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Eduard Schreibmann, Ph.D.

Instructor

Education and Degrees

  • 1996     B.Sc. in Physics, University of Craiova, Romania.
  • 1999     M.Sc. in Medical Physics, European Collaboration, Greece.
  • 2003     Ph.D. in Medical Physics, University of Patras.

Certification

  • American Board of Radiology, Radiation Oncology Physics, (board eligible)

Training

  • 2003-05 Post Doctoral Fellow, Stanford University, Stanford, CA.
  • University Hospital Greece, Kostas Kappas PhD, 1997
  • Offenbach General Hospital, Dimos Baltas PhD, 2001-2003

Special Interests

  • Multi-objective optimization algorithms for  beam orientation selection in image guided radiation therapy (IGRT). Inclusion of biological imaging into IGRT planning. Application of deformable image registration methods for tracking organ motion in 4D imaging for IGRT

Selected Recent Publications

·        Tsiakalos MF, Schreibmann E, Theodorou K, Kappas C. Graphical treatment simulation and automated collision detection for conformal and stereotactic radiotherapy treatment planning. Medical Physics 2001;28:1359-63.

·        Lahanas M, Schreibmann E, Milickovic N, Baltas D. Intensity modulated beam radiation therapy dose optimization with multiobjective evolutionary algorithms. Lecture Notes in Computer Science 2003;2632:648-661.

·        Lahanas M, Schreibmann E, Baltas D. Multiobjective inverse planning for intensity modulated radiotherapy with constraint-free gradient-based optimization algorithms. Physics in Medicine and Biology 2003;48:2843-71.

·        Schreibmann E, Lahanas M, Uricchio R, Theodorou K, Kappas C, Baltas D. A geometry based optimization algorithm for conformal external beam radiotherapy. Physics in Medicine and Biology. 2003;48:1825-41.

·        Schreibmann E, Xing L. Feasibility study of beam orientation class-solutions for prostate IMRT. Medical Physics 2004;31:2863-70.

·        Schreibmann E, Lahanas M, Xing L, Baltas D. Multiobjective evolutionary optimization of the number of beams, their orientations and weights for intensity-modulated radiation therapy. Physic in Medicine and Biology 2004;49:747-70.

·        Schreibmann E, Xing L. Dose-volume based ranking of incident beam direction and its utility in facilitating IMRT beam placement. International Journal of Radiation Oncology Biology Physics 2005;63:584-93.

·        Schreibmann E, Xing L. Narrow band deformable registration of prostate magnetic resonance imaging, magnetic resonance spectroscopic imaging, and computed tomography studies. International Journal of Radiation Oncology Biology Physics 2005;62:595-605.

·        Schreibmann E, Chen GTY, Mageras G, Xing L. Image interpolation in 4D CT using a BSpline deformable registration model. International Journal of Radiation Oncology Biology Physics. 2005. Accepted.

·        Li T, Schreibmann E, Thorndyke B, Tillman G, Boyer A, Koong A, Goodman K, Xing L. Radiation dose reduction in 4D computed tomography. Medical. Physics. 2005. Accepted.

·        Li T, Schreibmann E, Yang Y, Xing L. Respiratory motion correction with deformation field for improved on-board imaging with cone-beam CT. Medical Physics 2005. Accepted.

·        Zhang X, Cao F, Cai W, Schreibmann E, Wu JC, Xing L, Chen X. 18F-Labeled bombesin analogs for targeting GRP receptor-expressing prostate cancer. International Journal of Nuclear Medicine 2006; 47:492-510

·        Li T, Thorndyke B, Schreibmann E, Yang Y, Xing L. Model-based image reconstruction for four-dimensional PET. Medical Physics 2006;33:1288-1298..

·        Schreibmann E, Xing L. Image registration with auto-mapped control volumes. Medical Physics 2006;33::1156-1179

·        Thorndyke B, Schreibmann E, Koong A, Xing L. Reducing respiratory motion artifacts in positron emission tomography through retrospective stacking. Medical Physics 2006;33:2632-2641.