| ▲ | uh_uh 5 days ago | |
That would amount to 10 mrem of radiation per year. I don't believe this is a realistic estimate for a CT scan though. From epa.gov [1]: - Head CT: 2.0 mSv (200 mrem) - Chest CT: 8.0 mSv (800 mrem) - Abdomen CT: 10 mSv (1,000 mrem) - Pelvis CT: 10 mSv (1,000 mrem) So for a head CT, one would need to spend more than 13 hours per workday in the station. OP was off at least an order of magnitude. https://www.epa.gov/radiation/frequent-questions-radiation-m... | ||
| ▲ | riahi 5 days ago | parent | next [-] | |
This data is from 2006. Over 20 years, there has been substantial progress in CT radiation reduction through model-based iterative reconstruction and now ML-assisted reconstruction, aside from iterative advances in detector sensitivity and now photon-counting CT. In clinical practice, those doses are about 2-3x what I see on the machine dose reports every day at my place of work. In thin patients who can hold still, I've done full-cycle cardiac CT and achieved a < 1 mSv dose. We are always trying to get the dose down while still being diagnostic. Source: Practicing radiologist. | ||
| ▲ | itishappy 5 days ago | parent | prev [-] | |
Fair enough. That was the first number I pulled from Google, but I trust your source a good deal more. | ||