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Course Criteria
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3.00 Credits
Principles of momentum, mass and heat transfer; description of blood flow, trans-capillary, interstitial, lymphatic fluid transport and pulmonary gas exchange. Applications in the design of blood oxygenator, dialysis devices, and strategies in drug delivery, hyperthermia treatment. Prerequisite: BE 3310, BE 3320, completed or concurrent BE 3380, BIOL 1442, EE 3317 (or MAE 3317), MATH 3319, PHYS 1444
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3.00 Credits
This laboratory course focuses on the use of microscopy in the life sciences, ranging from the principles of optics to the use of specialized microscopic techniques to investigate the structure and behavior of various types of cells. Students learn to use both phase and fluorescence microscopy and capture digital stills and movies with both. Students will learn how to fix and stain cells for greater exposure fo the cell details. Course will include taking and analyzing images using transmission electron microscopes and scanning electron microscopes. Prerequisite: BIOL 1442, BIOL 3301, MAE 3319 (or EE 3317), MATH 3319, PHYS 1444
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3.00 Credits
First of two courses in design of biomedical systems and processes. Major design project in biomedical engineering, incorporating engineering standards and realistic design constraints. This course prepares students through a major design experience incorporating engineering principles and realistic constraints that include most of the following considerations: economic, environmental, sustainability, manufacturability, ethical, health and safety, and social consideration. Prerequisite: Instructor permission required.
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3.00 Credits
Second of two courses in design of biomedical systems and processes. Major design project in biomedical engineering, incorporating engineering standards and realistic design constraints. This course prepares students through a major design experience incorporating engineering principles and realistic constraints that include most of the following considerations: economic, environmental, sustainability, manufacturability, ethical, health and safety, and social considerations. Prerequisite: BE 4350.
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3.00 Credits
This course instructs the students in the physics of ultrasound transducers, their operation, and their biomedical applications. The material includes modeling of the interaction of acoustic waves with various types of tissue and cells. Mathematical methods for analyzing the reflected and refracted waves as well as constructing images from the waves will be covered. Prerequisite: BE 3380, MAE 3319 (or EE 3317), MATH 3319, PHYS 1444.
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3.00 Credits
Fundamentals of cell/extracellular matrix interactions in terms of cell spreading, migration, proliferation and function; soft and hard tissue wound healing and nerve regeneration; polymer scaffolding materials and fabrication methods; cell-polymer interactions; in vitro and in vivo tissue culture and organ replacement. Prerequisite: CHEM 2181, CHEM 2321, MATH 3319, PHYS 1444.
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3.00 Credits
Each student will be given the opportunity to perform the techniques commonly used in tissue engineering and biomaterial research. These techniques are culture media preparation, cell culture/subculture, degradable scaffold preparation, scaffold modification, histological sections and staining, and cell imaging analyses. Prerequisite: BE 3380, BE 4364.
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3.00 Credits
Principles and methods and measurement, data acquisition, and analysis. Application of control theory in biological systems and in biotechnology processes; control of pressure, flow, tempterature, and pH. Prerequisite: BE 3380, EE 3317 (or MAE 3319), MATH 3319, PHYS 1444.
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3.00 Credits
This class will provide students with hands-on experience for developing drug delivery systems such as microparticles and nanoparticles that deliver pharmaceutical agents to treat various diseases. The emphasis is on understanding the principles of pharmacokinetics and drug deilvery systems to improve the clinical efficacy and reduce side effects. Prerequisite: BE 3380, CHEM 2182, CHEM 2321, concurrent or completed CHEM 4311, MATH 3319, PHYS 1444.
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3.00 Credits
Introduction to fundamental biomedical engineering laboratory procedures including human studies and animal surgery; includes clinical laboratory projects, data collection, analysis, and interpretation. Prerequisite: BE 3320, BE 3380, EE 3317 (or MAE 3319), MATH 3319, PHYS 1444.
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