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Art |
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ART 7330 - Graphic Design Studio Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:6)
Formerly/Same as: ART 7330 - Graphic Communications Studio.
Prerequisite: Graduate standing in art or consent of instructor.
May be repeated for credit.
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ART 7360 - Sculpture Studio Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:6)
Prerequisite: graduate standing in art or consent of the instructor.
May be repeated for credit.
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ART 7385 - Interdisciplinary Practice and Emerging Forms Studio Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:6)
Formerly/Same as: ART 7385 - Interdisciplinary Studio.
Prerequisite: Graduate standing in art or consent of instructor.
Project and concept-based studio research in areas that operate between and beyond traditional disciplines, with an emphasis on developing critical thinking and contextual skills.
May be repeated for credit.
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ART 7398 - Independent Study Credit Hours: 3.0 (; )
Prerequisite: graduate standing in art and consent of instructor and the graduate advisor.
Supervised independent study in studio art and design.
May be repeated for a maximum of nine semester hours.
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Art Education |
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ARED 6315 - History/Philosophy of Art Ed Credit Hours: 3.0 (; )
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ARED 6325 - Selected Crafts for the Secondary School Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: baccalaureate in art.
Survey of traditional crafts and their application in contemporary society with emphasis on materials, processes, and design adaptable to secondary art programs.
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ARED 6345 - Art in the Elementary and Secondary Schools Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:3)
Prerequisite: Admission to Professional Development Sequence.
Field-based course that introduces curriculum planning and organization, instructional methods, and management strategies for teaching art in the elementary and secondary schools.
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ARED 6350 - Art Education Technology Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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ARED 6365 - Integrative Art Teaching Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:3)
Methods of integrating art criticism, art history, aesthetics, studio art, museum practices, and contemporary issues into K-12 art curricula.
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ARED 7305 - History of Art Education Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Art education as a social instrument is studied in the context of general culture.
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ARED 7315 - Philosophy of Art Education Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Exploration of philosophy of art education. Aesthetics is studied in terms of its application to contemporary issues in art education.
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ARED 7340 - Theory and Practice Related to Art Museum Education Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Exploration of historical and contemporary theories and practice in art museums. Students actively use Houston area museums and community arts organizations as sites of learning for the course.
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ARED 7350 - Curriculum Development in Art Education Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: ARED 63060 or equivalent.
Study and application of principles of art education curriculum design, development, and evaluation.
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ARED 7352 - Issues and Trends in Art Education Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Examination and analysis of selected current issues, trends, and problems in art education.
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ARED 7354 - Problems in Art Educ Credit Hours: 3.0 (; )
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ARED 8350 - Concepts of Art Educ Credit Hours: 3.0 (; )
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Biochemical and Biophysical Sciences |
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BCHS 6113 - Graduate Biochemistry Seminar Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
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BCHS 6198 - Special Problems Credit Hours: 1.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 6199 - Master’s Thesis Credit Hours: 1.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 6201 - Methods in Molecular Biology Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 and BIOL 4320 or BCHS 4306 or equivalents or consent of instructor.
Current methods and techniques in molecular biology. Bacterial host strains, expression systems, mutagenesis, DNA library construction and screening, DNA mapping and sequencing and polymerase chain reaction methods.
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BCHS 6202 - Chemical Biology Credit Hours: 0.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: Consent of instructor.
This is an indterdisciplinary course covering fundamental chemical princples and their applications in studies of biomolecules, methods and working principles of biomolecular assays, and the design of these experiments.
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BCHS 6205 - Cell Signaling Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and consent of instructor.
Biochemistry of cellular responses to environmental signals at the molecular level.
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BCHS 6206 - Molecular Modeling of Biological Macromolecules Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:2)
Prerequisite: BCHS 3304 and CHEM 4370 or 4373 or equivalents or consent of the instructor.
Advanced computer-based molecular modeling methods, with emphasis on their practical aspects and limitations. Individual research projects using UNIX-based Silicon Graphics computers.
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BCHS 6208 - Biochemistry of Organelles Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and consent of instructor.
Organization of mitochondrial and chloroplast membranes. Biochemical and biophysical aspects of electron transfer in photosynthetic organelles. Molecular organization of genes and proteins involved in biochemical energy transduction.
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BCHS 6209 - Protein Biosynthesis Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3304.
Aspects of protein synthesis including ribosome structure, ribosomal RNA structure and function, translation inhibitors, identification of tRNAs, and involvement of tRNA in coding/decoding.
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BCHS 6226 - Enzyme Catalysis and Kinetics Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and graduate standing or consent of instructor.
Principles of enzymatic catalysis. Methods and principles of enzyme kinetic analysis.
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BCHS 6227 - Membranes and Signal Transduction Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and graduate standing or consent of instructor.
Membrane biochemistry: metabolism, properties, and structures of membrane lipids; biochemistry of membrane proteins; structure and composition; physical techniques for study; lateral and transverse asymmetry; electrophysiological properties; permeability and partitioning; pores, channels, and transporters; signal transduction.
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BCHS 6228 - Advanced Nucleic Acids Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 4306 and graduate standing or consent of instructor.
Nucleic acid structure, function, and interactions with proteins.
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BCHS 6229 - Protein Structure and Function Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and graduate standing or consent of instructor.
Protein structure/function relationships as exemplified in current structural biology literature.
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BCHS 6230 - Graduate Biochemistry Laboratory Rotation I Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:6)
Prerequisite: BCHS 3305 and BCHS 3201 or consent of instructor.
Instruction in contemporary concepts and research methodology in several areas of biochemistry.
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BCHS 6231 - Graduate Biochemistry Laboratory Rotation II Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:6)
Prerequisite: BCHS 6230 .
Instruction in contemporary concepts and research methodology in several areas of biochemistry.
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BCHS 6233 - Advanced Microbial Physiology Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Formerly/Same as: (also BIOL 6233 )
Prerequisite: BIOL 2333 and BIOL 3304, or consent of instructor.
Molecular and cellular mechanisms of fundamental processes in microbial physiology. Current literature and experimental techniques.
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BCHS 6234 - Chemical Biology Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 and graduate standing or consent of instructor
The use of chemical principles to address biological questions.
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BCHS 6236 - Genomics and Proteomics Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: BCHS 3305 or equivalent and graduate standing or consent of instructor
Methods and technologies in genome and proteome research.
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BCHS 6297 - Selected Topics in Biochemical and Biophysical Sciences Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: consent of instructor.
May be repeated for credit when topics vary.
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BCHS 6298 - Special Problems Credit Hours: 2.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 6299 - Master’s Thesis Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 6324 - Bioinformatics for Biologists Credit Hours: 3.0 (Lecture Contact Hours:4; Lab Contact Hours:1)
Prerequisite: Graduate standing; BIOL 3306 or consent of instructor.
Computer-assisted analyses of molecular data including data retrieval, database usage, sequence alignment, gene identification, phylogenetics, genomics, and proteomics. Individually designed research projects uses bioinformatic methods.
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BCHS 6397 - Sel Top-Biochm&Bphs Sci Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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BCHS 6398 - Special Problems Credit Hours: 3.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 6399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 6498 - Special Problems Credit Hours: 4.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 6598 - Special Problems Credit Hours: 5.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 7399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 7699 - Master’s Thesis Credit Hours: 6.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 8198 - Doctoral Research Credit Hours: 1.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 8199 - Doctoral Dissertation Credit Hours: 1.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 8298 - Doctoral Research Credit Hours: 2.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 8299 - Doctoral Dissertation Credit Hours: 2.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 8398 - Doctoral Research Credit Hours: 3.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 8399 - Doctoral Dissertation Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 8498 - Doctoral Research Credit Hours: 4.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 8598 - Doctoral Research Credit Hours: 5.0 (; )
Prerequisite: consent of instructor and approval of chair.
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BCHS 8698 - Doctoral Research Credit Hours: 6.0 (; )
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BCHS 8699 - Doctoral Dissertation Credit Hours: 6.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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BCHS 8998 - Doctoral Research Credit Hours: 9.0 (; )
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BCHS 8999 - Doctoral Dissertation Credit Hours: 9.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
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Bio-engineering |
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BIOE 5397 - Selected Topics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
May be repeated for credit when topics vary.
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BIOE 6121 - Graduate Bioengineering Seminar Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: graduate standing.
Weekly seminars
May be repeated for credit.
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BIOE 6198 - Special Problems Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
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BIOE 6298 - Special Problems Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
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BIOE 6302 - Introduction to NeuroEngineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor
Single neurons, principles of perception and movement, learning and memory, functional magnetic resonance imaging, electroencephalography, magnetoencephalography, transcranial magnetic stimulation, chemical stimulation, functional neuroanatomy.
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BIOE 6304 - Visual System: Physiology, computation, and Methods Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor.
Introduction to neuro-physiology and systematic overview of visual system: eye, retinal structure and function, retino-geniculo-cortical and cortico-cortical pathways, computational models of retinal and cortical processing, techniques for measuring neuronal activity.
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BIOE 6313 - Neural Networks Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor
Generalization of single-cell models to networks; network dynamics; feed-forward and recurrent additive, shunting equations; short-term memory; long-term memory; Hebbian and non-Hebbian learning rules; associative and competitive learning; adaptive resonance theory.
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BIOE 6316 - Computational and Bio Vision Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor
Retinal structure and function, computational models and retinal processing, retino-geniculo-cortical and cortico-cortical pathways, computational bases of information processing in visual system.
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BIOE 6323 - Fundamentals of Tissue Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: BIOE 3440 and MATH 3321 or equivalent
Fundamental concepts in tissue engineering and cell biology including structure, function, and replication.
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BIOE 6338 - Topics in Optical and Ultrasonic Imaging Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: ECE 6330 and/or consent of instructor.
Diffraction theory, Fourier optics, optical image acquisition, principles of ultrasonic imaging, ultrasonic image acquisition, imaging systems applications.
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BIOE 6340 - Quantitative Systems Biology and Disease Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Foundational background in quantitative systems biology, with a focus on biochemical systems relevant to the study of host-pathogen interactions and infectious disease.
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BIOE 6341 - Advanced Biofluid Dynamics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Mathematical modeling of fluid flow and mass transport in biological context, with applications in human physiology, membrane transport, computational methods and simulation, with readings from research literature.
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BIOE 6342 - Biomedical Signal Processing Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Principles of digital signal processing and application of the state of the art methods to the analysis of biomedical signals such as ECG, EMG, and EEG and neural decoding.
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BIOE 6343 - Global Healthcare Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Global healthcare systems, advances and applications in information technologies in biomedicine, development of new drugs, technology regulation, and ethical issues using novel technologies.
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BIOE 6344 - Advances in Regenerative Medicine and Stem Cell Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Principles as applied to tissue and organ fabrication, including cell sourcing, biomaterial synthesis, tissue fabrication technology, bioreactor design and vascularization.
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BIOE 6345 - Biomedical Informatics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Provides insights into the theoretical foundations and current applications of bioinformatics and functional genomics. Contents include algorithms and design of algorithms necessary to organize, store, retrieve and analyze data.
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BIOE 6346 - Advanced Medical Imaging Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Principles of image formation, reconstruction and processing in medical imaging.
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BIOE 6347 - Introduction to Optical Sensing and Biophotonics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Optical imaging techniques for detection of structures and functions of biological tissues, basic physics and engineering of each imaging technique with an emphasis on coherence-domain imaging.
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BIOE 6348 - Advanced Bioelectromagnetic Imaging Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing or consent of instructor.
Biomedical modeling and imaging. Principles and methods related to functional bioelectromagnetic imaging and MRI.
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BIOE 6349 - Biomedical Microdevices Credit Hours: 0.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate Standing or consent of instructor.
Discuss the design and fabrication of biomedical microdevices for clinical diagnostics. Emphasize the development of low-cost, portable devices for point-of-care diagnostics in remote, rural areas, developing world and other resource-limited settings.
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BIOE 6350 - Genomic and Proteomic Engrineering Credit Hours: 0.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate Standing or consent of instructor.
The concepts, principles and instrumentation of emerging technologies in genomics and proteomics will be introduced. The potential development and applications of these technologies in disease diagnostics, drug targets and therapy will be discussed. Students are expected to design experiments using genomic and proteomic engineering approaches.
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BIOE 6351 - Diseases and Biomarkers Credit Hours: 0.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate Standing or consent of instructor.
Surveys different diseases that are common in society, focusing on etiology, disease manifestations, and management. The goal of the student is to actively research how various biomarkers (which could be DNA, RNA, protein or metabolites) can be used to predict or track various diseases. The emphasis is not only on disease monitoring but also technology applications that are relevant for biomarker identification.
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BIOE 6352 - Advanced Systems Biology & Multiscale Modeling of Disease Credit Hours: 0.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate Standing or consent of instructor.
An overview and experience with advanced concepts in quantitative systems biology and multiscale modeling of biochemical systems relevant to the study of the molecular to cellular mechanisms of disease. Integrate mathematical and engineering concepts with principals from biochemistry, cellular, and molecular biology.
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BIOE 6360 - Biomolecular Engineering Fundamentals Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor.
Analysis and design fundamentals for biochemical processes: introductory biochemistry, microbiology, biological kinetics, reactor design, transport phenomena; applications of enzymes and single mixed microbial populations.
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BIOE 6380 - Computational and Biological Vision Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Graduate standing and/or consent of instructor.
Addresses the most difficult part of many biotechnological projects-actually producing a cloned protein in useful amounts. Some attention is also given to the use of recombinant DNA methodologies to produce proteins, and to characterization methods.
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BIOE 6393 - Cellular & Biological Transport Phenomena Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: BIOE 3440 or CHEE 3363 or equivalent
Relates basic cell biology and biophysical chemistry principles to quantitative analysis of transport phenomena and chemical reactions. Cross-listed with CHEE 6393.
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BIOE 6394 - Transport Phenomena in Physiological Systems Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: BIOE 3440 or CHEE 3363 or equivalent
Fundamental aspects of systems physiological and other life science principles with quantitative analysis of transport phenomena and chemical reactions in cells, organs and the whole body. Cross-list with CHEE 6394.
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BIOE 6396 - Special Topics in Biomedical Engineering Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Consent of Instructor.
May be repeated for credit when topics vary.
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BIOE 6397 - Selected Topics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Selected Topics
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BIOE 6398 - Special Problems Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: approval of advisor.
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BIOE 6399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:0; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
May be repeated for credit.
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BIOE 6455 - Bioanalysis Credit Hours: 4.0 (Lecture Contact Hours:3; Lab Contact Hours:3)
Prerequisite: BIOE3350, BIOE3450, BCHS3304, ENGI2304 or equivalent.
Common bioanalytical lab practices: ELISA, fluorescence assays, chromatography, and genomic techniques.
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BIOE 6498 - Special Problems Credit Hours: 4.0 (Lecture Contact Hours:4; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
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BIOE 6598 - Research Credit Hours: 5.0 (Lecture Contact Hours:5; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
May be repeated for credit.
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BIOE 7364 - Image Reconstruction and Medical Imaging Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: ECE 6364 and/or consent of instructor.
Reconstruction algorithms: backprojection, convolution, Fourier transform, ART, optimization methods, and true 3D reconstruction; image reconstruction from incomplete projections; 3D medical imaging and other applications; data acquisition and reconstruction methods in CT, PET, SPECT, Ultrasound, and MRI.
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BIOE 7397 - Selected Topics Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
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BIOE 7399 - Master’s Thesis Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
May be repeated for credit.
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BIOE 8198 - Doctoral Research Credit Hours: 1.0 (Lecture Contact Hours:1; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Can be repeated for credit.
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BIOE 8298 - Doctoral Research Credit Hours: 2.0 (Lecture Contact Hours:2; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Can be repeated for credit.
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BIOE 8398 - Doctoral Research Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Can be repeated for credit.
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BIOE 8399 - Doctoral Dissertation Credit Hours: 3.0 (Lecture Contact Hours:3; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Doctoral Dissertation
Can be repeated for credit.
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BIOE 8498 - Doctoral Research Credit Hours: 4.0 (Lecture Contact Hours:4; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Can be repeated for credit.
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BIOE 8598 - Doctoral Research Credit Hours: 5.0 (Lecture Contact Hours:5; Lab Contact Hours:0)
Prerequisite: Approval of advisor.
Can be repeated for credit.
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