>Biomechanics and Rehabilitation Engineering

Introduction:
Biomechanics combines engineering and the life sciences by applying principles from classical mechanics to the study of living system. This relatively new field covers a broad range of topics,includeing strength of biological materials,biofluid mechanics in the cardiovascular and respiratory systems,material properties and interactions of medical implants and the body,heat and mass transfer into biological tissues,biocontrol systems regulating metabolism or voluntary motion,and kinamatics and kinetics applied to study human gait.The great breadth of the field of biomechanics arises from the complexities and variety of biological organisms and systwems.

From:”Introduction Biomedical Engineering 2nd Edition”,”Bronzino”,””,”Elsevier”

Rehabilitation engineering
From Wikipedia, the free encyclopedia

Rehabilitation engineering is the systematic application of engineering sciences to design, develop, adapt, test, evaluate, apply, and distribute technological solutions to problems confronted by individuals with disabilities. Functional areas addressed through rehabilitation engineering may include mobility, communications, hearing, vision, and cognition, and activities associated with employment, independent living, education, and integration into the community.[1]

While some rehabilitation engineers have master’s degrees in rehabilitation engineering, usually a subspecialty of biomedical engineering, most rehabilitation engineers have undergraduate or graduate degrees in biomedical engineering, mechanical engineering, or electrical engineering. A Portuguese university provides an undergraduate degree in Accessibility and Rehabilitation Engineering [2].

The rehabilitation process for people with disabilities often entails the design of assistive devices intended to promote inclusion of their users into the mainstream of society, commerce, and recreation.

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Elective Courses
Credits (lecture-lab-self study)
Biomechanics and Rehabilitation Engineering Track

EGBE   634 Biomaterials and Biocompatibility  3(3-0-6)
EGBE   640 Orthopedic Biomechanics      3(3-0-6)
EGBE   641 Physiological Fluid Mechanics    3(3-0-6)
EGBE   642 Advanced Biomechanics 3(3-0-6)
EGBE   643 Cardiovascular Systems  3(3-0-6)
EGBE   644 Neural Interfacing 3(3-0-6)
EGBE   645 Biomedical Prosthetics 3(3-0-6)
EGBE   646 Design and Manufacturing of Biomedical Devices  3(3-0-6)
EGBE   671 Nanobiotechnology    3(3-0-6)
EGBE   680-689  Special Topics in Biomedical Engineering  3(3-0-6)

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