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December 21, 2024
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Lab summer: Two students participate in MMRI fellowship

During the 10-week program, students are immersed in cutting-edge STEM research

Biomedical engineering major / biology minor Ryan Soron is studying stem cells as part of the Masonic Medical Research Institute鈥檚 Summer Fellowship Program in Utica. Biomedical engineering major / biology minor Ryan Soron is studying stem cells as part of the Masonic Medical Research Institute鈥檚 Summer Fellowship Program in Utica.
Biomedical engineering major / biology minor Ryan Soron is studying stem cells as part of the Masonic Medical Research Institute鈥檚 Summer Fellowship Program in Utica.

Integrative neuroscience major Gianna Sisti and biomedical engineering major/biology minor Ryan Soron are spending their summer in the lab 鈥 and they wouldn鈥檛 have it any other way.

The two are taking part in the

During the 10-week fellowship, undergraduate, graduate and medical students are immersed in cutting-edge science, technology, engineering and math (STEM) research. They are paired with a principal scientist and the institute, and work together to design a project that complements both the interests of the student and the laboratory.

This year, the competitive program received 49 applications from colleges and universities across New York state, the highest number in its 64-year history, said MMRI Predoctoral Research and Postdoctoral Affairs Program Coordinator Khanh Ha. Ten are selected.

Stem cells: Getting the size right

For his fellowship, Soron 鈥 a rising senior from the Utica area 鈥 was paired MMRI Research Assistant Professor Gary Aistrup to study induced pluripotent stem cells.

IPSCs are skin or blood cells that have been reprogrammed back into an embryonic-like pluripotent state that enables the development of an unlimited source of any type of human cell needed for therapeutic purposes. Aistrup鈥檚 research focuses on cardiac cells.

鈥淗eart-muscle cells from an adult are just like your brain cells 鈥 they don鈥檛 divide much once you鈥檙e fully grown,鈥 Soron said. 鈥淭hat鈥檚 why when you have a heart attack, a seizure or a stroke, it鈥檚 so damaging to the body, because your brain and heart can鈥檛 really regrow those cells.鈥

Growing up, he gravitated toward biology and math as his favorite subjects in school, and he loved to use mathematical principles and equations to solve problems. When he heard about the BME program at Binghamton鈥檚 Thomas J. Watson College of Engineering and Applied Science, he knew what field he wanted to pursue.

鈥淚 found that biomedical engineering was the perfect marriage of my two favorite subjects,鈥 he said. 鈥淚 could have been a Harpur student with biology only, but I wanted to do more of the math and the problem-solving that comes with engineering and creativity. Biomedical engineering is a jack-of-all-trades kind of thing. We learn a little bit of mechanical engineering, we learn a little bit of electrical and chemical engineering, and put it all together to interact with the human body. I think that鈥檚 my favorite part of it all.鈥

At MMRI, Soron is working on an issue when growing IPSCs into heart cells: They often are smaller and not the brick-like shape of mature cardiomyocytes.

鈥淢y main research is trying to make them more mature, so they鈥檙e closer to an actual adult heart cell,鈥 he said. 鈥淚鈥檓 working with nanopattern surfaces, that are like grooves patterned onto the plate where we grow the cells, and they force the cells to grow in a certain shape and size.鈥

When he returns to campus this fall, Soron will serve as vice president of Binghamton鈥檚 Alpha Eta Mu Beta National Biomedical Engineering Honor Society, and he鈥檚 also a member of the Biomedical Engineering Society.

鈥淎fter getting my bachelor鈥檚, I plan to stay at Binghamton for Watson鈥檚 4+1 program. I can get my master鈥檚 degree in one extra year 鈥 that鈥檚 a great, great program,鈥 he said. 鈥淏eyond that, I was hoping to get an industry job with a pharmaceutical company or biotech company, but I鈥檓 also getting a taste of research here and wouldn鈥檛 be opposed to doing that. We鈥檒l see how I like it in graduate school.鈥

Brown fat: A fix for obesity?

Sisti, a rising senior at Binghamton, also has long been familiar with MMRI; she grew up in the Utica area, and the institute is a 15-minute drive from her house. She learned about the fellowship during a high school tour, and she made up her mind to apply after her first year of college.

鈥淭hat spring after my freshman year, I started getting my application together 鈥 and then COVID hit. Everything shut down,鈥 she remembered.

She didn鈥檛 give up on her fellowship dream, however, and applied as soon as the program reopened.

At MMRI, Sisti is researching the influence of thyroid hormones on brown fat tissue as a potential target for treating obesity. The project uses mouse models, exploring gene expression and the impact of treatment on specific genes.

It鈥檚 a different field of research than the ones Sisti is used to in neuroscience, but she finds the work meaningful and fascinating.

鈥淲hen you think fat, you think about stored energy. But brown fat actually has the ability to burn up fatty acids and increase energy expenditure; it can burn fat and calories in a person,鈥 she said. 鈥淭hat鈥檚 why it could be a potential target for treating obesity, if we can figure out the way to manipulate it.鈥

Long-term, Sisti plans to earn a master鈥檚 degree and become a genetic counselor. A background in research is a definite plus for anyone interested in a science field, including genetics and healthcare, she reflected.

During the course of the fellowship, Sisti has expanded her knowledge about the metabolism, genetics and the technical processes behind research. Fellowship participants hone their science communication skills by presenting papers, including their research results.

鈥淭his is my first time working hands-on at a lab bench. The comfort I feel being in the lab now compared to how I felt when I first got here is so different,鈥 she said. 鈥淣ow I鈥檓 more comfortable doing tasks independently.鈥