2004.
  6. Radiatsionnaya zashchita i bezopasnost istochnikov izlucheniya: mezhdunarodnyye osnovnyye normy bezopasnosti. MAGATE. Vena.
  7. Rubtsov V.I., Klochkov V.N., Surovtsev N.A. et al. Sovershenstvovaniye radiatsionnoy zashchity meditsinskogo personala pri provedenii diagnosticheskikh i lechebnykh protsedur s ispolzovaniyem radionuklidov i istochnikov ioniziruyushchego izlucheniya. Medical Radiology and Radiation Safety. 2016. Vol. 61. 1. P. 17–21. (In Russ.).

For citation: Rubtsov VI, Klochkov VN, Nephedov AYu, Tyuneeva LI, Klochkova EV, Trebukhin AB. Organization of Personnel Individual Protection Conducting Diagnostic and Treatment Procedures Using Radionuclide and Generating Sources of Ionizing Radiation. Medical Radiology and Radiation Safety. 2017;62(5):28-32. Russian. DOI: 10.12737/article_59f2f93b8906c4.36666437

PDF (RUS) Full-text article (in Russian)

Medical Radiology and Radiation Safety. 2017. Vol. 62. No. 5. P. 21-27

RADIATION SAFETY

DOI: 10.12737/article_59f2f75e1cb220.73941126

Radiation Situation in Workplaces of the Personnel at the Ground Facilities of the Priargun Production Mountain Chemical Association 

N.K. Shandala1, A.M. Marenny2, D.V. Isaev1, A.V. Titov1, S.M. Kiselev1, M.P. Semenova1, N.A. Nephedov2, V.I. Astaphurov2, L.A. Zhuravleva3, M.A. Marenny4, E.A. Khohlova5, V.V. Uiba6

  1. A.I. Burnasyan Medical Biophysical Center Moscow, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. .
  2. Scientific and Technical Center of Radiation Chemical Safety and Hygiene Moscow, Russia.
  3. Center for Hygiene and Epidemiology No.107, Krasnokamensk, Russia.
  4. REI group of companies, Moscow, Russia.
  5. Inter-regional Management Center No.107 Krasnokamensk, Russia.
  6. Federal Medical-Biological Agency, Moscow, Russia.

N.K. Shandala – Science and Biophysical Technologies Deputy Director General, Dr. Sc. Med., Member of the Russian scientific commission radiological protection, Member of the Committee on Radiation Protection and Public Health Nuclear Energy Agency Organization for Economic Cooperation and Development, Member of International Radiation Protection Association; A.M. Marenny – professor, Dr. Sc. Phys.-Math., Head of Lab., Member of the European Union of Radiologists, Academician of the Russian Academy of Natural Sciences; D.V. Isaev – Researcher, Member of International Radiation Protection Association; A.V. Titov – Senior Researcher, Member of International Radiation Protection Association; S.M Kiselev – PhD Biol., Leading Researcher, Member of International Radiation Protection Association (IRPA); MP. Semenova – Senior Researcher, Member of International Radiation Protection Association (IRPA); N.A. Nephedov – PhD Phys.-Math., Leading Researcher; V.I. Astaphurov – Associate Prof., PhD Chem., Leading Researcher, Prof.; L.A. Zhuravleva – Chief Medical; M.A. Marenny – PhD Econ., Chief Engineer REI group of companies; E.A. Khohlova – Head Inter-regional Management Center No.107 of FMBA of Russia; V.V. Uiba – Head of Federal Medical Biological Agency of Russia, Dr. Sc. Med., Prof.

Abstract

Purpose: To obtain data of radiation survey in workplaces of the personnel of the Priargun Production Mountain Chemical Association (OJSC PPMCA), who work at the premises of the ground facilities.

Material and methods: In the course of the radiation survey integral track methods were used to measure radon activity concentration by REI-1 track cameras of the TRACK-REI-1M kit.

To assess the activity balance factor between radon and its radionuclide progenies, short term measurements of radon activity concentration (AC) and effective equilibrium concentration (EEC) of radon by handle radiometers of radon and its progenies. Gamma dose rate was measured by handle dosimeters.

Results: Annual AC, EEC and effective dose due to radon and external gamma exposures in workplaces at the ground facilities of OJSC PPMCA have been obtained. Total number of the inspected workshops is 138, including 121 workshops occupied by the A group personnel, and 17 – by the B group personnel.

Conclusions: It was shown that annual doses 20 mSv could be exceeded for the A group personnel who work at three workshops shaft 8K of the mine-2, one workshop of building 630A of the Hydro-metallurgical Plant and one workshop of shaft 5B of G mine.

In the workshops of the B group personnel, 5 mSv annual effective doses can be exceeded 2 and more times at the premises of canteen number 18 and administrative domestic building of mine-2.

Key words: staff, radiation survey, radon, ventilation, gamma radiation, inhalation intake, class of work conditions, workplace, mine, effective dose

REFERENCES

  1. Sajt PPGHO. Available at: http://www.priargunsky.armz.ru/enterprises_association/ (accessed 11.12.2016). (in Russ.).
  2. Radiacionnaya obstanovka na territorii Rossii i sopredel’nyh gosudarstv v 2011 godu. Ezhegodnik. Obninsk. 2012. (in Russ.).
  3. MVI 2.6.1.003–99. Izmerenie ob’emnoj aktivnosti integral’nym trekovym metodom v proizvodstvennyh, zhilyh i obshchestvennyh pomeshcheniyah. (in Russ.).
  4. Metodika izmerenij «Radon. Izmerenie ob»emnoj aktivnosti v vozduhe pomeshchenij integral’nym trekovym metodom» (Svidetel’stvo FGUP VNIIFTRI 40090.2I385 16.06.2012). (in Russ.).
  5. MU 2.6.1. 037–2015. Opredelenie srednegodovyh znachenij EHROA izotopov radona v vozduhe pomeshchenij po rezul’tatam izmerenij raznoj dlitel’nosti. (in Russ.).
  6. MU 2.6.1.11–01. Organizaciya radiacionnogo kontrolya na uranovyh rudnikah i raschet doz oblucheniya personala. Metodicheskie ukazaniya. Moscow. 2004. (in Russ.).
  7. SanPiN 2.6.1.2523-09 Normy radiacionnoj bezopasnosti (NRB-99/2009). (in Russ.).
  8. P 2.2.2006-05 Rukovodstvo po gigienicheskoj ocenke faktorov rabochej sredy i trudovogo processa. Kriterii i klassifikaciya uslovij truda. Utverzhdeno Glavnym gosudarstvennym sanitarnym vrachom Rossijskoj Federacii G.G.Onishchenko 29.06. 2005. (in Russ.).

For citation: Shandala NK, Marenny AM, Isaev DV, Titov AV, Kiselev SМ, Semenova МP, Nephedov NA, Astaphurov VI, Zhuravleva LA, Marenny MA, Khohlova EA, Uiba VV. Radiation Situation in Workplaces of the Personnel at the Ground Facilities of the Priargun Production Mountain Chemical Association. Medical Radiology and Radiation Safety. 2017;62(5):21-7. Russian.DOI: 10.12737/article_59f2f75e1cb220.73941126

PDF (RUS) Full-text article (in Russian)

Medical Radiology and Radiation Safety. 2017. Vol. 62. No. 5. P. 5-10

RADIATION BIOLOGY

DOI: 10.12737/article_59f2ef130f5421.00591025

Study of Uridylic Nucleotides Contents and the Investigation Aspartate Carbamoyltransferase in Liver and Small Intestine Mucosa Exposed when Administered to Rats Orotic Acid and Perftoran

E.R. Nagiev, S.E. Nagieva, F.E. Ismailova

Dagestan State Medical University, Makhachka, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

E.R. Nagiev – Academician of the Russian Academy of Natural Sciences, Honored Worker of the Higher School of Russian Federation, Prof., Dr. Sc. Med., Head the Department of General and Biological Chemistry, Dagestan State Medical University; S.E. Nagieva – PhD Med., Assoc. Prof.; F.E. Ismailova – PhD Med., Assistant

Abstract

Purpose: Study of uridylic nucleotides content and aspartate carbamoyltransferase which was a key enzyme on the pathway for the synthesis of pyrimidine nucleotides in tissues of irradiated animals upon administration of orotic acid and perftorane was conducted.

Material and methods: Studies were performed on random-bred albino rats subjected to a single γ-ray exposure at a total dose of 6 Gy. Orotic acid was injected as potassium salt in a dose of 60 mg / kg, perftoran salt in a dose of 1 ml / 100 g water.

Results: A decrease in the content of UTP and UDP, as well as an increase in UMP after irradiation, especially on the 7th day, was established. The most pronounced changes in the studied biochemical parameters take place in the mucosa of the small intestine. The administration of orotic acid and perftorane to irradiated animals contributes to a significant correction of both the nucleotide content and the activity of aspartate carbamoyltransferase.

Conclusion: The radiation leads to some decrease in the content of UDP and UTP. Changes in the content of nucleotides and activity of aspartate carbamoyltransferase in the mucosa of the small intestine are more pronounced in comparison with liver tissue. The combined administration of orotic acid and perftorane promotes the normalization of the content of nucleotides, and the activity of aspartate carbamoyltransferase in the liver and mucous membrane of the small intestine of irradiated animals.

Key words: uridylic nucleotides, aspartate carbamoyltransferase, irradiation, orotic acid, perftoran, liver, small intestine, mucosa

REFERENCES

  1. Lenindzher A. Osnovy biokhimii: V 3-kh t. Vol. 2. Moscow: Mir. 1985. 655 p.
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For citation: Nagiev ER, Nagieva SE, Ismailova FE. Study of Uridylic Nucleotides Contents and the Investigation Aspartate Carbamoyltransferase in Liver and Small Intestine Mucosa Exposed when Administered to Rats Orotic Acid and Perftoran. Medical Radiology and Radiation Safety. 2017;62(5):5-10. Russian. DOI: 10.12737/article_59f2ef130f5421.00591025

PDF (RUS) Full-text article (in Russian)

Medical Radiology and Radiation Safety. 2017. Vol. 62. No. 5. P. 11-20

RADIATION SAFETY

DOI: 10.12737/article_59f2f1e5d45cc5.39553012

About Defining the Borders of Radioactive Contamination Zones as a Result of Large Radiation Accidents. Message I. Post-Accident Analysis of Chernobyl Zoning Experience

A.M. Skorobogatov1, M.G. Germenchuk2, A.V. Simonov1, O.M. Zhukova2, O.N. Apanasyuk1, Yu.N. Golikov2, T.A. Bulantseva1, L.Yu. Lupach1

1. Nuclear Safety Institute of the Russian Academy of Sciences, Moscow, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ; 2. Republican Center for Hydrometeorology, Control of Radioactive Contamination and Environmental Monitoring, Minsk, Belarus

A.M. Skorobogatov– Research Worker; M.G. Germenchuk– PhD Tech., First Deputy Head, Expert of the IAEA; A.V. Simonov– PhD Psych., Head of Department; O.M. Zhukova– PhD Tech., Head of Department, Expert of the IAEA; O.N. Apanasyuk– Senior Researcher; Yu.N. Golikov – Head of Department; T.A. Bulantseva– Engineer; L.Yu. Lupach– Junior Researcher

Abstract

Purpose: Retrospective analysis of the process of defining radioactive contamination zones formed after the Chernobyl accident.

Results: Summary of events related to liquidation of the Chernobyl NPP (ChNPP) accident consequences is given in the context of defining the radioactive contamination zones.

Experience of zoning of the territories exposed to radioactive contamination due to the Chernobyl NPP accident during 1986–2015 in Belarus and the Russian Federation has revealed the following:

  • Zones of radioactive contamination as a result of the ChNPP accident have been finally defined by the regulatory-legal acts only by 1991– in five years after the Chernobyl accident;
  • At present, the radioactive contamination zones legally correspond to the borders of settlements that were given a certain status of the radioactively contaminated territory.

This leads, in particular, to paradoxical “automatic” reduction of radioactive contamination zones due to abolition of settlements with no inhabitants. Absence of the established borders of radioactive contamination zones creates difficulties in substantiation of the measures related to radiation monitoring, rehabilitation of radioactively contaminated areas and their return to economic circulation.

Conclusions: Experience of eliminating of the Chernobyl NPP accident consequences shows that the absence of modern and scientifically justified procedures of defining the borders of radioactive contamination zones results not only in an inadequate assessment of the scales of consequences, but also does not allow effective differentiating the inventory and scale of necessary measures on population protection.

Key words: radiation accidents, radioactive contamination zones, radiation exposure dose, density of radioactive contamination, the Chernobyl accident, the analysis of the experience of zoning

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For citation: Skorobogatov AM, Germenchuk MG, Simonov AV, Zhukova OM, Apanasyuk ON, Golikov YuN, Bulantseva TA, Lupach LYu. About Defining the Borders of Radioactive Contamination Zones as a Result of Large Radiation Accidents. Message I. Post-Accident Analysis of Chernobyl Zoning Experience. Medical Radiology and Radiation Safety. 2017;62(5):11-20. Russian. DOI: 10.12737/article_59f2f1e5d45cc5.39553012

PDF (RUS) Full-text article (in Russian)

Medical Radiology and Radiation Safety. 2017. Vol. 62. No. 4. P. 81-86

MEDICAL PRACTICE ISSUE

DOI: 10.12737/article_59b10d1ea229a0.59653865

Organization System of the Causal Relationship between Diseases, Disability and Death of the Citizens Affected by Radiation Factors

A.Yu. Bushmanov1, Yu.D. Udalov1, N.N. Ryzhman2, V.A. Basharin2, S.V. Voronin2, M.A. Karamullin2, A.V. Yazenok2, A.S. Kretov1, I.V. Vlasova1

A.I. Burnasyan Federal Medical Biophysical Center of Federal Medical Biological Agency, Moscow, Russia, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ; 2. S.M. Kirov Military Medical Academy, St. Petersburg, Russia

A.Yu. Bushmanov – First Deputy Director General, Dr. Sc. Med., Prof.; Yu.D. Udalov – Deputy Director General of Medical Department, PhD Med.; N.N. Ryzhman – Deputy Head, PhD Med.; V.A. Basharin – Chief Toxicologist-radiologist, Head of the Dep., Dr. Sc. Med.; S.V. Voronin – Assoc. Prof of the Naval-Therapy Dep., Chairman of the Military Physician Board; M.A. Karamullin – Dr. Sc. Med., Prof.; A.V. Yazenok – Assoc. Prof. the Military-medical Academy, Dr. Sc. Med.; A.S. Kretov – Head of the Central Organizational and Methodology Dep.; I.V. Vlasova – Occupational Disease Doctor.

Abstract

There are two Advisory councils on the territory of the Russian Federation: the Interdepartmental Advisory Council (IAC) and Military Medical Commission (MMC) – where citizens may apply to establish the cause of a disease, disability and death from exposure to ionizing radiation.

The article describes the normative documents and the legislative base which regulates work of IAC and MMC on the establishment of a causal relationship between diseases, disability and death of the citizens, exposed to radiation from the Chernobyl accident.

 Categories of citizens who are eligible to apply for the examination to establish causation of the disease, disability and death as a result of exposure to ionizing radiation in IAC and MMC are defined.

MMC can treat only military servants, personnel and citizens, passing military service (equal service), service in bodies and organizations of Prosecutor’s office, the actions of high-risk units, who took part in liquidation of consequences of the Chernobyl accident. Veterans of special risk subdivisions, and all other citizens exposed to radiation due to the Chernobyl accident may apply to IAC.

Key words: radiation factors, radiation-induced effects, nterdepartmental Advisory Councils (IAC), Military-Medical Commission (MMC), legislative base, organizational structure, Chernobyl nuclear power plant (CNPP)

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For citation: Bushmanov AYu, Udalov YuD, Ryzhman NN, Basharin VA, Voronin SV, Karamullin MA, Yazenok AV, Kretov AS, Vlasova IV. Organization System of the Causal Relationship between Diseases, Disability and Death of the Citizens Affected by Radiation Factors. Medical Radiology and Radiation Safety. 2017;62(4):81-6. Russian. DOI: 10.12737/article_59b10d1ea229a0.59653865

PDF (RUS) Full-text article (in Russian)

  1. 2017-4-Ushakov-eng
  2. 2017-4-Koterov-eng
  3. 2017-4-Akramova-eng
  4. 2017-4-Blohin-eng

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