UofC " This Is Now

Search Calendar:


Site Navigation
Welcome
Important Notice and Disclaimer
Fee Payment Deadlines
Academic Schedule
Examinations Schedule
Undergraduate Degrees with a Major
Combined Degrees
Minor Programs
Student Services
Undergraduate Admissions
Academic Regulations
Tuition and General Fees
English for Academic Purposes Program
Faculty of Arts
Faculty of Education
Faculty of Environmental Design
Faculty of Graduate Studies
Haskayne School of Business
Faculty of Kinesiology
Faculty of Law
Faculty of Medicine
Faculty of Nursing
Schulich School of Engineering
Faculty of Science
Faculty of Social Work
Faculty of Veterinary Medicine
Co-operative Education/Internship
Continuing Education
Awards and Financial Assistance
COURSES OF INSTRUCTION
How to Use
Courses of Instruction by Faculty
Course Descriptions
A
B
C
D
E
F
G
H
I
J, K
L
M
Management Information Systems MGIS
Management Studies MGST
Manufacturing Engineering ENMF
Marine Science MRSC
Marketing MKTG
Mathematics MATH
Mechanical Engineering ENME
Medical Physics MDPH
Medical Science MDSC
Medicine MDCN
Museum and Heritage Studies MHST
Music Education MUED
Music History and Literature MUHL
Music Performance MUPF
Music Theory and Composition MUTC
N, O
P
R
S
T, U
V, W, Z
About the University of Calgary
Where
Who's Who
Glossary of Terms
Contact Us
University of Calgary Calendar 2010-2011 COURSES OF INSTRUCTION Course Descriptions M Medical Physics MDPH
Medical Physics MDPH

Instruction offered by members of the Department of Physics and Astronomy in the Faculty of Science.

Department Head - R.I. Thompson

Note: For listings of related courses, see Astronomy, Astrophysics, Physics, and Space Physics.

Graduate Courses
Medical Physics 623       Radiological Physics and Radiation Dosimetry
Photon and electron interactions, charged particle and radiation equilibrium, cavity theory, absolute and relative dosimetry, calibration protocols.
Course Hours:
H(3-0)
Prerequisite(s):
Consent of the Department.
back to top
Medical Physics 625       Radiation Oncology Physics
Clinical photon and electron beams, brachytherapy, treatment planning, radiation therapy devices, special techniques.
Course Hours:
H(3-0)
Prerequisite(s):
Medical Physics 623 and consent of the Department.
back to top
Medical Physics 633       Radiation Oncology Physics Laboratory
Absorption dose determination, dose descriptors, photon beam modelling, quality control.
Course Hours:
H(1-3)
Prerequisite(s):
Medical Physics 625 and consent of the Department.
back to top
Medical Physics 637       Anatomy and Statistics for Medical Physicists
Anatomy, physiology, probability, statistical inference, hypothesis testing, regression models, clinical trials, survival analysis.
Course Hours:
H(3-0)
Prerequisite(s):
Medical Physics 623 and consent of the Department.
back to top
Medical Physics 639       Radiobiology and Radiation Safety for Medical Physicists
Cell kinetics, cell survival curves, radiation pathology, fractionation, radiation safety, shielding calculations.
Course Hours:
H(3-0)
Prerequisite(s):
Medical Physics 625 and consent of the Department.
back to top
Medical Physics 711       Clinical Competency I
This three credit hour course extends over the first year of the diploma program and consists of rotations through areas of clinical physics under the supervision of adjunct faculty. Objectives are set, in conjunction with the student, at the commencement of the three rotations comprising this course. Student performance is evaluated by the course mentors at the conclusion of each rotation and by a final oral examination.
Course Hours:
H(0-8)
Prerequisite(s):
Consent of the Department
back to top
Medical Physics 712       Clinical Competency II
This three credit hour course extends over the second year of the diploma program and consists of rotations through more complex areas of clinical physics under the supervision of adjunct faculty. Objectives are set, in conjunction with the student, at the commencement of the three rotations comprising this course. Student performance is evaluated by the course mentors at the conclusion of each rotation and by a final oral examination.
Course Hours:
H(0-8)
Prerequisite(s):
Medical Physics 711 and consent of the Department.
back to top
Medical Physics 721       Clinical Projects I
Two to three clinical projects are completed during this three credit hour course extending over the first year of the program. Projects have clearly defined objectives established by mutual agreement between the student and project supervisor. The project culminates in a written report. Student performance is evaluated against the objectives established at the commencement of the project.
Course Hours:
H(0-8)
Prerequisite(s):
Consent of the Department.
back to top
Medical Physics 722       Clinical Projects II
Two to three clinical projects are completed during this three credit hour course extending over the second year of the program. Projects have clearly defined objectives established by mutual agreement between the student and project supervisor. The project culminates in a written report. Student performance is evaluated against the objectives established at the commencement of the project.
Course Hours:
H(0-8)
Prerequisite(s):
Medical Physics 721 and consent of the Department.
back to top
Medical Physics 731       Radiation Oncology Physics Tutorials
This three credit hour course requires the student to prepare written answers to 120 pre-set questions published by the Canadian College of Physicists in Medicine as part of the certification process in Radiation Oncology Physics. The course is conducted in a tutorial setting and the students are evaluated on the basis of their answers to a subset of the questions.
Course Hours:
H(2T-0)
Prerequisite(s):
Consent of the Department.
back to top
Medical Physics 741       Treatment Planning
This three credit hour course has three components and will be spread over the two years of the program to ensure that the student's increasing knowledge can be consolidated into a thorough understanding of radiation oncology physics. The first component is the observation of simulation and localization under the supervision of a radiation oncologist. The second component is an in-depth study of the physics behind the treatment planning of the main tumour sites. This component utilizes a web based tool and is led by adjunct faculty. The final component involves following ten patients through the entire radiation therapy process from immobilization through localization, treatment planning, treatment delivery to verification. The students' progress will be evaluated throughout the course with regular feedback to the student.
Course Hours:
H(0-4)
Prerequisite(s):
Consent of the Department.
back to top