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BIOE 501    Cellular and Molecular Bioengineering   (3-0-3)

Cells and Genomes, Bioenergetics, Chromosomes, DNA Replication, Repair, and Recombination, Central Dogma, Control of Gene Expression, Recombinant DNA Technology, Membrane Transport, Intracellular Compartments, Protein Sorting and Membrane Traffic, Cell Signaling, Cell Junctions and Extracellular Matrix.

Prerequisite: Graduate Standing


BIOE 502    Anatomy and Physiology for Engineers   (3-0-3)

Advanced concepts of animal physiology, including nervous, sensory, muscular, respiratory, renal, and cardiovascular systems, metabolic energy and homeostasis, digestive, endocrine, immune, and reproductive systems, and bioengineering applications of human physiology.

Prerequisite: Graduate Standing

BIOE 503    Concepts in Bioengineering    (3-0-3)

Introduction to engineering calculations, conservation laws in biological systems, bioreactor configurations, drug delivery, stem cell and tissue engineering. Biomechanics, biomaterials, bioinstrumentation, bioimaging, biosignals, biosensors. Bioengineering ethics and entrepreneurship.

Prerequisite: Graduate Standing

BIOE 504    Statistics for Bioengineers    (3-0-3)

Biostatistics, probability, distributions, hypothesis testing person-time data analysis, variance, regression, correlation analysis, epidemiologic studies, death, fertility, morbidity, and statistical applications in bioengineering.

Prerequisite: Graduate Standing

 


BIOE 511    Design & Use of Biomaterials   (3-0-3)

Biomaterials biology and biochemistry fundamentals, properties of materials used in medical applications, classes of materials used in medicine, host reactions involved in biomaterial, biological testing of biomaterials, degradation of materials in the biological systems, applications of materials in medicine and artificial organs, tissue engineering.

Prerequisite: Graduate Standing

 

BIOE 512    Advanced transport phenomena in Bioengineering    (3-0-3)

 

Transport system in biological system; Transcellular and physiological transport system; Conservation relations for fluid transport, dimensional analysis, and scaling; Fluid flow in the circulation and tissue, Mass transport in biological systems; Mass transport and biochemical interaction, Energy transport in biological system.

Prerequisite: Graduate Standing

 

BIOE 513    Principles and Applications of Tissue Engineering    (3-0-3)

Introduction to tissue engineering, Dynamics of extracellular extraction, Engineering the functional tissue, Bioreactor design, In-vivo synthesis of tissue engineering, Scaffold and biopolymer, Transplantation of cells and tissue, and Stem cells. 

Prerequisite: Graduate Standing

 

BIOE 514    Drug and Gene Delivery    (3-0-3)

Principles of controlled release, water solubility of drugs, epithelial barriers, nanotechnologies, and routes for drug delivery and targeting, long-acting injections and implants, transdermal and nasal drug delivery, drug delivery to the central nervous system, gene delivery systems.

Prerequisite: Graduate Standing

 

BIOE 521    Computational Biomechanics    (3-0-3)

Fundamental conservation principles. Fluid dynamics in biological systems. Numerical techniques. Parameter estimation. Finite difference. Numerical integration. Finite element methods. Model physiological functions. Biological system behavior prediction.

Prerequisite: Graduate Standing

 

 

BIOE 522    Musculoskeletal Biomechanics    (3-0-3)

Foundational understanding of Anatomy and Physiology. Mechanics of muscles, tendons, ligaments, menisci, and Bones. Application of motion equations. Human movement. Analytical and numerical methods of biomechanics. Experimental techniques in biomechanical research.

Prerequisite: Graduate Standing

 

BIOE 523    Multiscale Biomechanics     (3-0-3)

Applying scaling laws and continuum mechanics to biomechanics. Exploring multiple scales from molecules to cells and tissues. Tissue structure and its impact on macroscopic properties. Chemical and electrical effects on mechanical behavior. Cell mechanics and biomembranes. Studying structures at tissue, cellular, and molecular levels using theoretical and experimental techniques.

Prerequisite: Graduate Standing

 

BIOE 524    Mechanics of Biological Materials   (3-0-3)

Studying how bone, cells, and collagen react to forces. Exploring insights into material structure impacting biomechanics. Development of high-performance biomimetic materials.

Prerequisite: Graduate Standing

 

BIOE 532    Biophotonics     (3-0-3)

Overview of Biophotonics. Basic Principles of Light. Optical Fibers for Biophotonics Applications. Fundamentals of Light Sources. Fundamentals of Optical Detectors. Light-Tissue Interactions. Optical Probes and Biosensors. Microscopy. Spectroscopic Methodologies. Optical Imaging Procedures. Biophotonics Technology Applications.

Prerequisite: Graduate Standing

 

BIOE 533    Biomedical Instrumentation     (3-0-3)

Overview of Biomedical Instrumentation. Sensors and Transducers. Signal Filtering and Amplification. Data Acquisition and Signal Processing. Electrocardiography. Electroencephalography. Digital Hearing Aids. Mobile Health, Wearable Health Technology and Wireless Implanted Devices. Safety of Biomedical Instruments and Devices.

Prerequisite: Graduate Standing

 

BIOE 534    Biosensors      (3-0-3)

Introduction to Sensor-Based Measurement Systems. Transducer Technologies. Resistive, Reactance Variation, and Electromagnetic Sensors. Temperature and pressure sensors. Electrochemical and chemical biosensors. Optical sensors. Signal Conditioning. Self-Generating Sensors. Digital and Intelligent Sensors. Miniaturization and Microfabrication. Biosensor Characterization. Bioanalytical Applications. Emerging Trends in Biosensors. Regulatory and Ethical Considerations. Future Directions and Challenges.

Prerequisite: Graduate Standing

 

BIOE 535    Systems, Signals, and Controls for Bioengineers      (3-0-3)

Discrete- and continuous-time signals; basic system properties. Linear time-invariant systems; convolution. Frequency domain analysis; filtering; sampling. Laplace and Fourier transform; transfer functions; poles and zeros; transient and steady-state response. Z-transforms. Dynamic behavior and PID control of first- and second-order processes. Stability. Applications to biological systems, such as central nervous, cognitive, and motor systems.

Prerequisite: Graduate Standing

 

BIOE 536    Medical Imaging      (3-0-3)

Introduction. System Theory. Image Processing. Endoscopy. Microscopy. Magnetic Resonance Imaging. X-ray Imaging. Computed Tomography. X-ray Phase Contrast: Research on a Future Imaging Modality. Emission Tomography. Ultrasound. Optical Coherence Tomography.

Prerequisite: Graduate Standing

 

BIOE 551    Quality Control in Biotechnology      (3-0-3)

Quality control, regulatory affairs, quality assurance, practices, documentation, process validation, ethical considerations, biotechnology operations, biomanufacturing, non-clinical development, clinical development, and project management.

Prerequisite: Graduate Standing

 

BIOE 553    Environmental Biological Processes     (3-0-3)

Microbial growth kinetics, bioenergetics, biological treatment processes, land treatment, suspended-growth, and fixed-film processes, composting, hazardous waste management, and bioremediation.

Prerequisite: Graduate Standing

 

BIOE 590    Special Topics in Bioengineering     (3-0-3)

Advanced topics are selected from the broad area of bioengineering. The contents of the course will be provided in detail one semester in advance of that in which it is to be offered.

Prerequisite: Graduate Standing

 

BIOE 606    Independent Research    (0-0-3)

This course is intended to allow M.Sc. students to conduct research-related independent study. The faculty offering the course should submit a research plan to be approved by the BIOE Graduate Program Committee. At the end of the course, the student should submit a report and present his work to the Department Graduate Committee. Graded on a Pass or Fail basis.

Prerequisite: Instructor’s Consent

 

BIOE 599    Seminar    (1-0-0)

Graduate students are required to attend the seminars by faculty members, visiting scholars, and fellow graduate students. Additionally, each student must present at least one seminar on a timely research topic. Among other things, this course is designed to give the students an overview of research in BIOE, and a familiarity with research methodology, journals, and professional societies in his discipline. Graded on a Pass or Fail basis.

Prerequisite: Graduate Standing

 

BIOE 610   Thesis    (0-0-6)

The student has to undertake and complete a research topic under the supervision of a faculty member in order to probe in depth a specific problem in Bioengineering. Graded on a Pass or Fail basis.

Prerequisite: BIOE 599