المؤلفون: V. Yu. Golikov, В. Ю. Голиков

المساهمون: The work was performed within the framework of the initiative research project “Scientific justification for changes in the calculations of stationary shielding in X-ray rooms”., Работа была выполнена в рамках инициативной НИР «Научное обоснование изменений в расчетах стационарной защиты в рентгеновских кабинетах»

المصدر: Radiatsionnaya Gygiena = Radiation Hygiene; Том 17, № 2 (2024); 46-52 ; Радиационная гигиена; Том 17, № 2 (2024); 46-52 ; 2409-9082 ; 1998-426X

مصطلحات موضوعية: рассеянное излучение, X-ray dental room, stationary shield, scatter coefficient, direct radiation, scatter radiation, рентгеновский стоматологический кабинет, стационарная защита, коэффициент рассеяния, прямое излучение

وصف الملف: application/pdf

Relation: https://www.radhyg.ru/jour/article/view/1038/889; United Nations Scientific Committee on the Effects of Atomic Radiation. Sources and Effects of Ionizing Radiation. UNSCEAR 2008 Report to the General Assembly with Scientific Annexes. Volume II. (New York, UN: Scientific Annexes C, D and E), 2011.; Голиков В.Ю. Критический анализ существующего подхода к расчету стационарной защиты в рентгеновских кабинетах // Радиационная гигиена. 2023. Т. 16, № 3. С. 13–21. DOI:10.21514/1998-426X-2023-16-3-13-21.; Archer B.R., Thornby J.I., Bushong S.C. Diagnostic X-Ray Shielding Design Based on an Empirical Model of Photon Attenuation // Health Physics. 1983. Vol. 44. P. 507-517.; NCRP (National Council on Radiation Protection and Measurements). Radiation Protection in Dentistry. NCRP Report No. 145. NCRP, 2004.; Colin J. Martin. Radiation shielding for diagnostic radiology // Radiation Protection Dosimetry. 2015. Vol. 165(1–4). P. 376–381. doi:10.1093/rpd/ncv040.; European Commission. European guidelines on Radiation Protection in dental radiology. The safe use of radiographs in dental practice. Radiation Protection 136. European Communities, 2004.; Use and regulatory control of dental x-ray installations ST3.1. Radiation and Nuclaer Safety Authority, Finland, 1999.; National Radiological Protection Board. Guidance notes for dental practitioners on the safe use of x-ray equipment. NRPB dental x-ray protection services, 2001.; Helmrot E., Carlsson G.Alm. Measurement of radiation dose in dental radiology // Radiation Protection Dosimetry. 2005. Vol.114, No.1-3. P. 168-171.; Worrall M., McVey S., Suon D.G. Proposals for revised factors in intra-oral radiography shielding calculaons // Journal of Radiological Protection. 2012. Vol. 32, No 3. P. 243-249. doi:10.1088/0952-4746/32/3/243.; Reid J.A., MacDonald J.C., Dekker T.A., Kuppers B.U. Radiation exposures around a panoramic dental X-ray unit // Oral Surgery, Oral Medicine, Oral Pathology. 1993. Vol. 75. P. 780-782.; Williams J.R., Fipem MSc, Montgomery A. Measurement of dose in panoramic dental radiology // British Journal of Radiology. 2000. Vol. 73, P. 1002-1006.; Isoardi P., Ropolo R. Measurement of dose–width product in panoramic dental radiology // British Journal of Radiology. 2003. Vol. 76, P. 129-131.; Holroyd J.R., Walker A. Recommendations on the design of X-ray facilities and the quality assurance of dental cone beam CT systems. HPARPD-065. Chilton: HPA, 2010.; https://www.radhyg.ru/jour/article/view/1038

الاتاحة: https://www.radhyg.ru/jour/article/view/1038
https://doi.org/10.21514/1998-426X-2024-17-2-46-52

المؤلفون: V. Yu. Golikov, В. Ю. Голиков

المصدر: Radiatsionnaya Gygiena = Radiation Hygiene; Том 16, № 3 (2023); 13-21 ; Радиационная гигиена; Том 16, № 3 (2023); 13-21 ; 2409-9082 ; 1998-426X

مصطلحات موضوعية: медицинские исследования, X-ray room, attenuation coefficient, direct radiation, scatter radiation, medical investigations, стационарная защита от излучения, коэффициент ослабления, прямое излучение, рассеянное излучение

وصف الملف: application/pdf

Relation: https://www.radhyg.ru/jour/article/view/971/848; NCRP (National Council on Radiation Protection and Measurements). Structural shielding design for medical X-ray imaging facilities. NCRP Report No. 147. NCRP, 2004.; National Council on Radiation Protection and Measurements. Structural Shielding Design and Evaluation for Medical Use of X Rays and Gamma Rays of Energies up to 10 MeV, Bethesda, MD: NCRP: NCRP Report No. 49; 1976.; Kelley J.P., Trout E.D. Broad Beam Attenuation in lead for X-rays from 50 to 300 kVp // Radiology. 1972. Vol. 104 P. 171-175.; Braestrup C.B., Wyckoff H.O. Shielding Design Levels for Radiology Departments // Radiology. 1973. Vol. 107. P. 445-448.; Trout E.D., Kelley J.P., Herbert G.L. X-Ray Attenuation in Steel from 50 to 300 kVp // Health Physics. 1975. Vol. 29. P. 163-169.; Trout E.D., Kelley J.P. Scattered Radiation from a Tissue equivalent phantom for X-rays from 50 to 300 kVp // Radiology. 1972. Vol. 104. P. 161-169.; Simpkin D.J. Evaluation of NCRP Report 49 Assumptions on Workloads and Use Factors in Diagnostic Radiology Facilities // Medical Physics. 1996. Vol. 23. P. 577-584.; Archer B.R., Fewell T.R., Conway B.J., Quinn P.W. Attenuation Properties of Diagnostic X-Ray Shielding Materials // Medical Physics. 1994. Vol. 21, No 9. P. 1499-1507.; Archer B.R., Thornby J.I., Bushong S.C. Diagnostic X-Ray Shielding Design Based on an Empirical Model of Photon Attenuation // Health Physics. 1983. Vol. 44. P. 507-517.; Simpkin D.J. Transmission data for shielding diagnostic X-ray facilities // Health Physics. 1995. Vol. 68. P. 704-709.; Simpkin D.J., Dixon R.L. Secondary Shielding Barriers for Diagnostic X-ray Facilities: Scatter and Leakage Revisited // Health Physics. 1998. Vol. 74. P. 350-365.; Martin C.J. Radiation shielding for diagnostic radiology // Radiation Protection Dosimetry. 2015. Vol. 165, No 1–4. P. 376–381. doi:10.1093/rpd/ncv040.; Голиков В.Ю., Водоватов А.В. Критический анализ и предложения по совершенствованию существующей системы радиационного контроля в рентгеновских кабинетах. // Радиационная гигиена. 2021. Т.14, № 2. С. 39–47. doi:10.21514/1998-426X-2021-14-2-39-47.; Radiation Shielding for Diagnostic Radiology, Second Edition. Editors: Sutton D.G., Martin C.J., Williams J.R. and Peet D.J. British Institute of Radiology, London, UK, 2012. 148 p.; Rossi R.P., Ritenour R., Christodoulou E. Broad beam transmission properties of some common shielding materials for use in diagnostic radiology // Health Physics. 1991. Vol. 61. P. 601-608.; Chritensen Rc., Sayeg J.A. Attenuation characteristics of gypsum wallboard // Health Physics. 1979. Vol. 36. P. 595-600.; Simpkin D.J. Shielding requirements for mammography // Health Physics. 1987. Vol. 53. P. 267-279.; DIN 6812:2021-06: Medical x-ray equipment up to 300 kv – Rules of construction for structural radiation protection. DIN Deutsches Institut für Normung e.V., Berlin (Germany); DINNormenausschuss Radiologie (NAR), Pforzheim (Germany), 2021.; Голиков В.Ю., Водоватов А.В. Оценка значений рабочей нагрузки рентгеновских аппаратов при проведении рентгенологических процедур общего назначения // Радиационная гигиена. 2015. Т. 8, № 2. С. 6-10.; Dixon R.L. On the primary barrier in diagnostic x-ray shielding // Medical Physics. 1994. Vol. 21. P. 1785-1794.; Dixon R.L., Simpkin D.J. Primary Shielding Barriers for Diagnostic X-ray Facilities: A New Model // Health Physics. 1998. Vol. 74. P. 181-189.; Балонов М.И., Голиков В.Ю., Кальницкий С.А., Братилова А.А. Риск стохастических эффектов облучения вследствие рентгенографических исследований: зависимость от пола и возраста пациента // Медицинская радиология и радиационная безопасность. 2011. Том 56, № 4. C. 71-79.; Wallace H., Martin C J., Sutton D.G. et al. Establishment of scatter factors for use in shielding calculations and risk assessment for computed tomography facilities // Journal of Radiological Protection. 2012. Vol. 32. P. 39–50.; https://www.radhyg.ru/jour/article/view/971

الاتاحة: https://www.radhyg.ru/jour/article/view/971
https://doi.org/10.21514/1998-426X-2023-16-3-13-21

المؤلفون: V. Yu. Golikov, A. V. Vodovatov, В. Ю. Голиков, А. В. Водоватов

المصدر: Radiatsionnaya Gygiena = Radiation Hygiene; Том 8, № 2 (2015); 6-10 ; Радиационная гигиена; Том 8, № 2 (2015); 6-10 ; 2409-9082 ; 1998-426X ; undefined

مصطلحات موضوعية: стационарная защита, X-ray unit, workload, shielding construction, рентгеновский аппарат, рабочая нагрузка

وصف الملف: application/pdf

Relation: https://www.radhyg.ru/jour/article/view/1/3; Gigiyenicheskiye trebovaniya k ustroystvu i ekspluatatsii rentgenovskikh kabinetov, apparatov i provedeniyu rentgenologicheskikh issledovaniy (SanPiN 2.6.1.1192-03) : vvedeny v deystviye ot 18.02. 03 g. № 8 s 01.05.03 g. – M.; NCRP (1976). National Council on Radiation Protection and Measurements. Structural Shielding Design and Evaluation for Medical Use of X Rays and Gamma Rays of Energies Up to 10 MeV, NCRP Report No. 49 (National Council on Radiation Protection and Measurements, Bethesda, Maryland).; Simpkin, D.J. Evaluation of NCRP Report No. 49 assumptions on workloads and use factors in diagnostic radiology facilities / D.J. Simpkin // Med. Phys. – V. 23 (4). – P. 577–584.; NCRP (2004). National Council on Radiation Protection and Measurements. Structural shielding design for medical X-ray imaging facilities, NCRP Report No. 147 (National Council on Radiation Protection and Measurements, Bethesda, Maryland).; Tou-Rong, C. Surveyed data for structural shielding calculations of radiographic X-ray installations in Taiwan / C. Tou-Rong, T. Yeu-Sheng, C. Chien-hau // The Radiation Safety Jornal. – V. 104, suppl. 2, May 2013.; https://www.radhyg.ru/jour/article/view/1; undefined

الاتاحة: https://www.radhyg.ru/jour/article/view/1

المؤلفون: V. Yu. Golikov, A. V. Vodovatov

المصدر: Радиационная гигиена, Vol 8, Iss 2, Pp 6-10 (2015)

مصطلحات موضوعية: рентгенографические процедуры, рентгеновский аппарат, рабочая нагрузка, стационарная защита, Medical physics. Medical radiology. Nuclear medicine, R895-920, Radioactivity and radioactive substances, QC794.95-798, phil, hist

Relation: https://doaj.org/article/6f8cb25b639349fbac05a050a8ef714d

الاتاحة: https://doaj.org/article/6f8cb25b639349fbac05a050a8ef714d