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Course Criteria
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2.00 Credits
The objective of this laboratory is to present students with real-world biomedical engineering problems that overlap the fields of biotransport and physiology. Students will look at problems/laboratories froma joint perspective which will enable students to solvemultidisciplinary problems. (coreq: BI-3110, BE-3510)
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1.00 Credits
The objective of this laboratory is to present students with real-world biomedical engineering problems that overlap the fields of biomaterials and biomechanics. Students will look at problems/laboratories froma joint perspective which will enable students to solvemultidisciplinary problems. (coreq: BE-411, BE-410)
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3.00 Credits
This course is a continuation of the BE design sequence. In this course, particular emphasis is given to researching products/solutions to design problems, obtaining project funding, obtaining projectmaterials, and preparing and undergoing the first design review. Design team development and the proper use andmaintenance of the engineering logbook are also included. (prereq: BE-3002)
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3.00 Credits
This course is a continuation of the BE design sequence. In this course, particular emphasis is given to designing and building the design projects. Students will also prepare and undergo the second design review. Design teamdevelopment and the proper use andmaintenance of the engineering logbook are also included. (prereq: BE-4000)
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3.00 Credits
This course is a continuation of the BE design sequence. In this course, particular emphasis is given to building and testing the design projects. Students will also prepare for the final design show at the end of the year. Design teamdevelopment and the proper use andmaintenance of the engineering logbook are also included. (prereq: BE-4001)
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3.00 Credits
The purpose of this course is to give students necessary knowledge and experiences to work in various biomedical engineering companies abroad. The course covers rules and regulations of biomedical product design and development in various countries (US, EU, Japan, and Australia). (prereq: consent of instructor)
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2.00 Credits
This course is a continuation of the BE design sequence and the first in a series of senior-level design courses. Particular emphasis is given to the continued application and use of project management techniques and software, structured searching ofmedical and engineering literature, use of available engineering and graphics software, and exploring biomedical engineering career opportunities. Continued emphasis on design teamdevelopment with specific emphasis on failuremode effects analysis (FMEA), institutional review board (IRB), and systemtesting. Level one design requirements will be presented at a formal design review. Continued use andmaintenance of the engineering logbook is required. (prereq: BE-302, BE-306, BI-374, senior standing)
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2.00 Credits
This course is a continuation of the BE design sequence and the second in a series of senior-level design courses. Particular emphasis is given to the continued application and use of project management techniques and software, structured searching ofmedical and engineering literature, use of available engineering and graphics software, and exploring biomedical engineering career opportunities. Continued emphasis on design teamdevelopment with specific emphasis on failuremode effects analysis (FMEA) for all levels of the design, institutional review board (IRB), and systemtesting. Final component level designs will be presented at a formal design review. Continued use andmaintenance of the engineering logbook is required. (prereq: BE-404)
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2.00 Credits
This is the final course of the BE design sequence and the third in a series of senior-level design courses. Particular emphasis is given to the continued application and use of project management techniques and software, structured searching ofmedical and engineering literature, use of available engineering and graphics software, and exploring biomedical engineering career opportunities. The teams' final designs will be presented at a formal design presentation and design show. Continued use andmaintenance of the engineering logbook is required. (prereq: BE-405)
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3.00 Credits
The objective of this course is to present the principles which apply to the properties and selection ofmaterials used inmedical applications. Topics includemetals, ceramics, polymers, composites, biological tissues, wound healing, and the interaction between biological tissues and artificialmaterials. (prereq:ME-207, BE-381, BI-3110)
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