Marie Vidal


Post-Doctoral fellow

Departamento de Física Atómica, Molecular y Nuclear
Facultad de Ciencias Físicas, Universidad Complutense de Madrid
Avenida Complutense s/n, E-28040 Madrid (Spain)


Contact

(+34) 913944484
marievid@ucm.es


Diploms and background :

  • Medical physicist (2012)
  • PhD in Medical Physics (2011)
  • Master of sciences in Medical Physics (2008)
  • Graduated as an engineer from Ecole Nationale Supérieure de Physique de Grenoble, options in Nuclear Physics and Instrumentations for biotechnologies (2008)


Former experience

  • Medical Physics residency:

- Commissariat à l’Energie Atomique / Institut National
des Sciences et Techniques Nucléaires (CEA / INSTN),
Saclay, France
- Institut Claudius Regaud, Regional Cancer Center,
Toulouse, France

3D Conformal Radiation Therapy, Volumetric Arc Therapy (VMAT), Total Body Irradiation, Tomotherapy, Brachytherapy, 4D-CT, CBCT, Treatment planning, Machine QA, Patients QA.

  • PhD in Medical Physics (CIFRE funding):

- DOSIsoft, Cachan, France
- Institut Curie Protontherapy Center,
Orsay, France (P. François)
- Department Radiation, Imaging, Oncology, CREATIS,
UMR CNRS 5515, Inserm U 630, Lyon, France (D. Sarrut)

    Evolution of dose calculation models for treatment planning in protontherapy.

    Analytical model of dose calculation (Ray-Tracing, Pencil-Beam), New protontherapy solution commissionning (Double Scattering, Uniform Scanning), Monte Carlo simulations (Geant4/GATE).

    • Master thesis

    - SIEMENS Particle Therapy, Erlangen, Germany
    (E. Rietzel)
    - Gesellschaft für Schwerionien forschüng (GSI), Darmstadt, Germany (C. Bert)

      Adaptive therapy for prostate cancer with charged particles.

      Medical image registration, Particle therapy treatment planning (TriP98, GSI), Dosimetrical and geometrical evaluation of interfractional motion.

      • Bachelor thesis

      - SIEMENS Oncology Care Systems, Concord, CA, USA (J. Maltz)

      Clinical evaluation of previous enhancement methods for improving image quality in images acquired with the LINAC for Radiation Therapy.

      Test of a scintillating screen of amorpheous silicon for portal imaging, Inverse filtering or removal of imaging artefacts.