Complete all courses and requirements listed below unless otherwise indicated.
Core Requirements
| Code | Title | Hours |
|---|---|---|
| Required Core | ||
| NNMD 5270 | Foundations in Nanomedicine: Therapeutics | 3 |
| or NNMD 5271 | Foundations in Nanomedicine: Diagnostics | |
| Electives | ||
| Complete 9 semester hours from the following electives. At least 5 semester hours must be Nanomedicine (NNMD) coursework: | 9 | |
| Nanomedicine Seminar (may be repeated) | ||
| Bioethics in the Age of Artificial Intelligence | ||
| Nanomedicine Research Techniques | ||
| Electron Microscopy Techniques | ||
| Nano/Biomedical Commercialization: Concept to Market | ||
| Preclinical and Clinical Study Design | ||
| Nanodrug Delivery Systems: Design, Visualization, and Modeling | ||
| RNA Therapeutics | ||
| Nanomedicine Experiential Capstone | ||
| Experiential AI Capstone | ||
| Independent Research | ||
AI-Driven Innovation | ||
| Emerging Innovations in Biotechnology and Pharma | ||
| AI-Powered Biotech Workflows: From Discovery to Clinic | ||
| Artificial Intelligence and Machine Learning in Drug Discovery: Concepts and Applications | ||
Commercialization and Regulatory Affairs | ||
| The Biotechnology Enterprise | ||
| The Role of Patents in the Biotechnology Industry, Past and Future | ||
| Managing and Leading a Biotechnology Company | ||
| Foundations in Vaccine Regulatory Science | ||
| Foundation in Quality for Biotechnology | ||
| CGMP Statutes and Regulation | ||
| Design and Development of Biopharmaceuticals | ||
| Sterile Manufacturing Operations | ||
Drug Delivery | ||
| Cell and Gene Therapies | ||
| Chemical Principles and Application of Drug Metabolism and Pharmacokinetics | ||
| Drug Delivery: Engineering Analysis | ||
| Transport Phenomena | ||
| Pharmacokinetics and Drug Metabolism | ||
| Advanced Drug Delivery Systems | ||
Laboratory Research | ||
| Biotechnology Lab Skills | ||
| Cell and Gene Therapy Lab | ||
Nanomaterials Design and Application | ||
| Molecular Bioengineering | ||
| Applied Molecular Bioengineering | ||
| Biomaterials | ||
| CRISPR: Gene Editing Fundamentals | ||
| Cell Culture Applications for Biopharmaceuticals | ||
| Molecular Interactions of Proteins in Biopharmaceutical Formulations | ||
| Molecular Approaches in Biotechnology | ||
| Cutting-Edge Applications in Molecular Biotechnology | ||
| Vaccines and Immunization | ||
| Molecular Tools for Vaccine Design | ||
| Polymer Chemistry | ||
| Nucleic Acid Chemistry | ||
| Biopolymeric Materials | ||
| Biomaterials Principles and Applications | ||
| Introduction to Polymer Science | ||
| Human Physiology and Pathophysiology | ||
| Biophysical Methods in Drug Discovery | ||
| Introduction to Nanoscience and Nanotechnology | ||
| Physics of Biological Processes and Living Systems 1 | ||
Program Credit/GPA Requirements
12 total semester hours required
Minimum 3.000 GPA required