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Erica K. Brockmeier
Science News Officer
ekbrock@upenn.edu
Bioengineering
Future collaborators and scientific pioneers at the Women in STEM symposium
Future collaborators and scientific pioneers at the Women in STEM symposium
Graduate students and faculty across Penn met to share their work and discuss solutions for issues faced by women in STEM.
Engineers coax white blood cells to crawl upstream
Engineers coax white blood cells to crawl upstream
Penn engineers find that by fighting the direction of the blood flow, white blood cells forge a faster route to battle infections.
Computer-generated antibiotics and biosensor Band-Aids
Computer-generated antibiotics and biosensor Band-Aids
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.
Strella Biotechnology tackles food waste by ‘hacking the fruit’
Strella Biotechnology tackles food waste by ‘hacking the fruit’
President’s Innovation Prize awardees Katherine Sizov and Malika Shukurova are expanding their startup and confronting $1 trillion of food waste with their novel biosensing technology.
Inspiring young women in STEM
Over two days, nearly two dozen female STEM role models at Penn welcomed more than 100 high school students and teachers to campus as part of the Girls Advancing in STEM (GAINS) Initiative Conference on campus.
An easier way of sneaking antibodies into cells
An easier way of sneaking antibodies into cells
Penn Engineers have found a plug-and-play solution that makes antibodies compatible with the delivery vehicles commonly used to ferry nucleic acids through the membrane of a cell without damaging either.
Researchers explore spinal discs’ early response to injury
Researchers explore spinal discs’ early response to injury
Researchers may have found a way to press pause on spinal disc injuries, giving doctors more time to treat them before worse issues develop.
Engineers solve the paradox of why tissue gets stiffer when compressed
Engineers solve the paradox of why tissue gets stiffer when compressed
Tissue gets stiffer when it’s compressed. That stiffening response is a long-standing biomedical paradox, as common sense dictates that when you push the ends of a string together, it loosens tension, rather than increasing it. New research explains the mechanical interplay between that fiber network and the cells it contains.
A model for brain activity during brain stimulation therapy
A model for brain activity during brain stimulation therapy
Combined with data from other stimulation experiments , these models could help researchers determine the specific patterns of brain activity to target for improving memory.
Brain-machine interfaces: Villainous gadgets or tools for next-gen superheroes?
Brain-machine interfaces: Villainous gadgets or tools for next-gen superheroes?
A Q&A with neuroscientist Konrad Kording on how connections between minds and machines are portrayed in popular culture, and what the future holds for this reality-defying technology.
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