GATE-users publications

Only the GATE-related references sent to us by GATE users are listed here. If you wish to have your GATE-related papers listed, please send the complete reference to us.


SPECT APPLICATIONS

  • Könik A, Madsen MT, Sunderland JJ. GATE simulations of small animal SPECT for determination of scatter fraction as a function of object size. IEEE Trans Nucl Sci. 59 (2012) 1887-1891
  • Aguiar P, Iglesias A, Couce B, Lois C. A feasibility study on the use of arrays of discrete SiPMs for MR compatible LYSO readout using Monte Carlo simulation. Journal of Instrumentation. 7 (2012) P06002

PET APPLICATIONS

  • Häggström I, Schmidtlein CR, Karlsson M, Larsson A. Compartment modeling of dynamic brain PET--the impact of scatter corrections on parameter errors. Med Phys. 41(11) (2014)
  • Zeraatkar N, Ay MR, Ghafarian P, Sarkar S, Geramifar P, Rahmim A. Monte Carlo-based evaluation of inter-crystal scatter and penetration in the PET subsystem of three GEDiscovery PET/CT scanners. Nucl. Instr. Meth. Phys. A. 659 (2011) 508–514
  • Zeraatkar N, Ay MR, Kamali-Asl AR,Zaidi H. Accurate Monte Carlo modeling and performance assessment of the X-PET™ subsystem of the FLEX Triumph™ preclinical PET/CT scanner. Med Phys. 38 (2011) 1217-1225
  • Könik A, Koesters T, Madsen MT, Sunderland JJ. Evaluation of attenuation and scatter correction requirements as a function of object size in small animal PET imaging. IEEE Trans Nucl Sci. 58 (2011) 2308-2314
  • Bonifacio DAB, Belcari N, Moehrs S, Moralles M, Rosso V, Vecchio S, Del Guerra A. A Time Efficient Optical Model for GATE Simulation of a LYSO Scintillation Matrix Used in PET Applications. IEEE Trans Nucl Sci. 57 (2010) 2483-2489
  • Könik A, Madsen MT, Sunderland JJ. GATE simulations of human and small animal PET for determination of scatter fraction as a function of object size. IEEE Trans Nucl Sci. 57 (2010) 2558-2563
  • Churchill N, Chamberland M, Xu T. Algorithm and simulation for real-time positron emission based tumor tracking using a linear fiducial marker. Med Phys. 36 (2009) 1576-1586
  • Balcerzyk M, Kontaxakis G, Delgado M, Garcia-Garcia L, Correcher C, Gonzalez AJ, Gonzalez A, Rubio JL, Benlloch JM, Pozo MA . Initial performance evaluation of a high resolution Albira small animal positron emission tomography scanner with monolithic crystals and depth-of-interaction encoding from a user's perspective. Meas. Sci. Technol. 20 (2009) 104011

CT APPLICATIONS

  • Arabi H, Asl AR, Ay MR, Zaidi H. Novel detector design for reducing intercell x-ray cross-talk in the variable resolution x-ray CT scanner: a Monte Carlo study. Med Phys. 38 (2011) 1389-96

DOSIMETRY

  • Belley, M. D., Wang, C., Nguyen, G., Gunasingha, R., Chao, N. J., Chen, B. J., Dewhirst, M. W., Yoshizumi, T. T. Toward an organ based dose prescription method for the improved accuracy of murine dose in orthovoltage x-ray irradiators. Medical physics, 41(3) (2014)
  • Parach AA, Rajabi H, Askari MA. Assessment of MIRD data for internal dosimetry using the GATE Monte Carlo code. Radiat. Environ. Biophys. 50 (2011) 441-450
  • Parach AA, Rajabi H. A comparison between GATE4 results and MCNP4B published data for internal radiation dosimetry. Nuklearmedizin 50 (2011) 122–133
  • Parach AA, Rajabi H, Askari MA. Paired organs-should they be treated jointly or separately in internal dosimetry? Med Phys. 38 (2011) 5509-21.