Poster — Thur Eve — 38: Feasibility of a Table-Top Total Body Irradiation Technique using Robotic Couch Motion

Chin, Erika; Otto, Karl; Hoppe, Richard; Hsu, Annie; Loo, Billy; Million, Lynn; Xing, Lei; Fahimian, Benjamin

doi:10.1118/1.4894898

Title: Poster — Thur Eve — 38: Feasibility of a Table-Top Total Body Irradiation Technique using Robotic Couch Motion

Journal Article · Fri Aug 15 00:00:00 EDT 2014 · Medical Physics

DOI:https://doi.org/10.1118/1.4894898· OSTI ID:22407660

Chin, Erika; Otto, Karl; Hoppe, Richard; Hsu, Annie; Loo, Billy; Million, Lynn; Xing, Lei; Fahimian, Benjamin ^[1]

Department of Radiation Oncology, Stanford University (United States)

Purpose: To develop and test the feasibility of a table-top implementation for total body irradiation (TBI) via robotic couch motion and coordinated monitor unit modulation on a standard C-arm linac geometry. Methods: To allow for collision free delivery and to maximize the effective field size, the couch was rotated to 270° IEC and dropped to 150 cm from the vertical radiation source. The robotic delivery was programmed using the TrueBeam STx Developer Mode using custom XML scripting. To assess the dosimetry of a sliding 30×20 cm{sup 2} field, irradiation on a solid water phantom of varying thickness was analyzed using EDR2 radiographic film and OSLDs. Beam modulation was achieved by dividing the couch path into multiple segments of varying dose rates and couch speeds in order to deliver 120 cGy to the midline. Results: The programmed irradiation in conjunction with coordinated couch motion was successfully delivered on a TrueBeam linac. When no beam modulation was employed, the dose difference between two different phantom sections was 17.0%. With simple beam modulation via changing dose rates and couch speeds, the desired prescription dose can be achieved at the centre of each phantom section within 1.9%. However, dose deviation at the junction was 9.2% due to the nonphysical change in the phantom thickness. Conclusions: The feasibility of robotic table-top TBI on a C-arm linac geometry was experimentally demonstrated. To achieve a more uniform dose distribution, inverse-planning allowing for a combination of dose rate modulation, jaw tracking and MLC motion is under investigation.

Cite

Export

Save

OSTI ID:: 22407660

Journal Information:: Medical Physics, Vol. 41, Issue 8; Other Information: (c) 2014 American Association of Physicists in Medicine; Country of input: International Atomic Energy Agency (IAEA); ISSN 0094-2405

Country of Publication:: United States

Language:: English

Similar Records

TU-CD-304-01: FEATURED PRESENTATION and BEST IN PHYSICS (THERAPY): Trajectory Modulated Arc Therapy: Development of Novel Arc Delivery Techniques Integrating Dynamic Table Motion for Extended Volume Treatments

Journal Article · Mon Jun 15 00:00:00 EDT 2015 · Medical Physics · OSTI ID:22407660

Chin, E; Hoppe, R; Million, L; +6 more

TH-EF-BRB-10: Dosimetric Validation of a Trajectory Based Cranial SRS Treatment Technique On a Varian TrueBeam Linac

Journal Article · Wed Jun 15 00:00:00 EDT 2016 · Medical Physics · OSTI ID:22407660

Wilson, B; Gete, E

Electromagnetic guided couch and multileaf collimator tracking on a TrueBeam accelerator

Journal Article · Sun May 15 00:00:00 EDT 2016 · Medical Physics · OSTI ID:22407660

Hansen, Rune; Ravkilde, Thomas; Worm, Esben Schjødt; +3 more

Related Subjects

07 ISOTOPES AND RADIATION SOURCES
DOSE RATES
FILM DOSIMETRY
GEOMETRY
LINEAR ACCELERATORS
PHANTOMS
PLANNING
RADIATION DOSE DISTRIBUTIONS
THICKNESS
WHOLE-BODY IRRADIATION

Title: Poster — Thur Eve — 38: Feasibility of a Table-Top Total Body Irradiation Technique using Robotic Couch Motion

Citation Formats

Similar Records

Related Subjects