• Title of article

    Grid: A location dependent intensity modulated radiotherapy for bulky tumors

  • Author/Authors

    Meigooni, A.S University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA , Malik, U University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA , Zhang, H University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA , Dini, S.A University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA , Meigooni, N.J , Komanduri, K University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA , Mohiuddin, M University of Kentucky Medical Center - Department of Radiation Medicine - Lexington - Kentucky - USA

  • Pages
    8
  • From page
    167
  • To page
    174
  • Abstract
    An effective method for management of large and bulky malignant tumors. This treatment modality is also known as Specially Fractionated Radiation Therapy (SFRT). In this treatment technique a grid block converted the open radiation field into a series of pencil beams. Dosimetric characteristics of an external beam grid radiation field have been investigated using experimental and Monte Carlo simulation technique. Grid radiation therapy, using the megavoltage X-ray beam, has been proven to be Materials and Methods: radiation field have been determined using experimental and Monte Carlo simulation technique, for 6- and 18 MV X-ray beams from a Varian Clinics 2100C/D. The measurements were performed using LiF TLD and film in Solid Water phantom Material. Moreover, the MCNP Monte Carlo code was utilized to calculate the dose distribution in the grid radiation field in the same phantom material. The results of the experimental data were compared to the theoretical values, to validate this technique. Upon the agreement between the two techniques, dose distributions can be calculated for the grid field with different patterns and sizes of holes, in order to find an optimal design of the grid block. Dose distributions (%DD as well as the beam profiles) of a grid Results: simulation technique was in good agreement with the measured data. In addition, the 3D dose distribution of the grid field generated by the Monte Carlo simulation gave more detailed information about the dose pattern of the grid. The results of dose profiles for 6 MV X-ray beams obtained with the Monte Carlo Conclusion: Carlo simulation technique can be utilized to optimize the pattern, size and spacing between the holes, for optimal clinical results. The grid block can be used as a boost for treatment of bulky tumors. The MonteIran. J. Radiat. Res., 2005 2 (4): 167-174
  • Keywords
    specially fractionated radiation therapy , bulky tumors , Grid
  • Journal title
    Astroparticle Physics
  • Serial Year
    2005
  • Record number

    2473232