Complete all courses and requirements listed below unless otherwise indicated.
Core Requirements
Code | Title | Hours |
---|---|---|
CHME 6390 | Professional Development and Communication Essentials (Complete this course twice.) 1 | 0 |
CHME 7600 | Pharmaceutical Engineering I | 4 |
CHME 7601 | Pharmaceutical Engineering II | 4 |
CHME 7602 | Pharmaceutical Engineering Laboratory | 2 |
PHSC 5100 | Concepts in Pharmaceutical Science | 2 |
PHSC 5102 | Concepts in Pharmaceutical Science 2 | 2 |
PHSC 7010 | Pharmaceutical Sciences Laboratory | 4 |
- 1
To be completed each of the first two semesters in the program.
Restricted Elective Courses
Code | Title | Hours |
---|---|---|
At least 4 semester hours of elective coursework is required from CHME, and at least 2 semester hours of elective coursework is required from PHSC and PMST. These semester hours could come from any elective group, as appropriate. | ||
Regulatory | ||
Complete 3–4 semester hours from the following: | 3-4 | |
Regulatory and Quality Aspects of Medical Device Design | ||
Introduction to Biotherapeutic Approvals | ||
Concepts in Regulatory Science | ||
Design and Development of Biopharmaceuticals | ||
Introduction to Regulatory Compliance and Practice | ||
Quality/Statistics | ||
Complete 4 semester hours from the following: | 4 | |
Design of Experiments and Ethical Research (DOEER) | ||
Numerical and Statistical Methods for Chemical Engineering | ||
Chemical Engineering Research Methods | ||
Engineering Probability and Statistics | ||
Statistical Methods in Engineering | ||
Statistical Quality Control | ||
Experimental Design and Biostatistics | ||
Depth Electives | ||
Complete 6–7 semester hours from the following: | 6-7 | |
Dynamical Systems in Biological Engineering | ||
Applied Molecular Bioengineering | ||
Bioengineering Products/Technology Commercialization | ||
Engineering Approaches to Precision Medicine I | ||
Drug Safety and Immunogenicity | ||
Pharmaceutical Microbiology | ||
Sterile Manufacturing Operations | ||
Drug Delivery: Engineering Analysis | ||
Complex Fluids and Everyday Materials | ||
Design of Experiments and Ethical Research (DOEER) | ||
Fundamentals in Process Safety Engineering | ||
Process Safety Engineering for Biotechnology and Pharmaceutical Industries | ||
Biomaterials Principles and Applications | ||
or BIOE 5820 | Biomaterials | |
Advanced Topics in Biomaterials | ||
Introduction to Polymer Science | ||
Chemical Engineering Thermodynamics | ||
Transport Phenomena | ||
Pharmaceutical Biochemistry | ||
Cellular Physiology | ||
Repurposing Drugs for Cancer Immunotherapies | ||
Pharmaceutical Toxicology | ||
Nanotoxicity | ||
Advanced Physical Pharmacy | ||
Pharmacokinetics and Drug Metabolism | ||
Advanced Drug Delivery Systems |
Optional Co-op Experience
Code | Title | Hours |
---|---|---|
Complete the following (students must complete ENCP 6100 to qualify for co-op experience): | ||
ENCP 6100 | Introduction to Cooperative Education | 1 |
ENCP 6964 | Co-op Work Experience | 0 |
or ENCP 6954 | Co-op Work Experience - Half-Time | |
or ENCP 6955 | Co-op Work Experience Abroad - Half-Time | |
or ENCP 6965 | Co-op Work Experience Abroad |
Program Credit/GPA Requirements
32 total semester hours required (33 with optional co-op)
Minimum 3.000 GPA required