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Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector.

Publication ,  Journal Article
Holbrook, MD; Clark, DP; Badea, CT
Published in: Phys Med Biol
October 21, 2020

Preclinical micro-CT provides a hotbed in which to develop new imaging technologies, including spectral CT using photon counting detector (PCD) technology. Spectral imaging using PCDs promises to expand x-ray CT as a functional imaging modality, capable of molecular imaging, while maintaining CT's role as a powerful anatomical imaging modality. However, the utility of PCDs suffers due to distorted spectral measurements, affecting the accuracy of material decomposition. We attempt to improve material decomposition accuracy using our novel hybrid dual-source micro-CT system which combines a PCD and an energy integrating detector. Comparisons are made between PCD-only and hybrid CT results, both reconstructed with our iterative, multi-channel algorithm based on the split Bregman method and regularized with rank-sparse kernel regression. Multi-material decomposition is performed post-reconstruction for separation of iodine (I), gold (Au), gadolinium (Gd), and calcium (Ca). System performance is evaluated first in simulations, then in micro-CT phantoms, and finally in an in vivo experiment with a genetically modified p53fl/fl mouse cancer model with Au, Gd, and I nanoparticle (NP)-based contrasts agents. Our results show that the PCD-only and hybrid CT reconstructions offered very similar spatial resolution at 10% MTF (PCD: 3.50 lp mm-1; hybrid: 3.47 lp mm-1) and noise characteristics given by the noise power spectrum. For material decomposition we note successful separation of the four basis materials. We found that hybrid reconstruction reduces RMSE by an average of 37% across all material maps when compared to PCD-only of similar dose but does not provide much difference in terms of concentration accuracy. The in vivo results show separation of targeted Au and accumulated Gd NPs in the tumor from intravascular iodine NPs and bone. Hybrid spectral micro-CT can benefit nanotechnology and cancer research by providing quantitative imaging to test and optimize various NPs for diagnostic and therapeutic applications.

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Published In

Phys Med Biol

DOI

EISSN

1361-6560

Publication Date

October 21, 2020

Volume

65

Issue

20

Start / End Page

205012

Location

England

Related Subject Headings

  • X-Ray Microtomography
  • Sarcoma, Experimental
  • Sarcoma
  • Photons
  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Mice
  • Iodine
  • Image Processing, Computer-Assisted
  • Humans
 

Citation

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Holbrook, M. D., Clark, D. P., & Badea, C. T. (2020). Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector. Phys Med Biol, 65(20), 205012. https://doi.org/10.1088/1361-6560/aba8b2
Holbrook, M. D., D. P. Clark, and C. T. Badea. “Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector.Phys Med Biol 65, no. 20 (October 21, 2020): 205012. https://doi.org/10.1088/1361-6560/aba8b2.
Holbrook MD, Clark DP, Badea CT. Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector. Phys Med Biol. 2020 Oct 21;65(20):205012.
Holbrook, M. D., et al. “Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector.Phys Med Biol, vol. 65, no. 20, Oct. 2020, p. 205012. Pubmed, doi:10.1088/1361-6560/aba8b2.
Holbrook MD, Clark DP, Badea CT. Dual source hybrid spectral micro-CT using an energy-integrating and a photon-counting detector. Phys Med Biol. 2020 Oct 21;65(20):205012.
Journal cover image

Published In

Phys Med Biol

DOI

EISSN

1361-6560

Publication Date

October 21, 2020

Volume

65

Issue

20

Start / End Page

205012

Location

England

Related Subject Headings

  • X-Ray Microtomography
  • Sarcoma, Experimental
  • Sarcoma
  • Photons
  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Mice
  • Iodine
  • Image Processing, Computer-Assisted
  • Humans