IEEE Access (Jan 2019)

Prototype Small-Animal PET-CT Imaging System for Image-Guided Radiation Therapy

  • Ekaterina Mikhaylova,
  • Jamison Brooks,
  • Darren M. Zuro,
  • Farouk Nouizi,
  • Maciej Kujawski,
  • Srideshikan Sargur Madabushi,
  • Jinyi Qi,
  • Mengxi Zhang,
  • Junie Chea,
  • Erasmus K. Poku,
  • Nicole Bowles,
  • Jeffrey Y. C. Wong,
  • John E. Shively,
  • Paul J Yazaki,
  • Gultekin Gulsen,
  • Simon R. Cherry,
  • Susanta K. Hui

DOI
https://doi.org/10.1109/ACCESS.2019.2944683
Journal volume & issue
Vol. 7
pp. 143207 – 143216

Abstract

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Molecular imaging is becoming essential for precision targeted radiation therapy, yet progress is hindered from a lack of integrated imaging and treatment systems. We report the development of a prototype positron emission tomography (PET) scanner integrated into a commercial cone beam computed tomography (CBCT) based small animal irradiation system for molecular-image-guided, targeted external beam radiation therapy. The PET component consists of two rotating Hamamatsu time-of-flight PET modules positioned with a bore diameter of 101.6 mm and a radial field-of-view of 53.1 mm. The measured energy resolution after linearity correction at 511 KeV was 12.9% and the timing resolution was 283.6 ps. The measured spatial resolutions at the field-of-view center and 5 mm off the radial center were 2.6 mm x 2.6 mm x 1.6 mm and 2.6 mm x 2.6 mm x 2.7 mm respectively. 18F-Fluorodeoxyglucose-based PET imaging of a NEMA NU 4-2008 phantom resolved cylindrical volumes with diameters as small as 3 mm. To validate the system in-vivo, we performed 64Cu-DOTA-M5A PET and computed tomography (CT) imaging of carcinoembryonic antigen (CEA)-positive colorectal cancer in athymic nude mice and compared the results with a commercially available Siemens Inveon PET/CT system. The prototype PET system performed comparably to the Siemens system for identifying the location, size, and shape of tumors. Regions of heterogeneous 64Cu-DOTA-M5A uptake were observed. Using 64Cu-DOTA-M5A PET and CT images, a Monte Carlo-based radiation treatment plan was created to escalate the dose to the 64Cu-DOTA-M5A-based, highly active, biological target volume while largely sparing the normal tissue. Results demonstrate the feasibility of molecular-image-guided treatment plans using the prototype theranostic system.

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