Review of recent advances in radiochromic materials for 3D dosimetry

Kevin Jordan
2010 Journal of Physics, Conference Series  
3D dosimetry fundamentals: gels and plastics M Lepage and K Jordan -Effects of adding glycerol and sucrose to ferrous xylenol orange hydrogel Kevin Jordan and Masaya Sekimoto -Recent citations Real-time volumetric relative dosimetry for magnetic resonance-image-guided radiation therapy (MR-IGRT) Hannah J Lee et al -A tomographic UV-sheet scanning technique for producing 3D fluorescence images of x-ray beams in a radiofluorogenic gel Tiantian Yao et al -Innovation and the future of advanced
more » ... etry: 2D to 5D Mark Oldham -This content was downloaded from IP address 207.241.231.83 on 03/05 Abstract. Recent papers concerning radiochromic films, plastics and hydrogels for 3D dosimetry are summarized. The utility of Presage™, a radiochromic plastic, with optical CT readout was demonstrated for the following applications: motion and gated treatment delivery, commissioning of small fields for radiosurgery, 192 Ir high dose rate brachytherapy source commissioning and as a 3D insert for IMRT credentialing tests with Radiological Physics Centre (RPC) phantoms. Preliminary performance for characterizing microbeams from a synchrotron with optic projection tomography readout demonstrated resolution of an 83 micron diameter beam. Hydrogel chemistries based on nonionic micelles for leuco malachite green and leuco crystal violet demonstrated that low diffusion gels can be designed by choosing product dyes that are poorly soluble and water and tend to remain in the micelles. Turnbull blue chemistry has been successfully adapted to form a non-difffusing gel as well. The performance of ferrous xylenol orange hydrogel layers doped with boron to form neutron dosimeters demonstrated another practical application. Polymerization hydrogels are alternate materials that can be read with optical CT scanners. High dose gradient applications in brachytherapy with 90Sr/90Y sources and proton dosimetry are presented for comparison.
doi:10.1088/1742-6596/250/1/012043 fatcat:clesw6qdgbdlvjo6imzt4hkvwa