Master of Science: Biomedical Engineering

Student Learning Outcomes

Students graduating from this program will:

  • Formulate solutions to complex biomedical engineering problems;
  • Employ advanced mathematical, statistical, and programming skills;
  • Demonstrate enhanced written, graphical, and/or oral technical communication skills.

Coursework Masters: 21 Elective Credits

Thesis Masters: 15 Elective Credits + 6 Thesis Credits (enroll in BMD-ENGR 5599)

Required Coursework 1
E&C-ENGR 380Signals and Systems3
MEC-ENGR 5506Introduction to Biomaterials3
or MEC-ENGR 406 Introduction to Biomaterials
Please choose one of the following:3
BIOLOGY 404
Biostatistics 2
COMP-SCI 5565
Introduction to Machine Learning
or COMP-SCI 465R
 Introduction to Machine Learning
MEDB 5501
Applied Biostatistics I
Electives: 1, 221
BMD-ENGR 5505
Polymers in Biomedical Engineering
BMD-ENGR 5515
Bioelectromagnetics and Bioelectricity
BMD-ENGR 5595
Directed Readings in Biomedical Engineering
BIOLOGY 5516
Global Health: New and Emerging Infections Diseases
BIOLOGY 5517
From Bench to Bedside: Translational Research
BIOLOGY 5518
Graduate Histology
BIOLOGY 5525
Foundations of Bioinformatics and Data Analysis
BIOLOGY 5528
Human Genomic Epidemiology
or MEDB 5514
 Human Genome Epidemiology
BIOLOGY 5539
Mammalian Physiology
BIOLOGY 5542
Neurobiology
LS-CBB 5504
Graduate Virology
LS-MBB 5509
Graduate Developmental Biology
MEDB 5502
Applied Biostatistics II
MEDB 5510
Clinical Research Methodology
MEDB 5520
Introduction to Medical Informatics
MEDB 5521
Clinical Bioinformatics
MEDB 5535
Quantitative Aspects of Epidemiologic Research
MEDB 5560
Medical Decision Making
MEDB 5561
Responsible Conduct of Research
BIO-SCI 5710
Genetics and Biochemistry of Cranial Facial Biology
BIO-SCI 5760
Physiology of Oral Mineralized Tissues
CIV-ENGR 5622
Theory of Elasticity
E&C-ENGR 5316
Deep Learning
or COMP-SCI 5567
 Deep Learning
E&C-ENGR 5532
Biomedical Instrumentation
E&C-ENGR 5541
Nanoelectromagnetics and Plasmonics
E&C-ENGR 5580
Digital Signal Processing
E&C-ENGR 5582
Computer Vision
E&C-ENGR 5584
Advanced Digital Image Processing
E&C-ENGR 5586
Pattern Recognition
E&C-ENGR 5647
Emerging Interdisciplinary Research in Nanotechnology
MEC-ENGR 5503
Intro to Polymers and Soft Materials
MEC-ENGR 5507
Advanced Dynamics and Modeling
MEC-ENGR 5510
Imaging to Modeling
MEC-ENGR 5511
Introduction to Biomechanics
MEC-ENGR 5516
Biomedical Device Design
MEC-ENGR 5519
Mechanical Behavior of Materials
MEC-ENGR 5529
Additive Manufactuirng
MEC-ENGR 5533
Advanced Thermodynamics
MEC-ENGR 5557
Mechatronics System Design
MEC-ENGR 5586
Applied Finite Element Analysis
Total Credits30
1

Additional 300-400-5500 level courses can be allowed with program approval – contact your advisor for more details

2

Minimum of 9 Engineering Credits & Minimum of 6 Biology/Medical/Science Credits.