Through
9/15
Bioengineering
Shedding light on cellular metabolism to fight disease
Shedding light on cellular metabolism to fight disease
In Yihui Shen’s lab, the assistant professor of innovation in bioengineering, aims to advance the understanding of metabolism and open doors to new cancer treatments and therapies.
Penn pioneers a ‘one-pot platform’ to promptly produce mRNA delivery particles
Penn pioneers a ‘one-pot platform’ to promptly produce mRNA delivery particles
New lipid platform enables rapid synthesis of molecules that can shuttle therapeutics for a range of diseases with a high degree of organ specificity.
Penn Engineering’s Ottman Tertuliano receives a 2024 CAREER Award
Penn Engineering’s Ottman Tertuliano receives a 2024 CAREER Award
Tertuliano’s research on bone fractures at the nanoscale allows for research on two separate time scales: the forming of cracks in a fracture at 1 micrometer/second, and the cellular response and repair time scale, a much lengthier process.
Penn third-year named 2024 Udall Scholar
Penn third-year named 2024 Udall Scholar
Third-year Joey Wu, studying bioengineering and environmental science in the Vagelos Integrated Program in Energy Research (VIPER) program, has been named a 2024 Udall Scholar.
A novel technique to form human artificial chromosomes
A novel technique to form human artificial chromosomes
Penn researchers say the new technique for making human artificial chromosomes from single, long constructs of designer DNA will allow for more efficient laboratory research.
Sherry Gao pushes the boundaries of genetic engineering
Sherry Gao pushes the boundaries of genetic engineering
The Presidential Penn Compact Associate Professor in Chemical and Biomolecular Engineering aims to make gene editing tools like CRISPR more accurate, and encourage first generation students along the way.
Accelerating CAR T cell therapy: Lipid nanoparticles speed up manufacturing
Accelerating CAR T cell therapy: Lipid nanoparticles speed up manufacturing
Penn Engineers have developed a novel method for manufacturing CAR T cells using lipid nanoparticles as delivery vehicles.
New molecules, inspired by space shuttles, advance lipid nanoparticle delivery for weight control
New molecules, inspired by space shuttles, advance lipid nanoparticle delivery for weight control
Penn Engineering researchers have invented a new way to synthesize the key chemical components of lipid nanoparticles that help protect and deliver medicinal payloads.
‘Switchable’ bispecific antibodies pave way for safer cancer treatment
‘Switchable’ bispecific antibodies pave way for safer cancer treatment
Immunotherapy utilizing an FDA-approved drug has enabled Penn researchers to develop a novel switchable bispecific T cell engager that mitigates negative outcomes of immunotherapy.
Illuminating the invisible: Bringing the smallest protein clusters into focus
Illuminating the invisible: Bringing the smallest protein clusters into focus
Penn engineers are opening new avenues for detecting the proteins implicated in diseases like Alzheimer’s and testing new treatments.
In the News
Technology.org
Shedding light on cellular metabolism to fight disease
Yihui Shen of the School of Engineering and Applied Science talks about her newly established lab where she aims to advance the molecular precision of coherent Raman imaging to allow researchers to understand the minutia of metabolism and open doors to new cancer treatments and therapies.
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CNN
A detailed look at children’s brains might show how sex and gender are different, new study says
A study co-authored by Dani S. Bassett of the School of Engineering and Applied Science finds that sex and gender map onto largely distinct parts of the brain.
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The New York Times
Can your personal medical devices be recycled?
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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Science Alert
Scientists think they’re on the verge of breaching the blood-brain barrier
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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Popular Mechanics
How severed cockroach legs could help us ‘fully rebuild’ human bodies
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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United Press International
Herniated discs could be repaired with biologic patch one day, researchers say
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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