Laura Miller Conrad
Fighting Hospital-Acquired Infections
Growing up, Laura Miller Conrad was in awe of medicine鈥檚 power to cure disease, which inspired her to study organic chemistry and conduct chemistry research in search of disease treatments. This work led to her present day pursuit: blocking antibiotic resistant pathways in bacteria that cause hospital-acquired infections.
鈥淭he antibiotic colistin is one drug that has effectively treated these types of infections, caused by multidrug-resistant Pseudomonas aeruginosa, but we are now encountering colistin resistance,鈥 she explains. 鈥淗owever, our lab has identified a class of small molecules that make P. aeruginosa more susceptible to colistin-mediated eradication.鈥
Undergraduate and master鈥檚 degree students from Chemistry, Biology, Biomedical Engineering, and Chemical Engineering conduct the research on the project, from the synthesis of the small molecules to microbiological assays to in vitro kinetics. They apply concepts from their academic studies while learning the skills needed to conduct research independently.
鈥淚n the long term, we hope that these small molecules may eventually be used in clinical settings to help save the lives of those infected with this bacterium,鈥 says Dr. Miller Conrad. 鈥淎t the same time, we are trying to develop even more potent drugs to battle hospital-acquired infections.鈥
Mellanie Gomes, 鈥20 Chemical Engineering, is adjusting her pipetman in the biosafety cabinet in preparation for diluting the P. aeruginosa culture. Mellanie is a National Institute of Health Research Training Initiative for Scientific Enhancement (RISE) scholar.
Chemistry, College of Science
Sponsor: National Institutes of Health
无忧短视频 Research Foundation 2019 Annual Report
