The real-life exposure measurements were consistent with the simulation estimates. High-dose exposure occurred when obtaining posterior-anterior and cusp-overlap views. The phantom simulation demonstrated high-dose exposure areas (more than 20 μGy/h) in the right half of the body, especially the waist and lower body. This was used to measure the dose for comparison with the doses recorded during actual procedures. The study also included an observational component using whole-body male phantoms set up in the same position as the echocardiographer in a hybrid cardiac surgery suite. A Monte Carlo simulation was performed to clarify the absorbed dose distribution of radiation on the body surface. The dosimeters were attached to the outside of the radiation protective clothing. Personal radiation dosimeters were used to measure the radiation exposure dose at the surface of the interventional echocardiographer’s neck (right side), chest (left pocket location of the radiation protective clothing), and waist (right side). This included 44 transcatheter edge-to-edge repair (TEER) procedures of the mitral valve using the MitraClip and 35 transcatheter aortic valve replacements (TAVRs). This study included a retrospective review of dose measures from 79 SHD procedures at the hospital in 2021 that include the use of continuous TEE. How much radiation dose is received by interventional echocardiographers? The study also suggests there is a need for radiation shielding that does not interfere with TEE equipment during SHD procedures. The researchers said this means interventional echocardiographers are exposed to a higher radiation dose than the catheter operator in SHD procedures. Protective equipment such as mobile, lead-containing acrylic sheets and lead curtains are typically only used by catheter operators in cardiac catheterization suites. These results suggest that education and appropriate shielding for radiation protection is needed during SHD procedures for echocardiographers, especially young female doctors. The regional dose varied when the C-arm was in different positions. This is mainly caused by scattered radiation from the bottom edge of the patient bed. The team found that echocardiographers are exposed to high doses of radiation on the right half of their body, especially the waist and lower body. To answer these questions, researchers with the cardiology department at Teikyo University Hospital in Tokyo, Japan, conducted a study, sharing their findings in the April issue of the Journal of the American College of Cardiology: Asia. However, there has been limited documentation on the exact exposure levels and what they might mean for overall health. Interventional echocardiographers performing transesophageal echo (TEE) during structural heart disease (SHD) procedures are exposed to ionizing radiation from their proximity to the cath lab X-ray angiography system.
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