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Bioengineering
New engineering approaches to address unmet oral health needs
With a new NIH training grant, awards, and new faculty and publications, the recently launched Center for Innovation & Precision Dentistry is leveraging technological advancements to improve oral health.
Latest ‘organ-on-a-chip’ is a new way to study cancer-related muscle wasting
New “muscle-on-a-chip” technology allows for drug testing on human muscles outside the body while capturing the complexity of human physiology.
New microfluidic device delivers mRNA nanoparticles a hundred times faster
With a “liquid assembly line,” Penn researchers have produced mRNA-delivering-nanoparticles significantly faster than standard microfluidic technologies.
‘I Look Like an Engineer’
For the third year in a row, Penn Engineering’s Advancing Women in Engineering program, dedicated to recruiting, retaining and promoting all female-identified students in the School, participated in the “I Look Like an Engineer” social media movement.
Becoming a bioengineer, both at home and on campus
This spring, the Bioengineering Modeling, Analysis, and Design lab was able to safely resume in-person instruction while adapting its curriculum to keep remote learners engaged.
Looking towards the future through an interdisciplinary lens
Senior Yasmina Al Ghadban was able to connect her undergraduate education in bioengineering and psychology with her passion for public health through teaching, research, and extracurricular activities.
New bioprinting technique allows for complex microtissues
Researchers at the School of Engineering and Applied Science have demonstrated a new bioprinting technique that enables the bioprinting of spatially complex, high-cell-density tissues.
Penn Dental, Penn Engineering unite to form Center for Innovation & Precision Dentistry
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 identify potential nanoparticles for therapeutic mRNA delivery before birth
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.
Researchers measure different types of curiosity studying ‘hunters and busybodies’
A multidisciplinary study has found a way to readily quantify the information-seeking associated with curiosity and explore mechanisms underlying information-seeking.
In the News
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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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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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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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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Thanks, Neanderthals: How our ancient relatives could help find new antibiotics
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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Why CAR T cell therapy is the cancer killer the world needs now
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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