Occupational Radiation Dose Management PDF

Summary

This document discusses occupational radiation dose management, including principles, procedures and safety measures, such as radiation exposure, effective dose, personnel exposures, limiting values, protection types or shielding in various contexts. It explains different types of radiation, and highlights the importance of minimizing exposure for healthcare workers, patients, and the public. The document also covers detailed procedures for mobile and interventional radiology, mammography and computed tomography, including safety standards and guidelines for protection.

Full Transcript

CHAPTER 40
OCCUPATIONAL RADIATION DOSE MANAGEMENT

Radiation Absorbed Dose  Rationale: higher levels of
 It measures the radiation energy absorbed as scatter & leakage radiation
a result of radiation exposure
 It is used to identify irradiation of patient It is best to position the x-ray tube under the
 Units: rad or Gyt patient during mobile & C-arm fluoroscopy!

Radiation Exposure Remote Fluoroscopy
 Radiation intensity in air  It results in low personnel exposures
 Units: roentgen or Gya o Rationale: personnel are not in the x-
ray examination with the patient
Effective Dose
 It identifies the biologic effectiveness of the Interventional Radiology
radiation energy absorbed  Personnel receive higher exposures
 It is applied to occupationally exposed o Rationale: longer fluoroscopic x-ray
persons & to population exposure beam-on time
 Units: rem or Sv  Contribute to Higher Exposure:
o Absence of protective curtain
Rem o Use of cineradiography
 The unit of effective dose  Dose Limit: 500 mSv/yr
 It is used for radiation protection purposes
Extremity monitoring must be provided for
OCCUPATIONAL RADIATION EXPOSURE interventional radiologists!

Radiologic Personnel Mammography
 Dose Limit: 50 mSv/yr  Personnel exposures are low
o Rationale: less scatter radiation due
 Occupational Exposure in General X-ray
to low kVp operation
Activity: not exceed 1 mSv/yr
 Protection:
o Long exposure cord
OCCUPATIONAL RADIATION EXPOSURE
o Conventional wall
OF RADIOLOGIC PERSONNEL
o Window wall
Exposure Category Value
 It does not require protective shielding
Average whole-body dose 0.7 mSv/yr
o Rationale: mammographic x-ray
Those receiving less than the
53% units have personnel protective
minimum detectable dose
barriers
Those receiving 50 mSv/yr 0.05%
acrylic or plate glass
Fluoroscopy
Computed Tomography
 It contributes to the highest occupational
136
 Personnel exposures are low
exposure of diagnostic x-ray personnel
o Rationale:
 Personnel exposure is related directly to the  CT x-ray beam is finely
Page

x-ray beam-on time collimated
 X-ray Tube Over The Table  Only secondary radiation is
o Advantage: in terms of image quality present in the examination
o Disadvantage: higher personnel room
exposures
STEWART C. BUSHONG SUMMARIZED BY: MEYNARD Y. CASTRO
 CHAPTER 40
OCCUPATIONAL RADIATION DOSE MANAGEMENT

Surgery 2. Equivalent Annual Dose For Tissues &
 Occupational exposure for nursing personnel Organs
& other working in the operating room & a. Lens of the Eye: 150 mSv
intensive care unit is near zero b. Thyroid, Skin, Hands & Feet: 500
 It is not necessary to provide occupational mSv
radiation monitors for such personnel B. Public Exposures (Annual)
1. Effective Dose, Frequent Exposure: 1 mSv
Mobile Radiology 2. Equivalent Dose For Tissues & Organs:
 It contributes to the highest occupational a. Lens of the Eye: 15 mSv
exposure of diagnostic x-ray personnel b. Skin, Hands & Feet: 50 mSv
 Wear Occupational Radiation Monitor: C. Education & Training Exposures (Annual)
o Radiologic technologist 1. Effective Dose: 1 mSv
o Anyone who is required to 2. Equivalent Dose For Tissues & Organs
immobilize or hold patients a. Lens of the Eye: 15 mSv
o Personnel who regularly operate C- b. Skin, Hands & Feet: 50 mSv
arm fluoroscope D. Embryo-Fetus Exposure (Annual)
o Personnel who regularly in the 1. Total Equivalent Dose: 5 mSv
immediate vicinity of C-arm 2. Equivalent Dose in 1 Month: 0.5 mSv
fluoroscope E. Negligible Individual Dose (Annual): 0.01 mSv
 Dose Limit: 50 mSv/yr
 Average Exposure: 2 MeV-20 MeV 10
A. Occupational Exposures
>20 MeV 5
1. Effective Dose
Protons 2
a. Annual: 50 mSv
Alpha Particles 20
b. Cumulative: 10 mSv x age

STEWART C. BUSHONG SUMMARIZED BY: MEYNARD Y. CASTRO
 CHAPTER 40
OCCUPATIONAL RADIATION DOSE MANAGEMENT

Effective Dose (E) Guidelines for Reducing Occupational Exposure
 Formula: E = Radiation Weighting Factor  During Mobile Radiography
(Wr) x Tissue Weighting Factor (Wt) x o Wear an apron
Absorbed Dose o Maintain maximum distance from
the source
Radiation Weighting Factor o Never direct the primary beam
 It depends on the LET of the radiation toward oneself or others
 During Fluoroscopy
Tissue Weighting Factor o Minimize x-ray beam-on time
 It accounts for the relative radiosensitivity of o Step back from the table if not
various tissues & organs needed
 Higher Value of Wt: more radiosensitive o Use shielding
 Apron, curtain, Bucky slot
Collar Monitor-Reported Value cover & the radiologist
 Conversion factor: 0.3  During Radiography
o Apply to estimate the effective dose o Stand behind the control booth
o Never direct the primary beam
Dose Limits For Tissue & Organs toward the control booth barrier
 Whole-Body: 50 mSv/yr
 Skin: 500 mSv/yr Each mobile x-ray unit should have a
protective apron assigned to it!
 Extremities: 500 mSv/yr
 Lens of the Eye: 150 mSv/yr
The exposure cord on a portable x-ray unit
Public Exposure must be at least 2 m long!
 General Population: 1 mSv/yr
 Hospital Workers: 1 mSv/yr The useful beam should never e directed
o Not radiology employees toward the operating console!
 1 mSv/yr: the DL that medical physicists use
when computing the thickness of protective
Occupational Radiation Monitoring
barriers
 It refers to procedures instituted to estimate
 Area Occupied By General Public: