TY - JOUR T1 - Radiation protection in the cardiac catheterisation lab: best practice JF - Heart JO - Heart SP - 76 LP - 82 DO - 10.1136/heartjnl-2019-316369 VL - 107 IS - 1 AU - Ariel Roguin AU - James Nolan Y1 - 2021/01/01 UR - http://heart.bmj.com/content/107/1/76.abstract N2 - Learning objectivesUnderstand the factors that influence patient and operator exposure to ionising radiation in the catheterisation laboratory.Learn the potential hazards of radiation exposure.Understand methods to minimise radiation exposure to patients and staff.Occupational doses of radiation in cardiac procedures guided by fluoroscopy are the highest registered among medical staff using X-rays.1–5 Electrophysiologists and interventional cardiologists are the group with the highest exposure. Patient and operator exposure are closely related. Higher doses to the patient results in more scatter radiation and increased exposure to the operator. Patients with an elevated body mass index are frequently encountered in the catheterisation laboratory and need more radiation energy to obtain a good quality image, resulting in increased scatter radiation generation during the procedure.6 Patient exposure to low-dose ionising radiation from cardiac procedures may be associated with increased risk, mainly if the exposure occurs at a young age.7 While every effort should be taken to obtain high-quality images, it is important to try and decrease the amount of procedure-related radiation exposure and protect the working staff (ie, cardiologists, cardiac technicians, radiographers, nurses and trainees) in the cardiac catheterisation laboratory. In this article we discuss these issues and outline strategies to reduce patient and staff exposure.We are all constantly exposed to background radiation. This background radiation arises from natural and artificial sources. Natural sources of background radiation include cosmic rays, rocks and living things. Some rocks are radioactive and also release radioactive radon gas into the environment. Variation in the distribution of this type of rock accounts for significant geographical variation in local levels of background radiation. Plants absorb radioactive materials from the soil and these pass up the food chain into the human population. Exposure to cosmic rays is increased in communities that live at high altitude due to a … ER -