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OCCUPATIONAL RADIATION EXPOSURE OF THE EYE IN NEUROVASCULAR INTERVENTIONAL PHYSICIAN.

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Direct eye dosimetry is crucial for neuro-interventional radiology (neuro-IR) physicians. Radiation protection glasses reduce eye lens dose by about 60%, and neck badges overestimate physician eye lens dose.

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Area of Science:

  • Medical physics
  • Radiology
  • Occupational health

Background:

  • Neuro-interventional radiology (neuro-IR) procedures involve prolonged fluoroscopy and repeated digital subtraction angiography.
  • Accurate measurement of eye lens radiation dose for physicians is critical due to potential long-term health risks.

Purpose of the Study:

  • To evaluate the actual eye lens dose in neuro-IR physicians using direct eye dosimetry.
  • To compare direct eye lens dose measurements with neck personal dosemeter readings.
  • To assess the effectiveness of radiation protection glasses in reducing eye lens dose.

Main Methods:

  • Direct dosimetry using the DOSIRIS™ eye dosemeter (Hp(3)) was conducted on 86 neuro-IR procedures.
  • A neck personal dosemeter (glass badge, Hp(0.07)) was worn outside the protective apron.
  • Radiation doses were measured with and without radiation protection glasses.

Main Results:

  • Average physician eye lens doses were 0.04 mSv/case (outside glasses) and 0.02 mSv/case (inside glasses).
  • Radiation protection glasses provided approximately 60% protection for the eye lens.
  • Neck dosemeter measurements tended to overestimate the actual physician eye lens dose.

Conclusions:

  • Direct eye dosimetry with devices like DOSIRIS™ is essential for accurate assessment of eye lens dose in neuro-IR physicians.
  • Standard neck dosimetry may overestimate occupational eye lens exposure.
  • Radiation protection glasses significantly reduce eye lens radiation exposure during neuro-IR procedures.