Time: Show “Time” simply refers to the amount of time you spend near a radioactive source. Minimize your time near a radioactive source to only what it takes to get the job done. If you are in an area where radiation levels are elevated,
There is no reason to spend more time around it than necessary. For an example of minimizing time, click here Distance:“Distance” refers to how close you are to a radioactive source. Maximize your distance from a radioactive source as much as you can. If you increase your distance, you decrease your dose. For an example of maximizing distance, click here Shielding:To shield yourself from a radiation source, you need to put something between you and the radiation source. The most effective shielding will depend on what kind of radiation the source is emitting. Some radionuclides emit more than one kind of radiation. For an example of using shielding, click here You can see how these principles work together when you have an x-ray at your doctor’s office or clinic. The radiation technician goes behind a barrier while taking the x-ray image. The barrier protects them from repeated daily exposure to radiation. If there is a radiation emergency, use time, distance, and shielding to protect yourself and your family. Time If a radiation emergency happens, get inside a stable building as quickly as possible. Distance How long you need to stay inside will depend on
Emergency officials will instruct you when it is safe to leave the area. Shielding If you are in a multistory building, move to the center floors. If you are in a single story building, stay in the center away from windows, doors, and exterior walls. You can also take shelter in a basement. If you are a first responder or radiation worker, you can use personal protective equipment (PPE) to minimize your exposure.
If radioactive material gets on skin, clothing, or hair, it’s important to get it off as quickly as possible. For information on decontaminating yourself, click here Anybody who works with radiation should work with their safety officers and radiation safety professionals. They should work together to determine PPE and instrumentation needed to stay safe. Korean J Pain. 2018 Jul; 31(3): 145–146. Pain physicians usually use C-arm fluoroscopy for the treatment of patients. The C-arm fluoroscope is an important device for pain interventions. However, pain physicians can be exposed to radiation during use of C-arm fluoroscopy. According to a previous study in Korea, most pain physicians were worried about the adverse biological effects of radiation exposure [1]. However not many pain physicians had knowledge of radiation safety [1,2]. Furthermore, not many pain physicians used radiation protective devices and radiation protective methods [1,2]. Even though almost all pain physicians had used thyroid protectors and aprons, the use of lead glasses and gloves was low. For reducing radiation exposure, there are 3 principals: time, distance, and shielding. 1. TimeRadiation exposure can be accumulated over the time of exposure. In C-arm fluoroscopy guided interventions, the time spent checking the C-arm fluoroscopy is related to the radiation exposure. The longer the exposure time, the more radiation exposure to the pain physician. Therefore, it is important to reduce the usage time of C-arm fluoroscopy [2,3]. For reducing the usage time, the physician has to improve his skill in intervention and the radiographer has to check the X-ray at the correct location, and at the right moment without blurred image. 2. DistanceA greater distance from the radiation source can reduce radiation exposure. The amount of radiation exposure is not inversely proportional to the distance from the radiation source, but is inversely proportional to the square of the distance [2,4]. This means that double the distance from the radiation source can reduce the radiation exposure not to 1/2 but to 1/4. Therefore, maintaining a greater distance from the X-ray generator is a very effective method for radiation safety. In a previous study of radiographers, two steps behind the mobile support structure can decrease the exposure of the radiographer by about 80% [4]. In another study, being only 20 cm farther from the center of the X-ray field can decrease the radiation exposure by about 73% [5]. 3. ShieldingThere are many shielding devices such as caps, lead glasses, thyroid protectors, aprons, radiation reducing gloves, and so on, for radiation safety during C-arm fluoroscopy-guided interventions. Even though the protective effect is enough for radiation safety, no use of the devices cannot protect the physician from radiation. In Korea, the use rate of the apron and thyroid protector by pain physicians is over 80% [1,2,6]. However, the use rate of lead glasses was about 40%, and the use rate of radiation reducing gloves was lower than 35% [1]. The radiation shielding devices are expensive, and the use of shielding devices can be uncomfortable. However, when a physician uses these devices, they can be protected from radiation exposure. Reducing the time of radiation exposure, a greater distance from radiation sources, and the use of shielding devices for radiation protection are important. Even if pain physicians have to use these three principles, I want to emphasize the importance of distance from the radiation source, because the longer distance from the radiation source may be more effective than reducing time or the use of shielding devices. If a pain physician decreases the time of radiation exposure in half, his radiation exposure will be halved. If a pain physician uses radiation protective devices with double the lead equivalent thickness, his radiation exposure will also be halved. However, if a pain physician stands double the distance from a radiation source, his radiation exposure will reduce to 1/4. Physicians do not pay money for a longer distance from the radiation source. Therefore, all physicians can use the principle of greater distance easily. Do you want to reduce your radiation exposure? Please remember the 3 principles; time, distance, and shielding. References1. Kim TH, Hong SW, Woo NS, Kim HK, Kim JH. The radiation safety education and the pain physicians' efforts to reduce radiation exposure. Korean J Pain. 2017;30:104–115. [PMC free article] [PubMed] [Google Scholar] 2. Park PE, Park JM, Kang JE, Cho JH, Cho SJ, Kim JH, et al. Radiation safety and education in the applicants of the final test for the expert of pain medicine. Korean J Pain. 2012;25:16–21. [PMC free article] [PubMed] [Google Scholar] 3. Jung CH, Ryu JS, Baek SW, Oh JH, Woo NS, Kim HK, et al. Radiation exposure of the hand and chest during C-arm fluoroscopy-guided procedures. Korean J Pain. 2013;26:51–56. [PMC free article] [PubMed] [Google Scholar] 4. Chang YJ, Kim AN, Oh IS, Woo NS, Kim HK, Kim JH. The radiation exposure of radiographer related to the location in C-arm fluoroscopy-guided pain interventions. Korean J Pain. 2014;27:162–167. [PMC free article] [PubMed] [Google Scholar] 5. Kim AN, Chang YJ, Cheon BK, Kim JH. How effective are radiation reducing gloves in C-arm fluoroscopy-guided pain interventions? Korean J Pain. 2014;27:145–151. [PMC free article] [PubMed] [Google Scholar] 6. Ryu JS, Baek SW, Jung CH, Cho SJ, Jung EG, Kim HK, et al. The survey about the degree of damage of radiation-protective shields in operation room. Korean J Pain. 2013;26:142–147. [PMC free article] [PubMed] [Google Scholar] Articles from The Korean Journal of Pain are provided here courtesy of Korean Pain Society What is the best way to limit a patient's radiation exposure?Lowering Radiation from CT Scans
Customizing the scanning based on the size and weight of the patient or the body part being scanned. Eliminating unnecessary exams. Investing in CT scanners with the latest hardware and software tools that minimize radiation exposure.
What can efficiently minimize radiation exposure to the patient?Shielding
Lead or lead equivalent shielding for X-rays and gamma rays is an effective way to reduce radiation exposure. There are various types of shielding used in the reduction of radiation exposure including lead aprons, mobile lead shields, lead glasses, and lead barriers.
What are the three basic methods to minimize radiation exposure?ALARA means avoiding exposure to radiation that does not have a direct benefit to you, even if the dose is small. To do this, you can use three basic protective measures in radiation safety: time, distance, and shielding.
How can a radiographer minimize radiation exposure to the patient?One method of reducing radiation exposure in diagnostic radiology is by justifying the examination, avoiding repetitions, and maintaining complete medical records. Up-to-date clinical information and compilation of a past imaging record ensures that useless tests are not performed.
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