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Course Criteria
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4.00 Credits
Methodologies of biological research with emphasis on hypothesis formation, research design, and data collection, and current issues in biology. Two lecture and six laboratory hours per week. Prerequisite: one 300-level or higher biological laboratory. CL: 2020.
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3.00 Credits
Statistical modeling, primarily using applications in public health. Measures of agreement, principles of statistical inference, correlation, simple and multiple linear regression, categorical independent variables, interaction, repeated measures, and logistic regression. Prerequisite: STAT 205 or equivalent. FS: 04/01/2015. CL: 2020.
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1.00 Credits
Enrollment and topic to be approved in advance by advisor and instructor. May be repeated. CL: 2020.
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1.00 Credits
Introduction to topics comprising the field of Biomedical Engineering, including their ethical impacts. Familiarization with resources and basic skills necessary to succeed in this major and field. Prerequisite or Corequisite: MATH 141. FS: 12/2/2020. CL: 2020.
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3.00 Credits
Fundamentals of static equilibrium, free body diagrams, force and momentum balances; viscoelastic mechanical behavior and models of viscoelasticity; introduction to linear circuit analysis. Prerequisite: C or better in CHEM 111 or CHEM 141; C or better in MATH 141. FS: 04/05/2023.
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4.00 Credits
Introduction to molecular, cellular, and physical biology principles and concepts and application of engineering principles to further the understanding of biological systems. Protein and nucleic acid structure and function; DNA replication, mutations, and repair; transcription, translation, and post-translational processing; cellular organization; molecular transport and trafficking; and cellular models. Prerequisite: C or better in BIOL 101, C or better in CHEM 112 or CHEM 142, and C or better in MATH 142. FS: 12/04/2019. CL: 2020.
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3.00 Credits
Mathematical and theoretical analysis of the mechanical properties and functions of materials, including those of biological origin and clinical relevance. Stress, strain, mechanical properties of materials, axial loading, torsion, bending, and stress/strain transformations. Application of the categories and methodology of solid mechanics to study biological tissues and events. Prerequisite: C or better in BMEN 212, C or better in MATH 241, C or better in PHYS 211. FS: 12/7/2016. CL: 2020.
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3.00 Credits
Properties of metals, ceramics, polymers, natural materials and composites; methods to modify surface and bulk properties of biomaterials; mechanisms of degradation in physiological environments; cell- and tissue-biomaterial interactions; host response to implanted biomaterials; blood-biomaterial interactions; rational design of biomaterials for specific biomedical applications. Prerequisite: D or better in CHEM 333; C or better in BMEN 240; C or better in BMEN 263 or ECHE 456; C or better in BMEN 290 or ECHE 311. FS: 12/01/2021.
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3.00 Credits
First, second, and third law of thermodynamics; free energy and chemical equilibrium in biological processes; phase equilibrium for biomedical systems; energy and metabolism; membrane potentials and depolarization. Prerequisite: C or better in MATH 241, C or better in BMEN 240, and C or better in PHYS 211. FS: 12/02/2020. CL: 2020.
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2.00 Credits
Analysis and discussion of biomedical industries, standards, regulations, products, and patents. Ethical issues associated with research, introduction of new products, animal subjects, and human subjects. Prerequisite: D or better in BMEN 101. FS: 10/05/2022.
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