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**CANCELLED** Niels Bohr Summer School on Therapeutic and Diagnostic Medical Physics
Provider: Faculty of Science

Activity no.: 5904-20-11-31
Enrollment deadline: 03/08/2020
PlaceH.C. Ørsteds Institute
Universitetsparken 5, 2100 København Ø
Date and time17.08.2020, at: 00:00 - 21.08.2020, at: 00:00
Regular seats
Course fee800.00 kr.
ECTS credits2.00
Contact personJulie Meier    E-mail address: juliemh@nbi.ku.dk
Enrolment Handling/Course OrganiserJens Morgenthaler Edmund    E-mail address: jens.edmund@nbi.ku.dk
Written languageEnglish
Teaching languageEnglish
Semester/BlockSummer
Block noteDate and Time: 17.08.2019, at: 08:30 - 21.08.2019, at: 15:00
Exam formSmartphone/tablet based multiple choice quiz
Exam formMandatory additional question: I plan to bring a laptop with MatLab? Yes/No
Course workload
Course workload categoryHours
Lectures15.00
Exercises14.00
Preparation25.00
Exam2.00
Sum56.00
Aim and content
The aim of the course is to provide the students with a basic knowledge of the fundamental concepts and methods that governs the physics in radiation therapy and medical imaging. The topics will include:

• Radiation dosimetry: Interactions, absorbed dose, charged particle equilibrium
• Dose measurements: Ionization chamber and solid state detectors, beam qualifiers
• Basic radiobiology: cell survival curves, early/late effects, 5 Rs, RBE/OER.
• Fractionation and iso-effects: Dose-response, Linear-quadratic model, EQD2.
• CT basics and geometry: CT scanner geometry, noise considerations and attenuation
• CT reconstruction: CT image contrast, sinograms, filtered backprojection.
• MR basics and tissue contrast: spin and precession, T1/T2 relaxation, Bloch equation.
• MR pulse sequences and imaging: Spin echo, phase encoding, k-space
• Fundamentals of nuclear imaging: Radionuclides, pulse mode, deadtime, efficiency
• Methods of Nuclear imaging: Scintillators, gamma camera, SPECT, PET, time-of-flight, SUV

Learning outcome
Knowledge: To be familiar with the various concepts and methods underlying the physics of radiation therapy and diagnostic imaging as detailed in the course content.

Skills: To be able to carry out simple qualitative and quantitative assessments such as dose calculations, cell curvival curves, EQD2 formalism, attenuation considerations, forward/backward projection, k-space encoding, T1/T2 relaxation for various tissues, pulse modes, scintillator geometry and SUV.

Competences: This course will provide the students with a basic knowledge and understanding that is a fundamental basis to carry out medical physics tasks within therapeutic and diagnostic radiology at the hospitals and medical academia.

Literature
Book chapters and exercises

Remarks
Mandatory additional question: I plan to bring a laptop with MatLab? Yes/No
Please send your answer to Jens Morgenthaler Edmund on jens.edmund@nbi.ku.dk

Participants not enrolled as students or PhD students at a Danish university will need to register at this site: https://science.nemtilmeld.dk/363/

Early registration deadline is June 15th 2020 (23:59 CET) - discounted fee.

Late registration deadline is August 3rd 2020 (23:59 CET) - full fee.

For more details, please visit the summer school's homepage here

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