1 / 35

Evaluation of various diagnostic x-ray measuring devices

Evaluation of various diagnostic x-ray measuring devices. MDCH Radiation Safety Section Don Parry, CHP. Evaluation of X-ray Measuring Devices. Evaluation Criteria – (Don) Accuracy Reliability Range of Application Durability Ease of Use Cost. Evaluation of X-ray Measuring Devices.

tamal
Download Presentation

Evaluation of various diagnostic x-ray measuring devices

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Evaluation of various diagnostic x-ray measuring devices MDCH Radiation Safety Section Don Parry, CHP

  2. Evaluation of X-ray Measuring Devices • Evaluation Criteria – (Don) • Accuracy • Reliability • Range of Application • Durability • Ease of Use • Cost

  3. Evaluation of X-ray Measuring Devices • Evaluation Criteria – (Don’s Bosses) • Cost • Durability • Reliability • Range of Application • Accuracy • Ease of Use

  4. Evaluation of X-ray Measuring Devices • Evaluation Criteria – (Don’s Staff) • Ease of Use • Reliability • Range of Application • Durability • Accuracy • Cost

  5. Evaluation of X-ray Measuring Devices • Types of Devices • Ion Chambers • Solid State Detectors

  6. Evaluation of X-ray Measuring Devices Ion chambers • Advantages • Flat Energy Response • History of Reliability • Disadvantages • Weight • Chambers can be fragile

  7. Evaluation of X-ray Measuring Devices Solid State Detectors • Advantages • Small and lightweight • Detectors are more robust • Disadvantages • More energy dependant • Generally not as simple to use

  8. Evaluation of X-ray Measuring Devices • Application of X-ray Measuring Devices • Dental X-ray (~ 50 – 90 kVp) • Medical X-ray (~45 – 150 kVp) • Mammography (~24 – 35 kVp)

  9. Evaluation of X-ray Measuring Devices - Accuracy • Ion Chambers – Medical and Dental • Tested at four x-ray “beam codes” • M50 (50 kVp ~1.0 mm Al HVL) • L80 (80 kVp ~1.8 mm Al HVL) • L-100 (100 kVp ~2.8 mm Al HVL) • M-100 (100 kVp ~5.0 mm Al HVL) • MoMo 25 (25 kVp, Moly target ~0.30 mm Al HVL) • MoMo 30 (30 kVp, Moly target ~0.35 mm Al HVL)

  10. Evaluation of X-ray Measuring Devices Solid State Detectors – Medical and Dental • Tested at three x-ray “beam codes” • L80 (80 kVp ~1.8 mm Al HVL) • L-100 (100 kVp ~2.8 mm Al HVL) • M-100 (100 kVp ~5.0 mm Al HVL)

  11. Evaluation of X-ray Measuring Devices • Comparison • Ion Chambers vs. Solid State Detectors • Do not use any detector outside it’s specified energy range

  12. All the solid state detectors showed under response at low energies

  13. Evaluation of X-ray Measuring Devices • Ion Chambers and Solid State Detectors In Mammography • Tested at two “beam codes” • MoMo 25 (25 kVp, Moly target ~0.30 mm Al HVL) • MoMo 30 (30 kVp, Moly target ~0.35 mm Al HVL)

  14. Evaluation of X-ray Measuring Devices • Some Mammography Machines now use beams with higher energies • NIST currently does not provide calibration standards for these beams • Since the energy response is typically flat for ionization chambers, no additional corrections should be needed. • Solid state instruments, however, may require appropriate corrections obtained from the instrument manufacturer.

  15. Evaluation of X-ray Measuring Devices • Ion Chambers – Reliability • Ion chamber calibrations have historically been very stable. • Ion chambers can be fragile and require appropriate handling by field staff

  16. Evaluation of X-ray Measuring Devices • Solid State Detectors – Reliability • While reliability has been good, radiation response has drifted or failed on some sensors • Detectors appear more robust and are less often damaged by misuse

  17. Evaluation of X-ray Measuring Devices - Range of Applicability • Field Data IC 1 versus SS 3

  18. Evaluation of X-ray Measuring Devices – Ease of Use • IC1- IC3 • Care needed in connecting probes • SS1 • Set up difficult when used on some machines • SS2 • Detector cable fixed to base • SS3 • Some felt it was not as simple to use

  19. Evaluation of X-ray Measuring Devices – Our Conclusions • Ion chambers exhibit good energy response over a wide range of beam qualities; new chambers are lighter and smaller • SSDs can be designed to have acceptable energy responses in the diagnostic x-ray range, but know your instruments limitations • Field staff like the small size and light weight of SSD detectors

  20. Evaluation of X-ray Measuring Devices – Our Conclusions • Send equipment to an accredited calibration lab annually to ensure radiation response remains in specification • We use SSD for equipment with known limits on the energy range • We use ion chambers for mammography beams and on x-ray beams in which beam qualities can vary significantly from machine to machine.

More Related