This list contains previously approved coursework to meet requirements of the BME programs of work. This list is not exhaustive. If you are interested in courses not on this list, send a request to the Graduate Advisor (adunn@utexasedward.castillo@utexas.edu) and include the course number, name, and the requirement for which you want to use the course. Students must gain prior approval before enrolling in courses not on this list, with a few exceptions:
- Any graduate level course with the BIO prefix can count toward the biological and clinical sciences requirement.
- Any graduate level course with the M or SDS prefix can count toward the math and statistics requirement.
- PhD and terminal MSE students may use an upper-division undergraduate course toward the biological and clinical sciences requirement with the Graduate Advisor's approval.
Table of Contents |
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Biological and Clinical Sciences
These courses will satisfy the biological and clinical sciences requirement and technical elective requirements.
Dept. | Num. | Course Name | |||
---|---|---|---|---|---|
BCH369 | Fundamentals of Biochemistry | BCH | 387D | Physical Methods in Biochemistry and Molecular Biology | |
BCH | 394 | Structure and Function of Proteins and Nucleic Acids | |||
BCH | 395G | Structure and Function of Proteins and Membranes | |||
BIO | 336 | Tumor Biology (upper-division undergraduate level) BS/MS students cannot count this course as a graduate course if it's taken while in undergraduate standing | |||
BIO | 383 | Current Topics in Cell Biology | |||
BIO | 383 | Topics in Membrane Biology | |||
BIO | 381K | Cellular and Molecular Basis of Neuro Development | |||
BIO | 382K | Biology for Big Data Scientists | |||
BIO | 382K | Cell Membrane Trafficking | |||
BIO | 383K | Membrane Trafficking in Eukaryotic Cells | |||
BIO | 383K | Topics in Membrane Biology | |||
BIO | 384K | Phylogenetic Perspectives | |||
BIO | 394M | Tumor Biology | |||
BIO | 391P | Advanced Virology | |||
BIO | 394M | Advanced Immunology | |||
BIO | 394M | Immunology | |||
BIO | 395G | Biochemistry | |||
BIO | 395H | Cell Biology | |||
BIO | 395J | Molecular Biology | |||
BIO | 395J | Genes/Genome/Gene Expression | |||
BME | 382J | Biological Membranes and Cell Interfaces: Principles and Applications | |||
BMECH | 385J391 | Clinical CardiologyMacromolecular Chemistry | |||
CH | 391Macromolecular Chemistry | Advanced Chemical Biology | |||
CHE | 384 | Quantitative Analysis of Cell and Molecular Biology | |||
CHM | 394 | Structure and Function of Proteins and Nucleic Acids | |||
CH | 395 | Cell Biology | |||
CH | 395G | Biochemistry | CSE | 392 | Geometric Modeling and Visualization |
CSE | 397 | Pathology and Epidemiology of Cardiovascular Disease | |||
GS07 | 1113 | Microbial Physiology | |||
KIN | 395 | Advanced Exercise Physiology | |||
KIN | 395 | Cardiovascular Responses and Adaptations to Exercise | |||
KIN | 395 | Human Cardiovascular/Autonomic Physiology | |||
KIN | 395.11 | Pulmonary Exercise Physiology | |||
MEM E | 391 | Cardiovascular Pathology | |||
MEM E | 397 | Clinical Cardiology | ME | 397 | Pathology and Epidemiology of Cardiovascular Disease |
N | 396C | Advanced Pathophysiology | |||
NEU | 380G | Visual Neuroscience | |||
NEU | 381N | Basic Processes of Nerve Cells | |||
NEU | 382 | Cellular Neuroscience | |||
NEU | 383C | Functional Neuroanatomy | |||
NEU | 383D | Neuropharmacology | |||
NEU | 385L | Addiction Neuroscience | |||
NEU | 385L | Ion Channels | |||
NEU | 385L | Neurobiology of Disease | |||
NEU | 382T | Principles of Neuroscience | NEU | 386D | Multivariate Pattern Analysis |
NEU | 394P | Introduction to Sensory-Motor Systems | |||
NEU | 394P | Neurobiology of Learning and Memory | |||
NEU | 394P | Current Topics in Behavioral Neuroscience | |||
NTR | 390 | Molecular Nutritional Sciences | |||
PGS | 380F | Biomedical Pharmacology | |||
PGS | 384L | Biochemistry and Molecular Toxicology | |||
PGS | 388C | Enzyme Catalysts, Mechanisms and Applications | |||
PGS | 388K | Molecular Mechanisms and Methods in Nutrition and Cancer | |||
PHR | 391 | Advanced Pharmaceutics | |||
PHY | 382P | Biophysics & Biological Physics | |||
PSY | 387S | Principles of Cognitive Neuroscience | |||
PSY | 380E | Vision Systems | |||
PSY | 394U | Introduction to Sensory Motor Systems | |||
SLH | 391Q | Anatomy & Physiology of the Auditory System |
Math and Statistics
These courses will satisfy the math and statistics requirement and technical elective requirements. Any graduate level Math (M) or Statistics (SDS) course will fulfill this requirement.
Dept. | Num. | Course Name | |||
---|---|---|---|---|---|
ASE | 380P | Analytical Methods | |||
BME | 383380J | Topic: Mathematical Methods for Biomedical Engineering | |||
BME | 380J.1 | Mathematical Modeling in Biomedical Engineering | |||
BME | 380J | 5-Biostatistics, Study Design, and Research Methods | |||
BME | 383J.13 | Introduction to Mathematical and Physical Biology | |||
BME | 383J.14 | Mathematical Physiology | |||
CH | 382L/M | Advanced Physical Chemistry: Statistical Mechanics | |||
CSC S | 384R | Geometric Bio-Modeling and Visualization | |||
CSC S | 395T | Topic: Computational Statistics with Application to Bioinformatics | |||
CSE | 383K | Numerical Analysis: Linear Algebra | |||
CSE | 384K | Theory of Probability | |||
CSE | 386L | Mathematical Methods in Science and Engineering | |||
CSE | 389C | Introduction to Math Modeling in Science and Engineering | |||
CSE | 389D | Mathematical Modeling in Science and Engineering II | |||
CSE | 393F | Finite Element Methods | |||
CSE | 393H | Advanced Finite Element Theory | |||
CSE | 397 | Introduction to Mathematical and Physical Biology | |||
CSE | 397 | Validation and UQ in Computational Modeling | EDP | 380E | Fundamentals of Statistics |
CSE | 397 | Computational Variational Methods for Inverse Problems | |||
CSE | 397 | Scientific Machine Learning | |||
EDP | 482K | Experimental Design and Statistical Inference | |||
EEECE | 380L | Data Mining | |||
EEECE | 381J | Probability and Stochastic ProcessEM | |||
ECE | 381K | Convex Optimization | |||
E M | 388 | Solid Mechanics I | |||
EME M | 384K | Continuum Mechanics | |||
E M | 397 | Nonlinear Static and Dynamic Finite Element Analysis | |||
GEO | 384M | Inverse Theory | |||
M | 384C | Mathematical Statistics I | |||
M | 392C | Lie Groups | |||
M | 392C | Dynamical Systems | |||
PHR | 394M | Statistics | |||
SDS | 380C | Statistical Methods I | |||
SDS | 380D | Statistical Methods II | |||
SDS | 383C | Statistical Modeling I | |||
SDS | 384 | Mathematical Statistics | |||
SDS | 384 | Bayesian Statistics | |||
SDS | 384 | 4-Regression Analysis | |||
SDS | 384 | 6-Design and Analysis of Experiments | |||
SDS | 384 | Scientific Machine Learning | |||
SDS | 385 | Computational Biology and Bioinformatics | |||
SDS | 385 | Applied Regression | |||
SDS | 385 | Statistical Models for Big Data | |||
SDS | 386D | Monte Carlo Methods | |||
SDS | 392 | Introduction to Scientific Programming | |||
STA | 380 | 10-Mathematical Statistics for Applications |
...
Dept. | Num. | Course Name |
---|---|---|
BME | 381J | 3-Biomedical Imaging: Signals and Systems |
BME | 381J | 8-Functional Imaging Laboratory |
BME | 381J | Electrophysiology Frontiers |
BME | 381J | 9-Fundamental Biomedical Optical Imaging |
BME | 381J | 11-Medical Imaging |
BME | 381J | 12-Optical Imaging |
BME | 381J | Rehabilitation Engineering |
BME | 383J | Computational Imaging and Inverse Problems |
BME | 384J | 1-Biomedical Instrumentation |
BME | 384J | 5-Projects in Biomedical Engineering |
BME | 384J | Bioelectronics/Biointerfaces |
BME | 385J | Biomedical Micro and Nanotechnology |
BME | 381J | 10-Optics and Lasers |
BME | 381J | 13-Fluorescence Microscopy and Spectroscopy |
BME | 384J | Introduction to Neural Engineering |
EEECE | 381K | 16-Digital Video |
EEECE | 371R/Q | Digital Image Processing EEBS/MS students cannot count this course as a graduate course if it's taken while in undergraduate standing |
ECE | 381K | Digital Signal Processing |
EEECE | 381V | Genomic Signal Processing |
ECE | 385J.35 | Brain-Computer Interaction |
ECE | 385J | Neural Engineering |
M E | 397 | Haptic and Teleoperated Systems |
PSY/NEU | 386D | Multivariate Pattern Analysis of Neuroimaging Data |
PSY | 394U | Methods for fMRI |
...
Dept. | Num. | Course Name |
---|---|---|
BME | 380J | 4-Fields, Forces and Flows |
BME | 382J | 1-Cell and Tissue Engineering |
BME | 382J | 3-Molecular Sensors and Nanodevices for BME Applications |
BME | 382J | 4-Advanced Engineering Biomaterials |
BME | 382J | 5-Structured Surfaces, Fabrication, Characterization and Application |
BME | 382J | 6-Biopolymers and Drug/Gene Delivery |
BME | 382J | 7-Cell and Molecular Biomechanics |
BME | 382J | 8-Molecular Biophysics: Measurements and Methods |
BME | 382J | 9-Biomimetic Design and Engineering |
BME | 382J | 10-Immune Engineering |
BME | 382J | Polymer and Bioconjugate Chemistry |
BME | 382J | Bionanotechnology |
BME | 382J | Biological Responses to Medical Devices |
BME | 382J | Delivery of Therapeutic Agents |
BME | 382J | Nanomedicine |
BME | 382J | Multiscale Biosystems/Microengineering |
BME | 382J | Matrices, Organoids, and Microphysiological Systems |
BME | 383J | Modeling Biological Signal and Regulatory Systems |
BME | 385J | 7-Tissue/Cells with Biomechanical Applications |
BME | 385J | Cancer Bioengineering |
BME | 385J | Tissue Microenvironments |
BME | 385J | Growth and Remodeling of Tissue Systems |
BME | 385J | Systems Immunology: Health and Disease |
CH | 391 | Macromolecular Chemistry |
CHE | 384T | Nanomaterials Chemistry and Engineering |
CHE | 384T | Quantitative Analysis of Cellular and Molecular Biology |
Track 3: Computational Biomedical Engineering
...
Dept. | Num. | Course Name |
---|---|---|
BCH | 394P | Bioinformatics |
BME | 383J | 5-Introduction to Nonlinear Dynamics in Biological Systems |
BME | 383J | 9-Computational Methods for Biomedical Engineers I |
BME | 383J | 10-Computational Methods for Biomedical Engineers II |
BME | 383J | Analysis of Biological Systems |
BME | 383J | Computational Biomolecular Engineering |
BME | 383J | Data Mining |
BME | 383J | Introduction to Computational Oncology |
BME | 383J | Introduction to Mathematical and Physical Biology |
BME | 383J | Mathematical Physiology |
BME | 383J | Computational Imaging and Inverse Problems |
BME | 385J | Computational Modeling in Bioengineering and Medicine |
BME | 385J | Medical Decision Making |
CSC S | 388 | Natural Language Processing |
CSC S | 391L | Machine Learning |
CSC S | 395T | Topic: Foundations of Predictive Machine Learning |
C S | 395T | Topic: Scientific Comp for Machine/Deep Learning |
CSE | 380 | Tools and Techniques for Computational Science |
CSE | 397 | Computational Magnetic Resonance Imaging |
E M | 397 | Topic: Introduction to Machine Learning |
ECE | 381K | Machine Learning on Real World Networks |
ECE | 381K | Applied Machine Learning |
ECE | 381V | Computer Vision |
ECE | 381V | Computational MRI |
ECE | 382N | 26-Machine Learning Hardware-Algorithm Codesign |
ECE | 385J | Brain-Computer Interaction |
NEU | 385P/L | Programming and Data Analysis for Modern Neuroscience |
SDS | 394 | Scientific & Technical Computing |
SDS | 385 | Computational Biology and Bioinformatics |
...
Dept. | Num. | Course Name | |||
---|---|---|---|---|---|
BME | 381J | Rehabilitation Engineering | |||
BME | 382J | 9-Biomimetic Design and Engineering | |||
BME | 382J | Multiscale Biosystems/Microengineering | |||
BME | 383J | 2-Musculoskeletal Biomechanics | |||
BME | 383J | 4-Biomechanics of Human Movement | |||
BME | 384J | 4-Bioelectric Phenomena | |||
BME | 384T | Cell/Tissue/Scaffold Biomechanics | |||
BME | 385J | Modeling/Simulating Cardiac Function | |||
BME | 382J | Cell and Molecular Biomechanics | |||
BME | 382J | 8-Molecular Biophysics: Measurements and Methods | |||
BME | 385J | 7-Tissue/Cell Biomechanical Applications | |||
BME | 385J | Thin Film Mechanics | |||
BME | 385J | Tissue/Scaffold Biomechanics | |||
BME | 385J | Soft Tissue Biomechanics | BME | 385J | Clinical Cardiology |
BME | 385J | Growth and Remodeling of Tissue SystemsEM | |||
CH | 382L | Advanced Physical Chemistry: Statistical Mechanics | |||
CH | 393L | Topic: Biophysics | |||
E M | 384K | Continuum Mechanics | |||
M E | 383Q | 2-Dynamics of Mechanical Systems |
Technical Electives
These courses will satisfy satisfy the technical elective requirements only. They will not count toward any of the Track 1-4 technical requirements.
...
Dept. | Num. | Course Name | |
---|---|---|---|
ASE | 382Q | Fundamentals of Incompressible Flow | |
BGS | 380 | Health Law: A New Approach (PD) | |
BIO | 382K | Informatics/Data Analysis for Life Sciences | |
BIO | 384K | Python Programming for Biology | |
BIO | 384K | DEI in STEM: The Science Behind Bias | |
BME | 385J | Medical Device Design and Manufacturing | |
BME | 385J | Inquiry-Based Instruction Design | |
BME | 385J | Imaging Clinical Immersion | CE|
BME | 385J | Health Equity in Engineering Design | |
C E | 397 | Environmental Implications of Nanomaterials | |
CHE | 392 | Polymer Science | |
CHE | 392P | Introduction to Polymer Materials Science | |
CHE | 384P | Entrepreneurship (PD) | |
CHE | 386K | X-Ray Diff Theory | CS|
CH | 393L | Topic: Elements of Spectroscopy | |
C S | 380L | Advanced Operating Systems | |
C S | 386L | Programming Languages | |
C S | 394D | Deep Learning | CS|
C S | 395T | Topic: Scalable Machine Learning | |
C S | 395T | Topic: Physical Simulation | CS|
C S | 395T | IntroductionTopic: Intro to Cognitive Science | EE|
CSE | 392 | Geo Fdtns Data Sci/Predctv ML | |
ECE | 382N | Computer Architecture | |
ECE | 385J | Neural Engineering | |
KIN | 386 | Qualitative Research Methods | ME|
M E | 385J | Modeling and Simulation of Human Movement | |
M E | 387R | Practical Electron Microscopy | |
M E | 390N | Health | PhysicalPhysics Laboratory | ME
M E | 395 | The Enterprise of Technology (PD) | |
M E | 397 | Additive Manufacturing | |
M E | 397 | Algorithms for Sensor-Based Robotics | |
MIS | 381N | User Generated Content Analytics | |
PGS | 381G | Advanced Manufacturing Pharmacology | |
PGS | 380M | Advanced Pharmaceutics Experimental Design | |
PGS | 381F | Pharmaceutical Product Development | |
PGS | 382V | Pharmaceutical Biotechnology | |
PGS | 384K | Fundamentals of Toxicology | |
PGS | 389M | Fundamentals of Health Innovations | |
PSY | 381D | Brain Connectivity | |
PSY | 394P | Neuroinflammation in Health/Pain | |
TXA | 395 | Body Scanning and Virtual Clothing |