Pharmacy

In 2016 the top selling drugs are monoclonal antibodies, and half of the new drugs approved are biopharmaceuticals and numerous biosimilars are being developed.  This class is about how biologic drugs are discovered, manufactured, formulated, analyzed, developed and regulated - now essential information for scientists seeking careers in the pharmaceutical industry. 

This course covers fundamental concepts essential for the discovery, development and characterization of biopharmaceuticals. Topics include basic immunology, molecular biology and cloning, in vitro protein library generation and screening, antibody discovery and engineering, biophysical characterization, and protein expression and purification.  

Informatics is an important system factor in how medication use may be impacted.  The purpose of this course is to introduce the learner to relevant theory and methods that are used in clinical informatics research.  This course is an introduction to informatics methods such as database modeling, clinical decision support, EHR, data mining and systems engineering.  The methods will be illustrated and discussed using prescription medications, pharmacy practice and applications (apps) as the context for lea

This course provides disease-oriented, pharmacy-oriented insight into the pathophysiology, diagnosis, and rational drug treatment of diseases primarily encountered in the pediatric age group. Emphasis is on the pharmacist’s role in selecting drug products, individualizing dosages, and monitoring patients.

Note: This was formerly a 2-credit course, Pharmacy 747