FOR IMAGING PROFESSIONALS

1. Radiation Safety & Protection FOR IMAGING PROFESSIONALS

2. RADIATION PROTECTION

3. Objectives • Be able to discuss dose limits and typical doses during different radiological procedures • Be able to explain the relative risks of radiation • Have a knowledge of how to reduce radiation doses, especially to yourselves

15. Over one year

17. RADIOGRAPHIC UNITS & IMAGING TERMINOLOGY

18. Exposure • measured in C/kg or Roentgen(R) • amount of charge (electrons) liberated per kilogram of Air (Ionization) • 1R = 2.58x10-4 C/Kg

19. ABSORBED DOSE • measured in Gray (Gy) or Rad • amount of energy deposited/ absorbed per kilogram of tissue • 1Gy = 1 Joule/Kg • 100 Rad = 1 Joule/Kg • 1Rad = 1/100 Gy

20. EFFECTIVE DOSE • - measured in Sieverts (Sv) or Rem • - amount of biological damage • - gives a measure dose as if received by the whole body • - used to equate dose to risk • 1Sv = 1 Joule/Kg • 100 Rem = 1 Joule/Kg • 1Sv = 1/100 Rem

21. Typical Doses During Radiographic Exams

22. Typical Doses During Radiographic Exams Generally 1 CT exam is equivalent to 20 mammos

23. Summary of the National Council on Radiation Protection & Measurements

24. Summary of the National Council on Radiation Protection & Measurements

25. Typical Doses during Radiographic Examinations

26. SOURCES OF RADIATION

27. SOURCES OF RADIATION

28. SCATTER RADIATION

29. PEDIATRICS • More radiosensitive than adults due to sensitive cells and developing organs • Gonad shielding important • Radiographic examinations difficult: • Patient movement • Exposure technique more critical

30. Typical Fluoroscopy Equipment setup

36. Biological Effects of Ionizing Radiation

37. Effects of Ionizing Radiation

38. HUMAN RESPONSES TO IONIZATION RADIATION EARLY EFFECTS

39. HUMAN RESPONSES TO IONIZATION RADIATION LATE EFFECTS

40. Effects of Ionizing Radiation Photograph of the patient’s back 6-8 weeks after multiple coronary angiography and angioplasty procedures. Photograph of the injury 16-21 weeks after the procedures. A small ulcerated area is present.

41. Effects of Ionizing Radiation Photograph of the patient’s back 18-21 months after the procedures. Tissue necrosis is evident Close-up of the lesion shown in C

42. Effects of Ionizing Radiation Photograph of the patient’s back after Grafting.

43. Effects of Ionizing Radiation

44. Stochastic Effects of Ionizing Radiation The probability of occurrance, but not the severity of the effect depends upon dose

45. Stochastic Effects of Ionizing Radiation • cancer • birth defects • genetic effects

46. Effects of Ionizing Radiation Based upon studies of Hiroshima atomic bomb survivors, statisticians predict that an effective dose of 10 mSv (1 rem) given to a population of one million would result in 400 additional cancer deaths!

47. Effects of Ionizing Radiation • Radiogenic cancers have a 20+ year latency period • Radiologists during the first half of the twentieth century discovered this the hard way

48. A.L.A.R.A. policy Radiation exposure of personnel and the general public should be kept AsLowAsReasonablyAchievable.

49. A.L.A.R.A. policy • correct exposure factors • correct radiographic technique • appropriate radiation protection • appropriate development/viewing techniques • appropriate radiographic positions for examination • minimize repeat examinations • continuing education

50. Qualifications for performing fluoroscopy Only a physician or a registered x-ray technologist under the direct supervision of a physician may perform fluoroscopy.