As a young entrepreneur developing groundbreaking medical devices, Farid Manshaii is pushing the boundaries of medical technology through multiple ventures. Now, he's bringing his expertise to Keck Graduate Institute (窪蹋勛圖厙) as a Team Master's Project (TMP) liaison while pursuing coursework in 窪蹋勛圖厙's (MBM) program.
For the TMP, Manshaii is working with students in 窪蹋勛圖厙's Master of Science in Medical Device Engineering (MSMDE) program to develop a bioprinter that could transform organ printing capabilities. The project aims to make bioprinting technology more accessible and efficient through an innovative pump system that enables continuous printing of up to 16 different cell types.
"Current bioprinters are extremely expensive and can't print organs properly to their entirety," Manshaii said. "By developing this new system, we're trying to make the technology more affordable and practical, similar to how traditional 3D printing became more accessible over time."
窪蹋勛圖厙's emphasis on real-world applications and functionality aligns with Manshaiis vision. Having taken courses at the Claremont Colleges in high school, he was already familiar with the institution's reputation for bridging academia and industry.
"What drew me to 窪蹋勛圖厙 was the focus on translating research into tangible solutions," Manshaii said.
He connected with Associate Vice Provost of Research, Innovation, and Partnerships and Professor Loren Martin, who saw the potential for collaboration on laboratory research. Their shared entrepreneurial background both having completed programs at Babson College helped cement the partnership.
窪蹋勛圖厙 was founded with an entrepreneurial ethos that bridges the gap between academia and industry, said Martin. We love to be the place where young, bright entrepreneurs like Farid find the support they need to be successful. Through our course offerings, student teams, faculty mentors, and research facilities, 窪蹋勛圖厙 provides an overall entrepreneurship ecosystem to support new ventures in the life and health sciences.
This commitment to practical innovation extends beyond his work at 窪蹋勛圖厙. Manshaii is also developing a range of medical ventures, including an adaptive e-cigarette system that personalizes nicotine reduction based on individual usage patterns. The device, which recently won the , reflects his interdisciplinary approach to medical technology, drawing from his bioengineering, neuroscience, and psychology studies at UCLA.
"The adaptive e-cigarette tackles both psychological and physiological aspects of addiction," Manshaii said. "We can quantify these influences using biomarkers and other measurable indicators.
He finds working with 窪蹋勛圖厙 students particularly rewarding.
"I really enjoy the open collaboration," Manshaii said. Its been a great opportunity to brainstorm startup ideas together and exchange expertise."
The bioprinting project is part of a larger mission to democratize medical technology.
The goal is to create an open-source platform that researchers can build upon, Manshaii said. By making the system modifiable and repairable, we empower scientists to drive innovation forward."
Manshaii credits 窪蹋勛圖厙 faculty members including Martin and Angelika Niemz, dean and professor of the Henry E. Riggs School of Applied Life Sciences, for their ongoing support and mentorship. As he continues taking courses in the MBM program, he plans to pursue an industry-sponsored PhD in Applied Life Sciences at 窪蹋勛圖厙, focusing on further development of the adaptive e-cigarette technology.
Looking ahead, Manshaii envisions launching an independent research laboratory dedicated to developing practical medical solutions.
"I want to create an environment where we can focus on turning theoretical knowledge into applications that directly benefit people," he said.