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University of Perpetual Help System JONELTA

Stewart C. Bushong

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health physics radiation safety medical physics radiology

Summary

This document covers the principles of health physics, including radiation protection, minimizing radiation dose, and related concepts. It discusses procedures, calculations, and the importance of radiation safety in various contexts.

Full Transcript

CHAPTER 37 HEALTH PHYSICS Health Physics Fluoroscopic Procedure  Concerned with providing occupational  It takes less than 5 minutes radiation protection & minimizing radiation dose...

CHAPTER 37 HEALTH PHYSICS Health Physics Fluoroscopic Procedure  Concerned with providing occupational  It takes less than 5 minutes radiation protection & minimizing radiation dose to the public Interventional Radiology Procedure  It takes more than 5 minutes Health Physicist  A radiation scientist who is concerned with Maximize Distance the research, teaching or operational aspects  Radiation dose is inversely related to the of radiation safety distance between the source & the patient  Assume a point source & apply the inverse RADIATION & HEALTH square law We Practice ALARA Inverse Square Law  Rationale: the linear nonthreshold radiation  It states that the intensity of radiation at a dose-relationship (LNT) for stochastic location is inversely proportional to the effects square of its distance from the source of o Examples: cancer, leukemia & radiation genetic effects  Formula: I1 (Old Exposure) d22 (New Distance Squared) Cardinal Principles of Radiation Protection =  Purpose: designed to minimize the radiation I2 (New Exposure) d12 (Old Distance Squared) exposure of patients & personnel  Time: keep the time of exposure to radiation If the distance from the source exceeds five as short as possible times the source diameter, it can be treated as  Distance: maintain as large a distance as a point source! possible between the source of radiation & the exposure person Square Law  Shielding: insert shielding material between  It states that one can compensate for a the radiation source & the exposed change in the source-to-object dstance by changing the mAs by the factor SID squared Minimize Time  It was used to calculate exposure in  The time of exposure should be kept to a radiographic technique minimum  Formula: o Radiography: to reduce motion blur I1 (Old Exposure) d12 (Old Distance Squared) o Fluoroscopy: to reduce patient & = 2 personnel exposure I2 (New Exposure) d2 (New Distance Squared)  Radiation dose is directly related to the X-ray Tube Target duration of exposure  A point source of radiation  Exposure = Exposure Rate x Exposure Time 122 Isoexposure Lines Fluoroscopic Footswitch  Lines that represent positions of equal  Sequencing on-off rather than continuous on radiation exposure in the fluoroscopy room Page during examination  Exposure Rate in Normal Position: 300 mR/hr or 3 mGya/hr 5-Minute Reset Timer  Two Steps Back: 5 mR/hr or μGya/hr  It reminds the radiologist that a considerable amount of fluoroscopic time has elapsed STEWART C. BUSHONG SUMMARIZED BY: MEYNARD Y. CASTRO CHAPTER 37 HEALTH PHYSICS  Exit Dose: 0.1 mrad During fluoroscopy, the radiologic  Average Tissue Dose: 5 mrad technologist should remain as afar from the  Effective Dose: 1.35 mrad patient as practicable! o Lung = (5)(0.12) = 0.6 o Breast = (5)(0.05) = 0.25 Use Shielding o Esophagus = (5)(0.05) = 0.25  It greatly reduces the level of radiation o Thyroid = (5)(0.05) = 0.25 exposure  Composition: lead WEIGHTING FACTORS FOR VARIOUS  1 TLV = 3.3 HVL TISSUES  Protective Apron: 0.5 mm Pb Tissue Weighting o Equivalent to 2 HVLs Tissue Factor (Wt) o Reduce occupational exposure to Gonad 0.20 25% Active bone marrow 0.12 Colon 0.12 Half-Value Layer (HVL) Lung 0.12  The thickness of absorber necessary to Stomach 0.12 reduce radiation intensity to half its original Bladder 0.05 value Breast 0.05 Esophagus 0.05 Tenth-Value Layer (TVL) Liver 0.05  The thickness of absorber necessary to Thyroid 0.05 reduce radiation intensity to one-tenth its Bone surface 0.01 original value Skin 0.01 EFFECTIVE DOSE We assume the occupational effective dose to be 10% of the monitor dose! Radiation Risk Coefficient  Based on total body radiation exposure RADIOLOGIC TERRORISM Effective Dose Emergency Responder  The equivalent whole-body dose  Those individuals who must make the first  Formula: E = ∑DtWt decisions & take the first steps in the early stages of such an event Equivalent Whole-Body Dose  Radiologic Technologists: first emergency  The weighted average of the radiation dose responders to various organs & tissues  Tasks: o To prevent injury & death CT of the Abdomen & Pelvis o To attend to the medical needs of 123  Tissue Dose: 2000 mrad victims  Effective Dose: 740 mrem o Gonads = (2000)(0.2) = 400 Rescue & medical emergencies should be Page o Colon = (2000)(0.12) = 240 attended to before radiologic concerns are o Liver = (2000)(0.05) = 100 addressed! PA Chest Radiograph Radiologic Devices  Entrance Skin Dose: 10 mrad  Radiation Exposure Device (RED) STEWART C. BUSHONG SUMMARIZED BY: MEYNARD Y. CASTRO CHAPTER 37 HEALTH PHYSICS  Radiologic Dispersal Device (RDD)  Detection Apparatus:  Improvised Nuclear Device (IND) o It should be readily available to the first responder Radiologic terrorism can be addressed safely o Capable of measuring radiation with an emergency responder’s equipment kit! exposure levels to 50 R/hr o It should emit ambiguous alarms at RED 10 mR/hr, 10 R/hr & 50 R/hr  A sealed source of radioactive material that  Storage: nuclear medicine laboratory directly exposed people  Decontamination is not required Radioactive contamination is rarely life o Rationale: it will not dispersed threatening! radioactive material RDD  A bomb that when exploded disperses radioactive contamination over a wide area  It is not usually life threatening  It may not be explosive, but rather, radioactive material  Forms: powder, mist, gas into a water supply or ventilation system IND  It contains nuclear material that can produce a nuclear explosion  A nuclear weapon Radiation Protection Guidance  With the use of radiation monitoring instruments  Inner Boundaries: established at an exposure rate of 10 R/hr  Outer Boundaries: established when exposure exceeds 10 mR/hr Being exposed to radiation does not make an individual radioactive! Radiation Detection & Measurement Equipment 124  Equipments: o Protective coveralls o Shoe covers Page o Protective respiratory devices o Contaminated-to-clean step-off pad STEWART C. BUSHONG SUMMARIZED BY: MEYNARD Y. CASTRO

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