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Implementation and experimental evaluation of Mega-voltage fan-beam CT using a linear accelerator.
Gong, Hao; Tao, Shengzhen; Gagneur, Justin D; Liu, Wei; Shen, Jiajian; McCollough, Cynthia H; Hu, Yanle; Leng, Shuai.
Affiliation
  • Gong H; Department of Radiology, Mayo Clinic, 200 First Street SW, Rochester, MN, 55905, USA.
  • Tao S; Department of Radiology, Mayo Clinic, 200 First Street SW, Rochester, MN, 55905, USA.
  • Gagneur JD; Department of Radiology, Mayo Clinic Arizona, 5881 East Mayo Blvd, Phoenix, AZ, 85258, USA.
  • Liu W; Department of Radiology, Mayo Clinic Arizona, 5881 East Mayo Blvd, Phoenix, AZ, 85258, USA.
  • Shen J; Department of Radiology, Mayo Clinic Arizona, 5881 East Mayo Blvd, Phoenix, AZ, 85258, USA.
  • McCollough CH; Department of Radiology, Mayo Clinic, 200 First Street SW, Rochester, MN, 55905, USA.
  • Hu Y; Department of Radiology, Mayo Clinic Arizona, 5881 East Mayo Blvd, Phoenix, AZ, 85258, USA. Hu.Yanle@mayo.edu.
  • Leng S; Department of Radiology, Mayo Clinic, 200 First Street SW, Rochester, MN, 55905, USA. Leng.Shuai@mayo.edu.
Radiat Oncol ; 16(1): 139, 2021 Jul 28.
Article in En | MEDLINE | ID: mdl-34321029
BACKGROUND: Mega-voltage fan-beam Computed Tomography (MV-FBCT) holds potential in accurate determination of relative electron density (RED) and proton stopping power ratio (SPR) but is not widely available. OBJECTIVE: To demonstrate the feasibility of MV-FBCT using a medical linear accelerator (LINAC) with a 2.5 MV imaging beam, an electronic portal imaging device (EPID) and multileaf collimators (MLCs). METHODS: MLCs were used to collimate MV beam along z direction to enable a 1 cm width fan-beam. Projection data were acquired within one gantry rotation and preprocessed with in-house developed artifact correction algorithms before the reconstruction. MV-FBCT data were acquired at two dose levels: 30 and 60 monitor units (MUs). A Catphan 604 phantom was used to evaluate basic image quality. A head-sized CIRS phantom with three configurations of tissue-mimicking inserts was scanned and MV-FBCT Hounsfield unit (HU) to RED calibration was established for each insert configuration using linear regression. The determination coefficient ([Formula: see text]) was used to gauge the accuracy of HU-RED calibration. Results were compared with baseline single-energy kilo-voltage treatment planning CT (TP-CT) HU-RED calibration which represented the current standard clinical practice. RESULTS: The in-house artifact correction algorithms effectively suppressed ring artifact, cupping artifact, and CT number bias in MV-FBCT. Compared to TP-CT, MV-FBCT was able to improve the prediction accuracy of the HU-RED calibration curve for all three configurations of insert materials, with [Formula: see text] > 0.9994 and [Formula: see text] < 0.9990 for MV-FBCT and TP-CT HU-RED calibration curves of soft-tissue inserts, respectively. The measured mean CT numbers of blood-iodine mixture inserts in TP-CT drastically deviated from the fitted values but not in MV-FBCT. Reducing the radiation level from 60 to 30 MU did not decrease the prediction accuracy of the MV-FBCT HU-RED calibration curve. CONCLUSION: We demonstrated the feasibility of MV-FBCT and its potential in providing more accurate RED estimation.
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Full text: 1 Database: MEDLINE Main subject: Particle Accelerators / Algorithms / Radiotherapy Planning, Computer-Assisted / Tomography, X-Ray Computed / Phantoms, Imaging / Radiotherapy, Intensity-Modulated / Neoplasms Limits: Humans Language: En Journal: Radiat Oncol Journal subject: NEOPLASIAS / RADIOTERAPIA Year: 2021 Type: Article Affiliation country: United States

Full text: 1 Database: MEDLINE Main subject: Particle Accelerators / Algorithms / Radiotherapy Planning, Computer-Assisted / Tomography, X-Ray Computed / Phantoms, Imaging / Radiotherapy, Intensity-Modulated / Neoplasms Limits: Humans Language: En Journal: Radiat Oncol Journal subject: NEOPLASIAS / RADIOTERAPIA Year: 2021 Type: Article Affiliation country: United States