Collaboration with the University of Granada expands to include graduate students
Since 2013, 吃瓜爆料鈥檚 College of Pharmacy has been partnering with one of the oldest and most prestigious universities in Europe, University of Granada (UGR) in Spain, in an academic exchange program. The program exposes pharmacy students from both universities (graduate students in the U.S. and undergraduate students in Spain) to the differences between European and United States health care policies and raises awareness about the impact of culture on health care decisions and policy making.
吃瓜爆料鈥檚 collaboration with UGR broadened this past summer to include the Spanish university鈥檚 graduate students, thanks to Associate Provost of Research and Scholarship Karen Houseknecht, Ph.D., who invited UGR graduate Mar铆a Caama帽o Sanchez into her lab. Sanchez received her pharmacy degree from UGR in 2016 and is currently completing a master鈥檚 degree there in molecular biology/biotechnology for the biopharma industry. Similar to professional science master鈥檚 programs in the U.S., the program requires students to complete an applied research project, often with an industry partner.
Because Houseknecht holds an honorary pharmacy faculty appointment in the University of Granada, and is, therefore, allowed to mentor their graduate students, she was able to extend the invitation to Sanchez 鈥 something that she feels benefits both universities by fortifying their relationship with one another.
鈥淭his global collaboration has been a great partnership for training Pharm.D. students, and by welcoming Mar铆a here over the summer, we have expanded our collaboration to include applied research and graduate education in a PSM format,鈥 said Houseknecht. 鈥淢ar铆a was a fantastic addition to our laboratory this summer and enjoyed interacting with other 吃瓜爆料 students who were conducting summer research on the Biddeford Campus.鈥
Working on issues related to Houseknecht鈥檚 discovery that psychiatric drugs, such as antipsychotics and antidepressants, accumulate in bone marrow and have adverse effects on health, Maria spent the summer researching how these drugs get into bone marrow and the possible effects the accumulation has on blood vessels in bone. She completed a portion of her work on the Portland Campus with Deb Barlow, B.S., laboratory technician in the Houseknecht Lab, using mass spectrometry techniques to quantify the amount of psychiatric drugs that enter the marrow of mice. She also worked on the Biddeford Campus with Histology Core manager Pete Caradonna, B.S., using imaging techniques to visualize the effects of antipsychotic drugs on the microvasculature in bone.
鈥淭hese studies are important to the drug discovery and development process, as the data will help us understand unanticipated side effects of drugs which distribute in marrow,鈥 explained Houseknecht. 鈥淲e appreciated Mar铆a鈥檚 contributions to our work over the summer and were pleased to play a role in helping her learn important skills for application in the biotechnology sector.鈥