Effectiveness of a novel real-time dosimeter in interventional radiology: a comparison of new and old radiation sensors
暂无分享,去创建一个
Masayuki Zuguchi | Koichi Chida | Yohei Inaba | Masaaki Nakamura | K. Chida | Y. Inaba | M. Zuguchi | M. Nakamura
[1] Adrian K. Dixon,et al. Benefits and costs, an eternal balance , 2007 .
[2] J. Valentin,et al. Abstract: Avoidance of radiation injuries from medical interventional procedures, ICRP Publication 85 , 2000 .
[3] Virginia Tsapaki,et al. Radiation exposure to patients during interventional procedures in 20 countries: initial IAEA project results. , 2009, AJR. American journal of roentgenology.
[4] G. Reitz,et al. ICRP Publication 123: Assessment of Radiation Exposure of Astronauts in Space , 2013 .
[5] Jack Valentin,et al. News of the world , 2000 .
[6] Masayuki Zuguchi,et al. Radiation dose to the pediatric cardiac catheterization and intervention patient. , 2010, AJR. American journal of roentgenology.
[7] Masayuki Zuguchi,et al. Evaluating the performance of a MOSFET dosimeter at diagnostic X-ray energies for interventional radiology , 2009, Radiological physics and technology.
[8] Masayuki Zuguchi,et al. Real-time patient radiation dosimeter for use in interventional radiology. , 2016, Physica medica : PM : an international journal devoted to the applications of physics to medicine and biology : official journal of the Italian Association of Biomedical Physics.
[9] Masayuki Zuguchi,et al. Relationship between fluoroscopic time, dose-area product, body weight, and maximum radiation skin dose in cardiac interventional procedures. , 2006, AJR. American journal of roentgenology.
[10] Masayuki Zuguchi,et al. A cross‐sectional study of the radiation dose and image quality of X‐ray equipment used in IVR , 2016, Journal of applied clinical medical physics.
[11] J. Valentin,et al. Don't step on it , 2000, Annals of the ICRP.
[12] Masayuki Zuguchi,et al. Total entrance skin dose: an effective indicator of maximum radiation dose to the skin during percutaneous coronary intervention. , 2007, AJR. American journal of roentgenology.
[13] Masayuki Zuguchi,et al. Comparison of dose at an interventional reference point between the displayed estimated value and measured value , 2011, Radiological physics and technology.
[14] Stephen Balter,et al. Skin dose mapping for fluoroscopically guided interventions. , 2011, Medical physics.
[15] H Thierens,et al. A large-scale multicentre study of patient skin doses in interventional cardiology: dose-area product action levels and dose reference levels. , 2009, The British journal of radiology.
[16] Wesley E. Bolch,et al. Physical validation of UF‐RIPSA: A rapid in‐clinic peak skin dose mapping algorithm for fluoroscopically guided interventions , 2018, Journal of applied clinical medical physics.
[17] Jack Valentin,et al. The 2007 Recommendations of the International Commission on Radiological Protection. ICRP publication 103. , 2007, Annals of the ICRP.
[18] Masayuki Zuguchi,et al. Novel Dosimeter Using a Nontoxic Phosphor for Real-Time Monitoring of Patient Radiation Dose in Interventional Radiology. , 2015, AJR. American journal of roentgenology.
[19] Koichi Chida,et al. The necessity of follow-up for radiation skin injuries in patients after percutaneous coronary interventions: radiation skin injuries will often be overlooked clinically , 2012, Acta radiologica.
[20] H Thierens,et al. A large-scale multicentre study in Belgium of dose area product values and effective doses in interventional cardiology using contemporary X-ray equipment. , 2007, Radiation protection dosimetry.
[21] R. Sievert,et al. Book Reviews : Recommendations of the International Commission on Radiological Protection (as amended 1959 and revised 1962). I.C.R.P. Publication 6. 70 pp. PERGAMON PRESS. Oxford, London and New York, 1964. £1 5s. 0d. [TB/54] , 1964 .
[22] Masayuki Zuguchi,et al. Comparison of the radiation dose in a cardiac IVR X-ray system. , 2011, Radiation protection dosimetry.
[23] B Geiger,et al. ICRP Publication 120: Radiological Protection in Cardiology , 2013, Annals of the ICRP.
[24] Masayuki Zuguchi,et al. Radiation dose of interventional radiology system using a flat-panel detector. , 2009, AJR. American journal of roentgenology.
[25] Jad Farah,et al. Patient dosimetry in interventional radiology: Uncertainties associated to skin dose measurement and exposure correlation to online dose indicators , 2015 .
[26] J. Farah,et al. Configuration and validation of an analytical model predicting secondary neutron radiation in proton therapy using Monte Carlo simulations and experimental measurements. , 2015, Physica medica : PM : an international journal devoted to the applications of physics to medicine and biology : official journal of the Italian Association of Biomedical Physics.
[27] K. Chida,et al. A cross-sectional study of the radiation dose and image quality of X-ray equipment used in IVR. , 2016, Journal of applied clinical medical physics.
[28] Eliseo Vano,et al. Importance of a Patient Dosimetry and Clinical Follow-up Program in the Detection of Radiodermatitis After Long Percutaneous Coronary Interventions , 2013, CardioVascular and Interventional Radiology.
[29] Koichi Chida,et al. Evaluating the maximum patient radiation dose in cardiac interventional procedures. , 2011, Radiation protection dosimetry.
[30] Masayuki Zuguchi,et al. Does digital acquisition reduce patients' skin dose in cardiac interventional procedures? An experimental study. , 2004, AJR. American journal of roentgenology.
[31] Masayuki Zuguchi,et al. Fundamental study of a real-time occupational dosimetry system for interventional radiology staff , 2014, Journal of radiological protection : official journal of the Society for Radiological Protection.