17. №7. 2019

Том 17, № 7. 2019
PRACTICAL MEDICINE
157
ЛИТЕРАТУРА
1. Little M.P., Wakeford R., Tawn E.J. et al. Risks associated with
low doses and low dose rates of ionizing radiation: why linearity
may be (almost) the best we can do // Radiology. — 2009 Apr. —
Vol. 251 (1). — P. 6–12.
2. Kong Y., Gao L., Zhuo W. et al. A survey on radiation exposure of
primary operators from interventional X-ray procedures // Radiation
Measurements. –—2013. — Vol. 55. — P. 3–45.
3. Kim K.P., Miller D.L., Berrington de Gonzalez A. et al. Occupational
radiation doses to operators performing fluoroscopically-guided
procedures // Health Phys. — 2012. — Vol. 103 (1). — P. 80–99.
4. Choi J., Kim B., Choi Y. et al. Image Quality of Low-Dose
Cerebral Angiography and Effectiveness of Clinical Implementation
on Diagnostic and Neurointerventional Procedures for Intracranial
Aneurysms // American Journal of Neuroradiology. — 2019, Apr. —
P. 1–7.
5. Рыжкин С.А., Слесарева А.Н., Галеева Г.З. и др. Клиническое
изучение органа зрения и дозиметрия хрусталика глаза персонала,
выполняющего хирургические вмешательства под контролем
рентгеновского излучения // Радиация и риск. — 2017. — Т. 26,
№ 3. — С. 90–98.
6. Нормы радиационной безопасности (НРБ-99/2009). Санитарные
правила и нормативы СанПиН 2.6.1.2523-09. — М.: Федеральный
центр гигиены и эпидемиологии Роспотребнадзора, 2009. —
100 с.
7. Hamada N., Fujimichi Y. Classification of radiation effects for dose
limitation purposes: history, current situation and future prospects //
J Radiat Res. — 2014. — Vol. 55 (4). — P. 629–640.
8. Michael Seymour. Health Impacts of Radiation Exposure During
PCI // Cath Lab Digest. — 2017. — Vol. 25. — I. 3.
9. Feldman D.N., Swaminathan R.V., Kaltenbach L.A. et al. Adoption
of radial access and comparison of outcomes to femoral access in
percutaneous coronary intervention: An updated report from the
National Cardiovascular Data Registry (2007–2012) // Circulation. —
2013. — Vol. 1267. — P. 2295–2306.
10. Tarighatnia A., Mohammadalian A., Ghojazade M. et al. Beam
projections and radiation exposure in transradial and transfemoral
approaches during coronary angiography // Anatol J Cardiol. —
2017. — Vol. 18 (4). — P. 298–303.
11. Plourde G., Pancholy S.B., Nolan J. et al. Radiation exposure
in relation to the arterial access site used for diagnostic coronary
angiography and percutaneous coronary intervention: a systematic
review and meta-analysis // Lancet. — 2015. — Vol. 386. —
P. 2192–2203.
12. J Am Coll. Radiation Exposure and Vascular Access in Acute
Coronary Syndromes: The RAD-Matrix Trial // Cardiol. — 2017,
May 23. — Vol. 69 (20). — P. 2530–2537.
13. Smith I.R., Cameron J., Mengersen K.L., Rixers J.T. Evaluation
of coronary angiographic projections to balance the clinical yield with
the radiation risk // The British Journal of Radiology. — 2012. —
Vol. 85. — P. 722–728.
14. Sukupova L., Hlavacek O., Vedlich D. Impact of the Ceiling-
Mounted Radiation Shielding Position on the Physician's Dose from
Scatter Radiation during Interventional Procedures // Radiol Res
Pract. — 2018. — 7 p.
15. Kuon E., Glaser C., Dahm J.B. Effective techniques for
reduction of radiation dosage to patients undergoing invasive cardiac
procedures // Br J Radiol. — 2003, Jun. — Vol. 76 (906). — P. 406–413.
16. Fish D.E., Kim A., Ornelas C. et al. The risk of radiation
exposure to the eyes of the interventional pain physician // Radiol.
Res. Pract. — 2011. — Vol. 2011. — P. 1–5.
17. Нарышкин С.А. Методы оптимизации лучевых нагрузок на
персонал при рентгеноэндоскопических операциях в урологии:
автореф. дис. … канд. мед.наук: 14.00.19 // Моск. мед. академия.
— М., 2009. — 24 с.
18. Shams T., Zaidat O., Yavagal D. et al. Society of Vascular and
Interventional Neurology (SVIN) Stroke Interventional Laboratory
Consensus (SILC) Criteria: A 7M Management Approach to Developing
a Stroke Interventional Laboratory in the Era of Stroke Thrombectomy
for Large Vessel Occlusions // Interv Neurol. — 2016. — Vol. 5 (1–2). —
P. 1–28.
19. Kuon E., Weitmann K., Hoffmann W. et al. Role of Experience,
Leadership and Individual Protection in the Cath Lab-A Multicenter
Questionnaire and Workshop on Radiation Safety // Rofo. — 2015,
Oct. — Vol. 187 (10). — P. 899–905.
20. Durán A., Hian S.K., Miller D.L. et al. Recommendations for
occupational radiation protection in interventional cardiology //
Catheter Cardiovasc Interv. — 2013. — Vol. 82 (1). — P. 29–42.
21. Jurado-Román A., Sánchez-Pérez I., Lozano Ruíz-Poveda F. et
al. Effectiveness of the implementation of a simple radiation reduction
protocol in the catheterization laboratory // Cardiovasc Revasc Med. —
2016, Jul–Aug. – Vol. 17 (5). — P. 328–332.