In the period from February 16 to March 6, 2015 on the basis of GPI RAS , NRNU MEPhI and First MSMU with the support of JSC "BIOSPEC" , National Photodynamic Association and RUSNANO Winter School on FD and PDT will be held for magistrants, PhD students, and practicing engineers and physicians willing improve the skills in the direction of the use and development of methods for fluorescence diagnosis and photodynamic therapy in oncology. The school places particular emphasis on the use of nanotechnology in the field. The school includes a large amount of practical training, which will be held in GPI RAS, JSC "BIOSPEC", First MSMU and MNIOI. The aim of practical training is getting skills of work with real equipment used for fluorescence diagnosis and photodynamic therapy in laboratory and clinics.
List of student's target groups:
Target group 1 - nanoparticles and their composites synthetic chemist.
Target group 2.a - physicists researching nanoparticles.
Target group 2.b - developers of medical equipment.
Target group 2.c - medical physicists.
Target group 3 - clinicians specialized in optical and MRI-diagnostics and laser therapy.
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Invited lecturers:
R. Steiner - Prof. Dr. rer. nat., Universität Ulm, Institute for Laser Technologies in Medicine & Metrology (Ulm, Germany)
L. Lilge - Senior Scientist, Professor of Princess Margaret Cancer Centre (department of Medical Biophysics) (Toronto, Canada)
A. Douplik - Professor (Associate), Head of BioClinical Optics and Photonics Ryerson University (Department of Physics) (Toronto, Canada)
C. Soussen - Associate Professor of University of Lorraine, Research Centre for Automatic Control (CRAN) (Nancy, France)
L. Bolotine - Associate-Professor of Research Centre for Automatic Control (CRAN) (Nancy, France)
G.V. Ponomarev - Chief Researcher of the Institute of Biomedical Chemistry (Moscow, Russia)
E.A. Lukyanets - Chief of department of State Scientific Centre "NIOPIK" (Moscow, Russia)
A.F. Mironov - Chief of department of Lomonosov Moscow State University of Fine Chemical Technologies (Moscow, Russia)
Interdisciplinary course:
IC 1 Nanobiophotonics in oncology
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
Professional modules:
PM 1 Biomedical optics
PM 2 Methodology of spectroscopic diagnostics and photodynamic therapy
PM 3 Synthesis of photosensitizers and biocompatible nanoparticles
PM 4 Investigation of the optical properties of biocompatible nanoparticles at the macro and micro levels in vivo
PM 5 Development of laser, spectroscopic, and video fluorescent medical equipment
PM 6 Adaptation of FD methods to defined biological and clinical conditions and PDT planning
PM 7 Medical statistics for FD and PDT
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For the students from Target group 1 (nanoparticles and their composites synthetic chemist) the next set of disciplines is mandatory:
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
PM 1 Biomedical optics
PM 3 Synthesis of photosensitizers and biocompatible nanoparticles
For the students from Target group 2.a (physicists researching nanoparticles):
IC 1 Nanobiophotonics in oncology
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
PM 1 Biomedical optics
PM 2 Methodology of spectroscopic diagnostics and photodynamic therapy
PM 4 Investigation of the optical properties of biocompatible nanoparticles at the macro and micro levels in vivo
For the students from Target group 2.b (developers of medical equipment):
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
PM 1 Biomedical optics
PM 5 Development of laser, spectroscopic, and video fluorescent medical equipment
For the students from Target group 2.c (medical physicists):
IC 1 Nanobiophotonics in oncology
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
PM 1 Biomedical optics
PM 2 Methodology of spectroscopic diagnostics and photodynamic therapy
PM 6 Adaptation of FD methods to defined biological and clinical conditions and PDT planning
For the students from Target group 3 (clinicians specialized in optical and MRI-diagnostics and laser therapy):
IC 2 Fundamentals of fluorescence diagnosis and photodynamic therapy
PM 2 Methodology of spectroscopic diagnostics and photodynamic therapy
PM 7 Medical statistics for FD and PDT
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