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The new Center will bring the two schools together to accelerate the development of new solutions and devices to address unmet needs in oral health.
Researchers at Children’s Hospital of Philadelphia and the School of Engineering and Applied Science have identified ionizable lipid nanoparticles that could be used to deliver mRNA as part of fetal therapy.
A multidisciplinary study has found a way to readily quantify the information-seeking associated with curiosity and explore mechanisms underlying information-seeking.
The senior in Penn Engineering’s Department of Bioengineering weds biomedicine and her pursuit in addressing healthcare disparities in the Black community.
The lab of César de la Fuente is working on a paper-based biosensor that could provide results in minutes. Clinical trials began Jan. 5.
The new lung-on-a-chip platforms will help better understand how chlorine damages lung tissues and to discover specific biomarkers of chlorine gas-induced lung injury.
Using specialized nanoparticles, researchers from Penn Engineering and MIT have developed a way to turn off specific genes in cells of bone marrow, which play an important role in producing blood cells.
Graduate students and faculty across Penn met to share their work and discuss solutions for issues faced by women in STEM.
Penn engineers find that by fighting the direction of the blood flow, white blood cells forge a faster route to battle infections.
For Penn synthetic biologist César de la Fuente and his team, these concepts aren’t some far-off ideal. They’re projects already in progress, and they have huge real-world implications should they succeed.
A lab at the School of Engineering and Applied Science led the development of a COVID test made from bacterial cellulose, an organic compound.
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Michael Mitchell of the School of Engineering and Applied Science and colleagues have constructed a model that could potentially allow drug transporters to bypass the blood-brain barrier.
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David Meaney of the School of Engineering and Applied Science oversees an undergraduate bioengineering lab that uses cockroach legs to teach students to work with human prostheses.
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Preclinical research by Robert Mauck of the Perelman School of Medicine, Thomas Schaer of the School of Veterinary Medicine, and Ana Peredo, a Ph.D. graduate of the School of Engineering and Applied Science, reveals how a biologic patch activated by natural motion could become a key tool for repairing herniated discs in the back and relieving pain.
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A study by César de la Fuente of the Perelman School of Medicine and colleagues used AI to recreate molecules from ancient humans that could be potential candidates for antimicrobial treatments.
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Research from Michael Mitchell of the School of Engineering and Applied Science has developed a new method to stop cytokine release during CAR T cell therapy, preventing some of its more dangerous side effects.
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