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BME 6350 - Computational Neuroergonomics and Healthcare Applications
Credit Hour(s): 3
Principles and application of computational methods and technologies to neuroergonomics and neuroengineering; analysis of applications related to brain-system interface and augmented sensory perception; articulation of various methods of non-invasive neuroscience measurements.
Enrollment Restrictions: Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6410 - Biothermodynamics
Credit Hour(s): 3
Students will be able to apply first and second laws, along with constitutive equations for simple fluids to problems involving human systems,and human physiology/ biology. Department Managed Prerequisite(s): Undergraduate level BME 3211 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6421 - Biotransport
Credit Hour(s): 3
Behavior of fluids as encountered in everyday life, general and biomedical engineering applications. Properties of body fluids, solute mass transport in biological systems, fluid mechanics of blood and other fluids, oxygen mass transport. Department Managed Prerequisite(s): Undergraduate level MTH 2350 Minimum Grade of D and Undergraduate level ANT 3120 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6440 - Biomaterials
Credit Hour(s): 4
Application of materials in different biomedical fields. Design and analyses.
Corequisite(s): BME6440L
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6440L - Biomaterials Laboratory
Credit Hour(s): 0
Required laboratory for BME 6440.
Corequisite(s): BME6440
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lab
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BME 6450 - Tissue Engineering and Regenerative Medicine
Credit Hour(s): 3
Principles and underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and mechanical loading and culture conditions, for the regeneration of tissues and organs. Methods for fabricating tissue-engineered products and devices under development and currently in clinical use. Department Managed Prerequisite(s): (Undergraduate level BME 4440 Minimum Grade of D or Graduate level BME 6440 Minimum Grade of D) and (Undergraduate level ANT 3120 Minimum Grade of D or Graduate level ANT 5120 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6550 - Bioinstrumentation
Credit Hour(s): 4
Various electrodes, transducers, chemical sensors, special circuits, devices and methods for measuring biological signals and variables; therapeutic and prosthetic devices; electrical safety. Department Managed Prerequisite(s): Undergraduate level ANT 3120 Minimum Grade of D and Undergraduate level BME 3512 Minimum Grade of D and Undergraduate level BME 3530 Minimum Grade of D
Corequisite(s): BME6550L
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6550L - Bioinstrumentation Laboratory
Credit Hour(s): 0
Required laboratory for BME 6550.
Corequisite(s): BME6550
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lab
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BME 6610 - Clinical Engineering in the Developing World
Credit Hour(s): 3
Students will be exposed to the culture of a developing country; learn how to live and interact with the local people; gain an appreciation for a culture different from their own and of the limited technical resources of educational and healthcare facilities in a developing country; learn how to install and repair medical and other technical equipment with simple tools. Department Managed Prerequisite(s): Undergraduate level PHY 2410 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture/Lab Combination
Course attributes: Department Approval Required, Service Learning
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BME 6703 - Medical Imaging
Credit Hour(s): 4
Overview of the various methods used in generating images in medicine. Basic principles of the image-forming process and the physical properties of the resultant image are discussed.
Prerequisite(s): Undergraduate level PHY 2410 Minimum Grade of D and Undergraduate level ANT 3120 Minimum Grade of D
Corequisite(s): BME6703R
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6703R - Medical Imaging Recitation
Credit Hour(s): 0
Required recitation for BME 6703.
Corequisite(s): BME6703
Level: Graduate
Schedule Type(s): Recitation
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BME 6704 - Advanced Medical Imaging
Credit Hour(s): 4
Generation, effects, and detection of ionizing radiation and its application to plain radiographic imaging in medicine. Successful completion of this course entitles students to be registered users of radioactive isotopes and radiation-generating equipment.
Prerequisite(s): Undergraduate level BME 4703 Minimum Grade of D or Graduate level BME 6703 Minimum Grade of D
Corequisite(s): BME6704L
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6704L - Advanced Medical Imaging Laboratory
Credit Hour(s): 0
Required laboratory for BME 6704.
Corequisite(s): BME6704
Level: Graduate
Schedule Type(s): Lab
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BME 6710 - Optical Imaging
Credit Hour(s): 3
Biophotonics and optical imaging concepts. Basic optics, light propagation in tissue, modern microscopy techniques, diagnostic use of lasers (optical biopsies, optical spectroscopy, optical imaging), thermal aspects of light-tissue interaction, therapeutic use of laser (laser ablation, photodynamic therapy, light-activated therapy), novel technologies and applications including optical molecular imaging. Includes microscopy facility tour and small lab experiments.
Prerequisite(s): Undergraduate level PHY 2410 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 6850 - Six Sigma for Engineers
Credit Hour(s): 3
Practical application of Six Sigma tools in production and service contexts. Includes videos and case studies of real world applications. Department Managed Prerequisite(s): Graduate level IHE 6120 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 6980 - Graduate Special Topics in Biomedical Engineering I
Credit Hour(s): 1 to 5
Graduate special topics in advanced biomedical engineering. Topics vary.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
Course attributes: Department Approval Required
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BME 6990 - Graduate Independent Studies in Biomedical Engineering I
Credit Hour(s): 1 to 5
Graduate independent studies in advanced biomedical engineering. Topics vary.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BME 7110 - Biomedical Signals
Credit Hour(s): 3
Study of various techniques for the analysis and processing of biomedical signals. Main topics include time-domain and frequency-domain analysis of continuous and discrete signals, random signals and random processes, Principal Component Analysis, adaptive filtering, classical and modern spectral estimation.
Prerequisite(s): Undergraduate level BME 3530 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7112 - Processing of Medical Images
Credit Hour(s): 3
Digital image processing and its application to medical images. Topics include image display, compression, filtering, spatial versus frequency domain techniques, edge detection, morphological operations, registration and classification. Department Managed Prerequisite(s): Graduate level BME 7110 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 7113 - Medical Image Analysis and Visualization
Credit Hour(s): 3
Topics of 2-D and 3-D image segmentation and registration; 2-D and 3-D feature selection; validation methods; and visualization techniques for volumetric medical images are covered. Department Managed Prerequisite(s): Graduate level BME 7112 Minimum Grade of D or Undergraduate level CEG 4500 Minimum Grade of D or Graduate level CEG 6500 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7131 - Medical Ultrasonics
Credit Hour(s): 3
Fundamentals of medical ultrasonics: ultrasound generation, propagation, scattering, and attenuation in biological tissue. Traditional A-mode, B-mode, M-mode, Doppler techniques and advanced ultrasound imaging techniques. Department Managed Prerequisite(s): Undergraduate level BME 4702 Minimum Grade of D or Graduate level BME 6702 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7132 - Computed Tomography
Credit Hour(s): 3
Principles of generating images from projections. Discussion of specific problems like beam hardening, scatter, metal artefacts, etc.. Focus on quantitative imaging in medical applications. Department Managed Prerequisite(s): Undergraduate level BME 4702 Minimum Grade of D or Graduate level BME 6702 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 7133 - Nuclear Magnetic Resonance in Medicine
Credit Hour(s): 3
Principles of imaging and spectroscopy of nuclear magnetic resonance in their applications to medicine. Topics include magnetization models, material and spatial encoding, cardiac MRI, perfusion imaging, functional MRI etc. Department Managed Prerequisite(s): Undergraduate level BME 4702 Minimum Grade of D or Graduate level BME 6702 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 7135 - Photon Emission Imaging
Credit Hour(s): 3
Principles of imaging procedures based on radioactive isotopes. Topics include radioactive isotopes, gamma camera physics, single-photon-emission tomography, and positron-emission tomography. Each topic covers instrumentation, image production, and major applications. Department Managed Prerequisite(s): Undergraduate level BME 4702 Minimum Grade of D or Graduate level BME 6702 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 7136 - Instrumentation for Radiation Measurement
Credit Hour(s): 3
Theoretical and practical consideration of radiation detectors and associated instrumentation, with focus on measurement of gamma radiation in the diagnostic energy range. Identification of metrics used to characterize system performance; quality assurance of imaging components. Department Managed Prerequisite(s): Graduate level BME 6701 Minimum Grade of D
Corequisite(s): BME7136L
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BME 7136L - Instrumentation for Radiation Measurement Laboratory
Credit Hour(s): 0
Required laborator for BME 7136.
Corequisite(s): BME7136
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lab
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BME 7140 - Biomedical Optics
Credit Hour(s): 3
Quantitative biomedical optics, principles and applications of light propagation in biological tissues; optical imaging contrasts, light transport models including photon diffusion in living tissue; optical devices for light-based diagnostics for cancer detection, brain function monitoring; light-based therapies as alternative treatment for cancer and brain diseases. Application of concepts in lab experiments. Presentation of translational research of optical methods and clinical applications.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7210 - Orthopaedic and Prosthetic Engineering
Credit Hour(s): 3
The course enables the student to use engineering techniques in orthopaedic and prosthetic applications. Students also learn some of the human anatomy and terminology used by physicians and other practitioners so that they may become more literate and better able to communicate with the latter professions and to understand the literature in this field of biomechanics. Department Managed Prerequisite(s): Undergraduate level BME 3212 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7220 - Experimental Orthopaedic Engineering
Credit Hour(s): 3
The course prepares the students to learn design aspects used in orthopaedic devices. It introduces the learner the components and designs of total joint replacement implants and fixation methods. Students research FDA application categories for various types of devices.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7310 - Advanced Ergonomics
Credit Hour(s): 3
Design of workstations and hand-tools using physiology and biomechanics approach. Ergonomic analysis of assembly, machining and manual material handling operations. Practical solutions and real world case studies to improve productivity and reduce workers compensation costs. Department Managed Prerequisite(s): Graduate level IHE 6310 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7370 - Medical Devices
Credit Hour(s): 3
For students who are interested in acquiring a broad-based knowledge in the human factors of medical instrumentation and devices. Approaches the design and implementation of medical technology from the perspective of patient safety and product usability. Topics to be covered will range from design guideline considerations, tools for usability analysis, and emerging trends and technologies. Department Managed Prerequisite(s): Graduate level IHE 6300 Minimum Grade of D or Undergraduate level ISE 4300 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7371 - Failure Analysis of Medical Devices
Credit Hour(s): 3
Failure modes of medical devices. Common medical devices such as total joint replacement implants, fixation plates and screws, intermedullary nails, pace makers, other implantable products. Procedures to conduct failure cause investigations within the guidelines developed by regulatory agencies.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7380 - From Neurons to Behavior in Health and Disease
Credit Hour(s): 3
The course presents the stretch reflex as an example of a neural circuit and how it mediates movement. Discussion of the neuronal components that form the stretch reflex circuit and how electrical signals are generated and processed in this circuit under normal and pathological conditions.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7521 - Advanced Biotransport
Credit Hour(s): 3
Application of advanced principles of transport phenomena, including the solution of the conservation equations of momentum and mass transfer to model biological systems; analysis of the physiological characteristics of biological systems and evaluation of their implication in biological transport.
Prerequisite(s): Graduate level BME 6421 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7530 - Nanomedicine Fundamentals
Credit Hour(s): 3
The purpose of this introductory course is to provide an overview of the distinctive features of nanotechnology and their application to bio-medical problems. The course contrasts macro/micro/nano to bring out the unique properties of nanotechnology in nanomedicine. Cutting-edge nanomedical technologies for sensing and imaging, drug delivery, and therapeutic applications will be addressed. Department Managed Prerequisite(s): (Undergraduate level BME 4440 Minimum Grade of D or Graduate level BME 6440 Minimum Grade of D) and (Undergraduate level ANT 3120 Minimum Grade of D or Graduate level ANT 5120 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7850 - Lean Process Improvement for Engineers
Credit Hour(s): 3
Introduction to the practical application of lean manufacturing and kaizen techniques in multiple environments. Includes case studies and team projects based on real world problems and solutions. Department Managed Prerequisite(s): Graduate level IHE 6310 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
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BME 7930 - M.S. Non-Thesis Research in Biomedical Engineering
Credit Hour(s): 1 to 8
M.S. Non-Thesis Research in Biomedical Engineering
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BME 7950 - M.S. Thesis Research in Biomedical Engineering
Credit Hour(s): 1 to 8
M.S. Thesis Research in Biomedical Engineering
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BME 7980 - Graduate Special Topics in Biomedical Engineering II
Credit Hour(s): 1 to 5
Graduate special topics in advanced biomedical engineering. Topics vary.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Lecture
Course attributes: Department Approval Required
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BME 7990 - Graduate Independent Studies in Biomedical Engineering II
Credit Hour(s): 1 to 5
Graduate independent studies in advanced biomedical engineering. Topics vary.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BME 8930 - Ph.D. Non-Dissertation Research in Biomedical Engineering
Credit Hour(s): 1 to 8
Ph.D. Non-Dissertation Research in Biomedical Engineering.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BME 8950 - Ph.D. Dissertation Research in Biomedical Engineering
Credit Hour(s): 1 to 8
Ph.D. Dissertation Research in Biomedical Engineering
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Colleges: College of Egr & Computer Sci.
Level: Graduate
Schedule Type(s): Independent Study
Course attributes: Department Approval Required
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BMS 6550 - Advanced Linear Algebra
Credit Hour(s): 3
Basic principles of linear independence, spanning sets, bases, and dimension. Linear transformations, matrix representations of linear transformations, and determinants. Spectral theory of square matrices, Jordan canonical form. Perron-Frobenius results on positive matrices.
Prerequisite(s): Undergraduate level MTH 2530 Minimum Grade of D and Undergraduate level MTH 2800 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 6640 - Computational Statistics
Credit Hour(s): 3
Random number generation and Monte Carlo methods. The bootstrap and permutation tests. Numerical methods for optimization related to maximum likelihood estimation. Nonparametric density estimation. Monte Carlo Markov Chain (MCMC) methods. Classification and regression trees. Software used for the course includes SPLUS or R.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 6740 - Advanced Stat Methods
Credit Hour(s): .5
Practical, applied coverage of basic statistical principles and terminology, ANOVA, multiple and logistic regression, sample size issues and experimental design. Biomedical data examples, review of computer output and class exercises are provided.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7030 - Research Ethics
Credit Hour(s): .5
(Also listed as BMB 7030.) Research ethics emphasizes the evaluation of hypothetical ethical scenarios in biomedical research. Class discussion is based on integrating ethical policy and practices as they relate to research at Wright State and beyond.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7050 - Applied Linear Techniques
Credit Hour(s): 3
Graduate level linear engineering methods in finite and infinite dimensions.
Prerequisite(s): Graduate level BMS 6640 Minimum Grade of D and Graduate level BMS 6980 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7060 - Modern Control I
Credit Hour(s): 3
State variable representations of continuous and discrete systems. Linear vector spaces and similarity transformations; elgen-analysis, time and transform domain solutions of linear state equations; controllability, observability, and stability of linear systems.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7080 - Digital Signal Processing: Theory, Application and Implementation
Credit Hour(s): 3
Introduces principles and applications of digital signal processing (DSP) from the design and implementation perspective. Introduction to advanced digital signal processing design concepts. Focus on time and frequency domain algorithms. Methods include multirate signal processing. Filter banks, time-frequency analysis, and wavelets.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7100 - Continuous Control Systems
Credit Hour(s): 3
Introductory course providing students with a general control background. Major topics include block diagrams and signal-flow graphs, electromechanical modeling, time response, root locus, and design of PID controllers.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7110 - Biomedical Signals
Credit Hour(s): 3
Study of techniques for the analysis of signals and systems, with a particular emphasis on the use of mathematical tools for analysis of medical imaging systems and data. Time-domain and frequency-domain analysis of continuous-time and discrete-time signals, sampling theory, 2D FFT, Fourier Slice Theorem, Radon transform, Hilbert transform.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7111 - Advanced Biomedical Signals
Credit Hour(s): 3
Characteristics and measurement of various biomedical signals; time-domain and frequency-domain, continuous and discrete signal representations; applications of digital and random signal processing methods to various biomedical signals.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7120 - Continuous Control Systems
Credit Hour(s): 3
Introductory course providing students with a general control background. Major topics include block diagrams and signal-flow graphs, electromechanical modeling, time response, root locus, and design of PID controllers.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7130 - Continuous Control Systems Laboratory
Credit Hour(s): 1
Laboratory supporting BMS 7120. Students will experience hands on learning in lab environment. Application and testing of control systems theory with electromechanical systems.
Corequisite(s): BMS7120
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lab
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BMS 7135 - Photon Emission Imaging
Credit Hour(s): 3
Principles of imaging procedures based on radioactive isotopes. Topics include radioactive isotopes, gamma camera physics, single-photon-emission tomography, and positron-emission tomography. Each topic covers instrumentation, image production, and major applications.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7136 - Instrumentation for Radiation Measurement
Credit Hour(s): 3
Theoretical and practical consideration of radiation detectors and associated instrumentation, with focus on measurement of gamma radiation in the diagnostic energy range. Identification of metrics used to characterize system performance; quality assurance of imaging components.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture/Lab Combination
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BMS 7210 - Orthopaedic and Prosthetic Engineering
Credit Hour(s): 3
The course enables the student to use engineering techniques in orthopaedic and prosthetic applications. Students also learn some of the human anatomy and terminology used by physicians and other practitioners so that they may become more literate and better able to communicate with the latter professions and to understand the literature in this field of biomechanics.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7220 - Experimental Orthopaedic Engineering
Credit Hour(s): 3
The course prepares the students to learn design aspects used in orthopaedic devices. It introduces the learner the components and designs of total joint replacement implants and fixation methods. Students research FDA application categories for various types of devices.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7260 - Synthetic Polymer Chemistry
Credit Hour(s): 2
(Also listed as CHM 6610.) Step-growth and chain-growth polymerization in homogeneous and heterogeneous media; properties of commercial polymers.
Prerequisite(s): Undergraduate level CHM 2120 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7270 - Proteins and Enzymes
Credit Hour(s): 3
Also listed as BMB 7270. Current concepts in protein structure and function and the mechanism of enzymatic catalysis.
Prerequisite(s): Graduate level BMS 7500 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7310 - Advanced Ergonomics
Credit Hour(s): 3
Design of workstations and hand-tools using Physiology and Biomechanics approach. Ergonomic analysis of assembly, machining and manual material handling operations. Practical solutions and real world case studies to improve productivity and reduce Workers Compensation costs.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7315 - Ergonomic Engineering
Credit Hour(s): 3
Advanced applications from a variety of bioengineering subfields are identified and defined with respect to their importance in the practice of human factors engineering.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7330 - Advanced Inorganic Chemistry I
Credit Hour(s): 2
Study of the modern theories of valence, structural inorganic chemistry, and the chemistry of nonmetals.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7331 - Quantitative Workload Analysis
Credit Hour(s): 3
Physiological and mathematical methods needed to accomplish a workload analysis as requisite to a system design or a redesign of an ergonomic system.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7335 - Ergonomic Biodynamics
Credit Hour(s): 3
Covers quantitative assessment of human motions. Mathematical descriptions include anthropometry, kinematics, kinetics and energetics. The methods of kinesiology, biomechanical modeling and electromyography are emphasized.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7340 - Advanced Inorganic Chemistry II
Credit Hour(s): 2
Thorough examination of the chemistry of metals stressing the transition elements, ligand field theory, and mechanisms of inorganic reactions.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7350 - Human Control Engineering
Credit Hour(s): 3
Modeling, design and analysis of the physiological and cognitive performance of the human operator. Human-environmental interactions are characterized as biothermal control systems. Human-technological interactions are characterized as informative control systems.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7360 - Chemical Kinetics
Credit Hour(s): 2
Characterization of simple and complex kinetic systems, experimental techniques, methods of data analyses, kinetic theories, reactions in gas phase, in solution and chemical chain reactions, deduction of reaction mechanisms from experimental rate laws.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7370 - Thermodynamics
Credit Hour(s): 2
Fundamentals of chemical thermodynamics; first, second, and third laws; applications to solutions.
Prerequisite(s): Undergraduate level CHM 3520 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7410 - Structural Concepts in Organic Chemistry
Credit Hour(s): 2
Study of molecular orbital theory, reactive species, theories of acids and bases, and an introduction to stereochemistry.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7411 - Rehabilitation Engineering Design I
Credit Hour(s): 3
Application of knowledge and experience in the rehabilitation engineering design, research and development process. Includes navigating funding issues.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7412 - Rehabilitation Engineering Design II
Credit Hour(s): 3
Continuation of BMS 7411. Application of knowledge and experience in the rehabilitation engineering design, research and development process. Includes navigating funding issues.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7421 - Rehabilitation Engineering Systems I
Credit Hour(s): 3
Introduces the complex structure of the rehabilitation engineering service delivery systems practiced in the United States. Covers basic disability areas, current laws, resources, and rehabilitation technology.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7422 - Rehabilitation Engineering Systems II
Credit Hour(s): 3
Design and application of assistive devices used in rehabilitation of people with disabilities in various systems. Provides an understanding of the problems faced by people with disabilities, and the variety of possible solutions to these problems.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7450 - Rehabilitation Engineering Service Delivery
Credit Hour(s): 3
Introduces rehabilitation engineering design principles. Includes practical design experiences in worksite modification, ergonomics, and accessibility evaluations. Provides experience in technical report writing and presentation.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7461 - Rehabilitation Engineering Computers I
Credit Hour(s): 3
Introduces adaptive computer access hardware and software solutions for various disability populations in detail. Covers basic principles of programming with application to rehabilitation engineering. Lecture and lab are combined.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture/Lab Combination
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BMS 7462 - Rehabilitation Engineering Computers II
Credit Hour(s): 3
Continuation of BMS 7461. Focuses on development of computer application programs and assistive devices for people with disabilities.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7480 - Rehabilitation Engineering Introduction to Clinical Practice
Credit Hour(s): 3
Introduces clinical practices and interdisciplinary services provided to individuals with disabilities receiving services from various rehabilitation service delivery systems. Focuses on testing, evaluation, and training in multiple disability specialty areas.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7500 - Molecular Biochemistry I
Credit Hour(s): 3
Also listed as BMB 7500. Survey course emphasizing experimental and problem-solving approaches to understanding amino acids, protein structure, enzymes, nucleic acid structure and DNA replication.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7520 - Molecular Biochemistry II
Credit Hour(s): 3
Survey course emphasizing an experimental and problem-solving approach to metabolism, nucleic-acid function, protein synthesis, membranes and hormones.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7530 - Molecular Signalling-Molecular Cell Biology
Credit Hour(s): 3
Also listed as BMB 7530. A molecular analysis of information transfer into and within cells.
Prerequisite(s): Graduate level BMB 7520 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7600 - Molecular Biology of the Nucleus
Credit Hour(s): 3
(Also listed as BMB 760.) A literature-based course covering molecular events in the nucleus including DNA replication, repair, recombination, and transcription.
Prerequisite(s): Graduate level BMS 7520 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7630 - In Vivo NMR Spectroscopy and Imaging
Credit Hour(s): 3
Also listed as BMS 7630 and BME 7134. Discusses the applications of NMR spectroscopy to the study of tissue metabolism in vivo. The fundamental theory of magnetic resonance imaging, with a survey of clinical applications, is also presented.
Prerequisite(s): Undergraduate level BME 4702 Minimum Grade of D or Graduate level BME 6702 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7650 - Computational Tools and Strategies in Biomed Sciences
Credit Hour(s): 2 to 3
This is a survey course of modern computational tools and strategies used in sequence, e-D structure and functional analysis of biomolecules. Students will gain hands on “laboratory” experience with key software and strategies.
Prerequisite(s): Graduate level BMS 7500 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7670 - Molecular Basis of Inherited Disease
Credit Hour(s): 3
An intensive course on human diseases at all levels; replicational, transcriptional, translational, protein expression, protein folding and processing, protein structure and function, cellular metabolic changes, nuclear and cellular phenotypic changes, symptoms, and putative therapies.
Prerequisite(s): Graduate level BMS 7520 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Seminar
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BMS 7750 - Pathogenic Mechanisms
Credit Hour(s): 4
(Also listed as M&I 6750.) This advanced level course will expand the knowledge of basic microbiology by focusing on human-microbial pathogen interactions. The molecular basis of the pathogenic mechanisms will be emphasized. In addition, the student will gain a better appreciation and understanding of the complexities of interactions between microbes and their human hosts.
4.0 Credit hours
Prerequisite(s): Graduate level BMS 8020 Minimum Grade of D
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7770 - Gene Therapy
Credit Hour(s): 3
(Also listed as M&I 7770.) The molecular basis of gene therapy and the use of viral gene delivery systems for the treatment of human disease are examined. Gene therapy strategies are contrasted with various diseases, including cancer and AIDS.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7780 - Cell Biology
Credit Hour(s): 3
Topics include but not limited to a review of current understanding of the structure and function of cells, organelles and subcellular complexes.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 7860 - Lean Process Improvement for Engineers
Credit Hour(s): 3
Introduction to the practical application of lean manufacturing and Kaizen techniques in multiple environments. Includes case studies and team projects based on real world problems and solutions.
Enrollment Restrictions: Must be enrolled in one of the following Levels: Graduate, Medical, Professional. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8020 - Immunology
Credit Hour(s): 4
(Also listed as M&I 7260.) Fundamentals of immunobiology and basic virology. Emphasis on regulatory and cellular level of host immune responses against microbial pathogens as well as mechanisms of immunopathology, and on the characteristics and molecular biology of virus pathogens.
Prerequisite(s): Graduate level BMS 7520 Minimum Grade of D and Graduate level BMS 8350 Minimum Grade of D
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8030 - Pathogenic Microbiology
Credit Hour(s): 4
(Also listed as M&I 7270.) Microorganisms pathogenic for humans and animals using the organ system approach. Emphasis on mechanisms of pathogenesis and host resistance. Includes a project segment devoted to the independent study of the mechanisms of pathogenesis in the host-parasite interactions of the infectious agents used.
Prerequisite(s): Graduate level BMS 7520 Minimum Grade of D and Graduate level BMS 8350 Minimum Grade of D
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8050 - Intercellular Communication
Credit Hour(s): 3
Introduces the concepts of intercellular communication through an interdisciplinary presentation of immune and neuroendocrine system functions. Emphasizes the similarities between the systems and the multidis-ciplinary approaches used to study each.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8070 - Virology
Credit Hour(s): 3
(Also listed as M&I 7310.) This course provides an introduction to the field of virology. The course emphasizes the intrinsic properties of viruses that cause human disease and their interaction with cells, multiplication, genetics, and tumor induction.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8170 - Biological Safety
Credit Hour(s): 2
Identification, handling, and containment of potentially hazardous biological materials, including microorganisms and recombinant DNA.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8370 - Human Gross Anatomy
Credit Hour(s): 6
(Also listed as ANT 7110.) Lectures and dissection of human cadaver donor.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture/Lab Combination
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BMS 8380 - Human Microanatomy
Credit Hour(s): 5
Detailed microanatomy of human cells, tissues, and organ systems.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture/Lab Combination
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BMS 8530 - Ion Channels
Credit Hour(s): 3
(Also listed as P&B 7220.) This course explores the role of ion channels in a variety of cell types with an emphasis on both electrophysiological and biochemical methods for evaluation of channel function.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8560 - Glial Cell Physiology
Credit Hour(s): 2
(Also listed as P&B 6500.) Concepts of glial cell physiology based on the analysis of current primary literature. Topics include interactions between glia and other cell types and the role of glia in pathophysiology.
Prerequisite(s): Graduate level BMS 8650 Minimum Grade of D
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8620 - Human Physiology
Credit Hour(s): 4
(Also listed as P&N 6100.) An overview of human/mammalian organ physiology. Fundamental mechanisms and the experimental basis for current understanding is emphasized. Prerequisite: Introductory biology, chemistry, physics, or permission of instructor.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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BMS 8630 - Principles of Biomedical Research
Credit Hour(s): 1
Principles of Biomedical Research is appropriate for students that will be involved in biomedical research. PBR provides a lecture and student interactive series designed to introduce students to the basics of biomedical research.
Enrollment Restrictions: May not be enrolled in one of the following Levels: Undergraduate. Must be enrolled in one of the following Programs: Biomedical Sciences - PHD.
Level: Graduate
Schedule Type(s): Lecture
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