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Course Criteria
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3.00 Credits
Prerequisites: ECH 3274L, ECH 3418, and ECH 4267. Corequisites: ECH 4404L, ECH 4504, and ECH 4604. This course offers an introduction to the field of biomedical engineering, with emphasis on the role of general engineering. Topics cover hemodynamics, human physiology, pharmacodynamics, artificial organs, biomaterials, biomechanics, and clinical engineering.
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3.00 Credits
Prerequisite: Senior or graduate standing in biomedical engineering. This course is an introduction to the key theories, concepts, principles, and methodology relevant to the development of biomedical professional ethics. The student is facilitated in his/her development of a code of professional ethics through written work, class discussion, and case analysis.
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3.00 Credits
Prerequisites: ECH 3023, ECH 3024, and ECH3301, all with a grade of "C" or higher, as well as CHM 2211, PHY 2049C, and BSC 2010. Corequisites: ECH 3101, ECH3266, ECH 3854, EGM 3512, and CHM 4410. This is course, the first of a two-semester sequence, introduces engineering students to principles of anatomy and physiology of the human body. The lecture portion of the course focuses on relating fundamental biomedical engineering concepts to the human physiological system. The laboratory portion of the course involves a practical, in-depth study of the physical and chemical interrelationships in the form and function of all human anatomical and physiological subsystems.
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3.00 Credits
Prerequisites: BME 4403C, ECH 3101, ECH 3266, ECH 3854, EGM 3512, and CHM4410. Corequisites: ECH 3274L, ECH 3418, and ECH 4267. This course, the second in a two-semester sequence, introduces engineering students to principles of anatomy and physiology of the human body. The lecture portion of the course focuses on relating fundamental biomedical engineering concepts to the human physiological system. The laboratory portion of the course involves a practical, in-depth study of the physical and chemical interrelationships in the form and function of all human anatomical and physiological subsystems.
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3.00 Credits
Prerequisites: BCH 4053, BME 4404C, and ECH 3821. Corequisite: Senior standing. This is the first course of a two-semester sequence on the design of biomedical engineering processes and products. The first semester consists of introducing students to the principles of engineering economics and cost estimation techniques relating to principles of biomedical engineering design. Included is an introduction to computer-aided design calculations.
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3.00 Credits
Prerequisites: BCH 4053, BME 4403C, and BME 4801. Corequisite: Senior standing. This is the second course of a two-semester sequence on the design of biomedical engineering processes and products. The second term focuses on the actual design of a biomedical engineering process or product using computer-aided design calculations. This is the capstone senior design course in biomedical engineering. An individual design project is completed by each student.
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1.00 Credits
for six hours with a minimum grade of "C". This program requires independent student research on a topic relevant to biomedical engineering and may be used to satisfy the Chemical Engineering Elective requirement. May be repeated to a maximum of six semester hours.
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3.00 Credits
Prerequisite: department chair permission. This course offers a supervised program of study approved by the department chair. May be repeated within the same term to a maximum of twelve credit hours.
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1.00 Credits
for six hours with a minimum grade of "C". This program requires independent student research on a topic relevant to biomedical engineering and may be used to satisfy the Chemical Engineering Elective requirement. May be repeated to a maximum of six semester hours.
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3.00 Credits
Prerequisite: BME 4404C, ECH 3274L, ECH 3418, and ECH 4267. Corequisite: ECH 4504. Topics in this course emphasize recent developments in the field of biomedical engineering. Selected readings are assigned by the instructor. Structure of the course varies by instructor and topic, but generally involve lectures and a final project on a topic in biomedical engineering. May be repeated within the same term to a maximum of twelve semester hours.
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