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University of Calgary Calendar 2013-2014 COURSES OF INSTRUCTION Course Descriptions B Biomedical Engineering BMEN
Biomedical Engineering BMEN

Instruction offered by members of the Schulich School of Engineering and Faculty of Kinesiology.

Associate Dean (Academic & Planning) - R. Brennan

Director, Centre for Bioengineering Research and Education – A. Nygren

Senior Courses
Biomedical Engineering 301       Introduction to Biomedical Engineering
Fundamentals of biological systems and the application of engineering principles to solving problems in medicine.  Topics include pharmaceuticals and drug delivery, instrumentation and devices, physiological and biological measurements, biomechanics, the Scientific Method and the Canadian health care system.  Applications may include cardiovascular, neural and musculo-skeletal systems.
Course Hours:
H(3-2)
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Biomedical Engineering 309       Anatomy and Physiology for Engineers
Physiological terminology and anatomical planes of reference; cell biology and physiology; includes structure and function of musculoskeletal, cardiac, nervous, gastrointestinal and respiratory tissues and systems; diseases and disorders of those systems; design constraints for bioengineering products.
Course Hours:
H(3-3/2)
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Biomedical Engineering 401        Fundamentals of Biomedical Device Design
An introduction to the development of biomedical devices. Topics may include identifying market needs, idea generation, biologically inspired deign, human factors related to design, regulatory issues, intellectual property protection, clinical trials, and commercialization considerations. Case studies may be drawn from cardiovascular, neural and musculoskeletal applications.
Course Hours:
H(3-1T)
Prerequisite(s):
Biomedical Engineering 301.
Antirequisite(s):
Biomedical Engineering 517 and 619.05.
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Biomedical Engineering 500       Biomedical Engineering Research Thesis
A directed studies research project in an area of interest, directed by a project advisor/faculty member within the faculties of Engineering, Kinesiology, Science or Medicine. Includes a lecture component covering the scientific process, ethics, review of literature, and writing scientific proposals and manuscripts. The course culminates with a written thesis and presentation. Projects may involve experimental, analytic or computer modelling studies.
Course Hours:
M(1-8)
Prerequisite(s):
Fourth- or fifth-year standing in the Engineering program of choice.
Notes:
Pre-term study is required.
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Biomedical Engineering 501       Biomedical Engineering Project
A directed studies project in an area of interest, supervised by a project advisor/faculty member within the faculties of Engineering, Kinesiology, Medicine, or Science. Includes a lecture component covering topics including the scientific process, ethics, review of literature, patent searches, market analysis, and technology evaluation. The project involves choosing a particular product, process or theory relevant to biomedical engineering, researching it and justifying its selection. A final report and presentation are required.
Course Hours:
H(1-2)
Prerequisite(s):
Fourth- or fifth-year standing in the Engineering program of choice.
Notes:
Pre-term study is required.
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Biomedical Engineering 509       Introduction to Biomedical Imaging and Applications
Principles of various imaging modalities used in Biomedical engineering applications, including CT, MRI, ultrasound, PET, SPECT. Image processing operations: filtering, enhancement, feature extraction, pattern recognition and image reconstruction. Image registration and integration of different imaging modalities.
Course Hours:
H(3-2)
Prerequisite(s):
Fourth- or fifth-year standing in the Engineering program of choice.
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Biomedical Engineering 511       Biomaterials and Biocompatibility
Basic chemical and mechanical properties of biological and synthetic materials and their role in biological system health, dysfunction, and repair. Role of microstructure, material properties, and biocompatibility aspects in selection of biomaterials for medical or industrial applications. Incorporation of biomimetic concepts in material design. Topics may include artificial and tissue engineered products, implants, prostheses, biofilms, biosensors, and foreign body response.
Course Hours:
H(3-2/2)
Prerequisite(s):
Fourth- or fifth-year standing in the Engineering program of choice.
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Biomedical Engineering 513       Photogrammetric Techniques for Reconstruction and Manipulation of Biomedical Data
Basic photogrammetric principles. Photogrammetric techniques for biomedical applications; image acquisition, camera calibration, bundle adjustment, conventional and x-ray imagery, accurate geometric measurements; multivariate least-squares estimation and object reconstruction from 2D and 3D imagery. Other photogrammetric techniques, including laser scanning, range cameras, and coded light projection. Applications in motion capture, implant measurement, facial measurement, and computer-assisted surgery.
Course Hours:
H(3-2)
Prerequisite(s):
Fourth- or fifth-year standing in the Engineering program of choice.
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Biomedical Engineering 515       Bioengineering Methods in Systems Biology and Physiology
Concepts from systems theory, differential equations, and stochastic processes applied to physiological and biological systems. Experimental and computational approaches to the study of gene expression and gene networks. Use of quantitative model-based approaches for integrative analysis of physiological and biological functions. Case studies of applications to disease mechanisms and the drug discovery process.
Course Hours:
H(3-0)
Prerequisite(s):
Applied Mathematics 307.
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Biomedical Engineering 519       Special Topics in Biomedical Engineering
Current topics in Biomedical Engineering.
Course Hours:
H(3-2)
Prerequisite(s):
Consent of the BMES Director or designate.
MAY BE REPEATED FOR CREDIT
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Biomedical Engineering 525       Biomechanics of Tissues
The structure and functional behaviour of complex tissues which make up the human musculoskeletal system (bone, cartilage, muscles, tendons, ligaments) and cardiovascular systems (heart, blood vessels) will be explained by applying basic principles of mechanics as well as continuum mechanics.  Introductory topics include: review of linear and tensor algebra, kinematics of continua, deformation gradient, deformation and strain tensors, Cauchy stress tensor and equilibruim, conservation laws, stress power and measures of stress.  Constitutive equiations for solids and fluids will be introduced as they apply to the study of biological tissues; anisotropy and inhomogeneity, fibre-reinforced non-linear behaviour.
Course Hours:
H(3-2)
Prerequisite(s):
Engineering 317 and Engineering 349.
Antirequisite(s):
Credit for both Biomedical Engineering 525 and 405 will not be allowed.
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Graduate Courses
Biomedical Engineering 605       Research Seminars in Biomedical Engineering
Reports of studies of the literature or of current research.
Course Hours:
Q(1.5S-0)
NOT INCLUDED IN GPA
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Biomedical Engineering 607       Research Seminars in Biomedical Engineering
Reports of studies of the literature or of current research.
Course Hours:
Q(1.5S-0)
NOT INCLUDED IN GPA
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Biomedical Engineering 609       Anatomy and Physiology for Biomedical Engineers
Advanced instruction on human skeletal structure, types of connective tissues, structure of joints, muscle and organ structure and function, cardiac physiology, blood properties and flow, introduction to autonomous nervous system, and disorders of the musculoskeletal system. Other topics will be covered dependent on the interests of the instructor and students.
Course Hours:
H(3-3/2)
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Biomedical Engineering 611       Fundamentals of Biomedical Engineering - Core Area
An introduction to biology, biochemistry, anatomy, physiology and biomedical engineering fundamentals.
Course Hours:
Q(4-0)
Antirequisite(s):
(formerly Biomedical Engineering 601)
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Biomedical Engineering 612       Fundamentals of Biomedical Engineering - Research Areas
Detailed discussion on current biomedical engineering topics, including current local and international research and industry, with an emphasis on local strengths.
Course Hours:
Q(4-0)
Also known as:
(formerly Biomedical Engineering 601)
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Biomedical Engineering 613       Frontiers of Biomedical Engineering - Scientific Communication
An introduction to technical (oral and written) communication to diverse audiences.
Course Hours:
Q(4-0)
Also known as:
(formerly Biomedical Engineering 603)
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Biomedical Engineering 614       Frontiers of Biomedical Engineering - Research Methods
An introduction to research methodology in biomedical engineering, experimental design, research integrity, ethics, and preparation and review of research proposals. Satisfactory completion of this course within 1 year of registration will ensure that the Biomedical Engineering Graduate Program Research Proposal requirements are met.
Course Hours:
Q(4-0)
Also known as:
(formerly Biomedical Engineering 603)
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Biomedical Engineering 619       Special Problems in Biomedical Engineering
Designed to provide graduate students, especially at the PhD level, with the opportunity of pursuing advanced studies in particular areas under the direction of a faculty member.
Course Hours:
H(3-0)
MAY BE REPEATED FOR CREDIT
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