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BIOE 332: Transport Process Design

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: MATH241 and MATH246. Credit will be granted for only one of the following: ENBE454, ENBE603, or BIOE332. Formerly ENBE454. Fluid flow, heat transfer, and mass transfer with applications in medicine, environment, biotechnology, food, agriculture, and other biosystems. Design of solutions to current problems in biological engineering is emphasized.

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BIOE 340: Modeling Physiological Systems and Lab

4.00 Credits

University of Maryland Eastern Shore

Three hours of lecture and two hours of laboratory per week. Prerequisite: BIOE120 and BIOE121. Credit will be granted for only one of the following: BIOE340 or (BSCI440 and BSCI441). Topicscovered will include cell and general physiology, membrane physiology, blood cells and clotting, circulation, metabolism, respiration, and the nervous system. A lab component will also be included.

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BIOE 399: Independent Study in Bioengineering

1.00 - 3.00 Credits

University of Maryland Eastern Shore

Prerequisite: permission of department. Repeatable to 6 credits if content differs. Independent study.

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BIOE 404: Biomechanics

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: BIOE120 and BIOE121. For BIOE majors only. Introduction to the fundamentals of biomechanics including force analysis, mechanics of deformable bodies, stress and strain, multiaxial deformations, stress analysis, and viscoelasticity. Biomechanics of soft and hard tissues.

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BIOE 411: Tissue Engineering

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: at least one biology course and MATH241. Recommended: BSCI330 and BIOE340. A review of the fundamental principles involved in the design of engineered tissues and organs. Both biological and engineering fundamentals will be considered.

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BIOE 415: Bioengineering of Exercise Response

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: MATH246 or permission of department. Credit will be granted for only one of the following: BIOE415 or ENBE415. Formerly ENBE415. Exercise physiology in quantitative terms. Modeling and prediction of cardiovascular, respiratory, thermoregulatory, biomechanical, and metabolic aspects of human exercise responses.

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BIOE 420: Bioimaging

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: BIOE120, BIOE121, and MATH246. For BIOE majors only. Examines the physical principles behind major biomedical imaging modalities and new ways of using images for bio-related applications.

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BIOE 422: Biosystems Engineering

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: BIOE120 and BIOE121 or BSCI105; and one of the following courses: BIOE331, BIOE332, ENCE305, or ENME331. Conservation of mass in the context of biological systems at different scales (i.e., cellular, organ, and ecosystem), life cycles such as carbon cycle, nitrogen cycle, photosynthesis, water cycle, Kreb cycle, and aerobic and anaerobic cycles as they relate to biosystem function and health.

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BIOE 425: Mechanical Properties of Biological Tissues

3.00 Credits

University of Maryland Eastern Shore

Prerequisite: ENES220 and MATH241. For BIOE majors with senior or graduate standing only. An exploration of mechanical properties of living biological tissues; including hard and soft tissues. Coverage will include all the traditional mechanical properties applied to biological tissues, including: stress-strain behavior, elastic, viscoelastic, thermomechanical, fracture, fatigue, etc. Additionally, alteration of mechanical properties of living tissues due to disease, development, growth, and remodeling will be covered.

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BIOE 450: Quantitative Cell Physiology

3.00 Credits

University of Maryland Eastern Shore

One hour of lecture and two hours of discussion/recitation per week. Recommended: MATH141, MATH241, MATH246 or equivalent. Introduction to quantitative aspects of enuronal, skeletal muscle and cardiac physiological systems, with an emphasis on cellular function and plasticity.

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