Radiation Exposure Aspects during Trans-Radial Angiography and Angioplasty
Abstract
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1- Najam Saqib, Muhammad S Pir, Sharath Rajagopalan, Tejas M Patel, and Samir B Pancholy, "Comparison of radiation exposure associated with transradial and transfemoral access: An updated meta‐analysis." Catheterization and Cardiovascular Interventions, Vol. 101 (No. 1), pp. 87-96, (2023).
2- Ali Tarighatnia, Amir Hossein Mohammad Alian, Morteza Ghojazadeh, and Alir Reza Farajollahi, "Comparison of the patient radiation exposure during coronary angiography and angioplasty procedures using trans-radial and trans-femoral access." Journal of cardiovascular and thoracic research, Vol. 8 (No. 2), p. 77, (2016).
3- Mathew Mercuri, Shamir Mehta, Changchun Xie, Nicholas Valettas, James L Velianou, and Madhu K Natarajan, "Radial artery access as a predictor of increased radiation exposure during a diagnostic cardiac catheterization procedure." JACC: Cardiovascular Interventions, Vol. 4 (No. 3), pp. 347-52, (2011).
4- Ali Tarighatnia, Asghar Mesbahi, Amir Hossein Mohammad Alian, Evin Koleini, and Nader Nader, "An analysis of operating physician and patient radiation exposure during radial coronary angioplasties." Radiation protection dosimetry, Vol. 182 (No. 2), pp. 200-07, (2018).
5- Asghar Mesbahi and Naser Aslanabadi, "A study on patients' radiation doses from interventional cardiac procedures in Tabriz, Iran." Radiation protection dosimetry, Vol. 132 (No. 4), pp. 375-80, (2008).
6- Ali Tarighatnia, Gurkaran Johal, Ayuob Aghanejad, Hossein Ghadiri, and Nader D Nader, "Tips and tricks in molecular imaging: a practical approach." Frontiers in Biomedical Technologies, Vol. 8 (No. 3), pp. 226-35, (2021).
7- C Mantis, E Papadakis, A Anadiotis, N Kafkas, and S Patsilinakos, "Factors affecting radiation exposure during transradial cardiac catheterisation and percutaneous coronary intervention." Clinical radiology, Vol. 77 (No. 5), pp. e387-e93, (2022).
8- Douglas W Fletcher, Donald L Miller, Stephen Balter, and Michael A Taylor, "Comparison of four techniques to estimate radiation dose to skin during angiographic and interventional radiology procedures." Journal of vascular and interventional radiology, Vol. 13 (No. 4), pp. 391-97, (2002).
9- Min Ku Chon et al., "Radiation reduction during percutaneous coronary intervention: A new protocol with a low frame rate and selective fluoroscopic image storage." Medicine, Vol. 96 (No. 30), (2017).
10- W Pavlicek, MA Weinstein, MT Modic, E Buonocore, and PM Duchesneau, "Patient doses during digital subtraction angiography of the carotid arteries: comparison with conventional angiography." Radiology, Vol. 145 (No. 3), pp. 683-85, (1982).
11- Ali Tarighatnia et al., "Radiation exposure levels according to vascular access sites during PCI." Herz, Vol. 44 (No. 4), pp. 330-35, (2019).
12- Asghar Mesbahi, Naser Aslanabadi, and Parinaz Mehnati, "A study on the impact of operator experience on the patient radiation exposure in coronary angiography examinations." Radiation protection dosimetry, Vol. 132 (No. 3), pp. 319-23, (2008).
13- Ted S Lo, Karim Ratib, Aun-Yeong Chong, Gurbir Bhatia, Mark Gunning, and James Nolan, "Impact of access site selection and operator expertise on radiation exposure; a controlled prospective study." American Heart Journal, Vol. 164 (No. 4), pp. 455-61, (2012).
14- Ali Tarighatnia, L Pourafkari, A Farajollahi, AH Mohammadalian, M Ghojazadeh, and ND Nader, "Operator radiation exposure during transradial coronary angiography." Herz, Vol. 43 (No. 6), pp. 535-42, (2018).
15- Anna Varghese et al., "Radiation doses and estimated risk from angiographic projections during coronary angiography performed using novel flat detector." Journal of Applied Clinical Medical Physics, Vol. 17 (No. 3), pp. 433-41, (2016).
16- Ali Tarighatnia, Amirhossien Mohammadalian, Morteza Ghojazade, Leili Pourafkari, and Alireza Farajollahi, "Beam projections and radiation exposure in transradial and transfemoral approaches during coronary angiography." Anatolian Journal of Cardiology, Vol. 18 (No. 4), p. 298, (2017).
17- Maher Rabah, Sorcha Allen, Amr E Abbas, and Simon Dixon, "A novel comprehensive radiation shielding system eliminates need for personal lead aprons in the catheterization laboratory." Catheterization and Cardiovascular Interventions, Vol. 101 (No. 1), pp. 79-86, (2023).
18- Aida Khaleghi Fard, Amir Hossein Mohammad Alian, Leili Pourafkari, Morteza Ghojazadeh, Ali Tarighatnia, and Alireza Farajollahi, "Impact of pelvic and rad-board lead shields on operator and patient radiation dose in trans-radial coronary procedures." Radiation protection dosimetry, Vol. 187 (No. 1), pp. 108-14, (2019).
19- Reza Malekzadeh, Ali Tarighatnia, Parinaz Mehnati, and Nader D Nader, "Reduction of Radiation Risk to Cardiologists and Patients during Coronary Angiography: Effect of Exposure Angulation and Composite Shields." Frontiers in Biomedical Technologies, (2022).
2- Ali Tarighatnia, Amir Hossein Mohammad Alian, Morteza Ghojazadeh, and Alir Reza Farajollahi, "Comparison of the patient radiation exposure during coronary angiography and angioplasty procedures using trans-radial and trans-femoral access." Journal of cardiovascular and thoracic research, Vol. 8 (No. 2), p. 77, (2016).
3- Mathew Mercuri, Shamir Mehta, Changchun Xie, Nicholas Valettas, James L Velianou, and Madhu K Natarajan, "Radial artery access as a predictor of increased radiation exposure during a diagnostic cardiac catheterization procedure." JACC: Cardiovascular Interventions, Vol. 4 (No. 3), pp. 347-52, (2011).
4- Ali Tarighatnia, Asghar Mesbahi, Amir Hossein Mohammad Alian, Evin Koleini, and Nader Nader, "An analysis of operating physician and patient radiation exposure during radial coronary angioplasties." Radiation protection dosimetry, Vol. 182 (No. 2), pp. 200-07, (2018).
5- Asghar Mesbahi and Naser Aslanabadi, "A study on patients' radiation doses from interventional cardiac procedures in Tabriz, Iran." Radiation protection dosimetry, Vol. 132 (No. 4), pp. 375-80, (2008).
6- Ali Tarighatnia, Gurkaran Johal, Ayuob Aghanejad, Hossein Ghadiri, and Nader D Nader, "Tips and tricks in molecular imaging: a practical approach." Frontiers in Biomedical Technologies, Vol. 8 (No. 3), pp. 226-35, (2021).
7- C Mantis, E Papadakis, A Anadiotis, N Kafkas, and S Patsilinakos, "Factors affecting radiation exposure during transradial cardiac catheterisation and percutaneous coronary intervention." Clinical radiology, Vol. 77 (No. 5), pp. e387-e93, (2022).
8- Douglas W Fletcher, Donald L Miller, Stephen Balter, and Michael A Taylor, "Comparison of four techniques to estimate radiation dose to skin during angiographic and interventional radiology procedures." Journal of vascular and interventional radiology, Vol. 13 (No. 4), pp. 391-97, (2002).
9- Min Ku Chon et al., "Radiation reduction during percutaneous coronary intervention: A new protocol with a low frame rate and selective fluoroscopic image storage." Medicine, Vol. 96 (No. 30), (2017).
10- W Pavlicek, MA Weinstein, MT Modic, E Buonocore, and PM Duchesneau, "Patient doses during digital subtraction angiography of the carotid arteries: comparison with conventional angiography." Radiology, Vol. 145 (No. 3), pp. 683-85, (1982).
11- Ali Tarighatnia et al., "Radiation exposure levels according to vascular access sites during PCI." Herz, Vol. 44 (No. 4), pp. 330-35, (2019).
12- Asghar Mesbahi, Naser Aslanabadi, and Parinaz Mehnati, "A study on the impact of operator experience on the patient radiation exposure in coronary angiography examinations." Radiation protection dosimetry, Vol. 132 (No. 3), pp. 319-23, (2008).
13- Ted S Lo, Karim Ratib, Aun-Yeong Chong, Gurbir Bhatia, Mark Gunning, and James Nolan, "Impact of access site selection and operator expertise on radiation exposure; a controlled prospective study." American Heart Journal, Vol. 164 (No. 4), pp. 455-61, (2012).
14- Ali Tarighatnia, L Pourafkari, A Farajollahi, AH Mohammadalian, M Ghojazadeh, and ND Nader, "Operator radiation exposure during transradial coronary angiography." Herz, Vol. 43 (No. 6), pp. 535-42, (2018).
15- Anna Varghese et al., "Radiation doses and estimated risk from angiographic projections during coronary angiography performed using novel flat detector." Journal of Applied Clinical Medical Physics, Vol. 17 (No. 3), pp. 433-41, (2016).
16- Ali Tarighatnia, Amirhossien Mohammadalian, Morteza Ghojazade, Leili Pourafkari, and Alireza Farajollahi, "Beam projections and radiation exposure in transradial and transfemoral approaches during coronary angiography." Anatolian Journal of Cardiology, Vol. 18 (No. 4), p. 298, (2017).
17- Maher Rabah, Sorcha Allen, Amr E Abbas, and Simon Dixon, "A novel comprehensive radiation shielding system eliminates need for personal lead aprons in the catheterization laboratory." Catheterization and Cardiovascular Interventions, Vol. 101 (No. 1), pp. 79-86, (2023).
18- Aida Khaleghi Fard, Amir Hossein Mohammad Alian, Leili Pourafkari, Morteza Ghojazadeh, Ali Tarighatnia, and Alireza Farajollahi, "Impact of pelvic and rad-board lead shields on operator and patient radiation dose in trans-radial coronary procedures." Radiation protection dosimetry, Vol. 187 (No. 1), pp. 108-14, (2019).
19- Reza Malekzadeh, Ali Tarighatnia, Parinaz Mehnati, and Nader D Nader, "Reduction of Radiation Risk to Cardiologists and Patients during Coronary Angiography: Effect of Exposure Angulation and Composite Shields." Frontiers in Biomedical Technologies, (2022).
| Files | ||
| Issue | Vol 10 No 3 (2023) | |
| Section | Editorial | |
| DOI | https://doi.org/10.18502/fbt.v10i3.13147 | |
| Keywords | ||
| Radiation Exposure Trans-Radial Angiography Angioplasty | ||
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How to Cite
1.
Tarighatnia A, Mahmoudi G, Nader N. Radiation Exposure Aspects during Trans-Radial Angiography and Angioplasty. Frontiers Biomed Technol. 2023;10(3):234-236.
