Topogram-based tube current modulation of head computed tomography for optimizing image quality while protecting the eye lens with shielding

  • Ming Fang Lin (Contributor)
  • Chia-Yuen Chen (Contributor)
  • Yuan-Hao Lee (Contributor)
  • Chia Wei Li (Contributor)
  • Leo E. Gerweck (Contributor)
  • Hao Wang (Contributor)
  • Wing P. Chan (Contributor)



BackgroundMultiple rounds of head computed tomography (CT) scans increase the risk of radiation-induced lens opacification.PurposeTo investigate the effects of CT eye shielding and topogram-based tube current modulation (TCM) on the radiation dose received by the lens and the image quality of nasal and periorbital imaging.Material and MethodsAn anthropomorphic phantom was CT-scanned using either automatic tube current modulation or a fixed tube current. The lens radiation dose was estimated using cropped Gafchromic films irradiated with or without a shield over the orbit. Image quality, assessed using regions of interest drawn on the bilateral extraorbital areas and the nasal bone with a water-based marker, was evaluated using both a signal-to-noise ratio (SNR) and contrast-noise ratio (CNR). Two CT specialists independently assessed image artifacts using a three-point Likert scale.ResultsThe estimated radiation dose received by the lens was significantly lower when barium sulfate or bismuth-antimony shields were used in conjunction with a fixed tube current (22.0% and 35.6% reduction, respectively). Topogram-based TCM mitigated the beam hardening-associated artifacts of bismuth-antimony and barium sulfate shields. This increased the SNR by 21.6% in the extraorbital region and the CNR by 7.2% between the nasal bones and extraorbital regions. The combination of topogram-based TCM and barium sulfate or bismuth-antimony shields reduced lens doses by 12.2% and 27.2%, respectively.ConclusionImage artifacts induced by the bismuth-antimony shield at a fixed tube current for lenticular radioprotection were significantly reduced by topogram-based TCM, which increased the SNR of the anthropomorphic nasal bones and periorbital tissues.
Date made availableJan 1 2019
PublisherUnknown Publisher

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