In This Story
In early high school, the chance to solve world problems in a lab appealed to junior student Medhini聽Sosale. Since then, she鈥檚 known that a combination of field and lab work is what she wants to do for her career, and her time at Mason has given her endless opportunities to explore it further.聽聽聽
Raised in Ashburn, Virginia,聽Sosale聽is currently working in bioengineering associate professor 鈥櫬爈ab, where he is experimenting with ultrasound聽technology聽to deliver drugs. Her project is sponsored by the and聽the聽Undergraduate Research Scholars Program. 聽聽聽聽
鈥淭his semester, I am working on creating a 3D model of the blood-brain barrier of a rat鈥檚 brain,鈥 says聽Sosale. In rats and humans, the blood-brain barrier is a protective boundary that keeps bacteria, fungi, parasites, and other organisms from penetrating the brain. It is an important part of the body鈥檚 immune system.聽聽
鈥淭he barrier is very effective, but if we could find a way to access it to deliver targeted medications through ultrasound, we could limit invasiveness and target specific illnesses,鈥 says聽Sosale.聽聽聽聽聽
In her freshman year at Mason, she started working with bioengineering professor Her work with聽Cebral聽introduced her to new areas of bioengineering and computational research. 鈥淧rofessor聽Cebral聽was running a computational model on how to optimize the treatment of strokes. I was running tests on the model, and I learned that I enjoyed the computational side of bioengineering too,鈥 says聽Sosale.聽聽聽
鈥淔or both of these projects, I learned a lot about neuroscience, and that is something I definitely want to pursue,鈥 says聽Sosale.聽聽聽
Sosale聽grew up dancing and playing music and was curious about climate change. She hopes to combine some of her interests in her career and possibly look at the neuroscience and genetic implications of surviving a climate disaster. 聽聽
Sosale聽hopes to pursue a PhD in a field like conservation biology.聽聽She聽knows her engineering mindset and skills will prepare her for whatever field she chooses. 聽聽