Category: Biomedical Engineering
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‘Sister cell’ profiling aims to shut down cancer metastasis
Michigan engineers release individual cells from a specially-designed chip using laser pulses.
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An academic acrobat
Meet the alumnus who joined Cirque du Soleil.
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Ellen Arruda and Dawn Tilbury receive Harold R. Johnson Diversity Service Award
Two of the seven faculty honored with the 2017 Harold R. Johnson Diversity Service Award are Michigan Engineering professors Ellen Arruda and Dawn Tilbury.
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New U-M Robotics Building named in honor of Ford Motor Company gift
The gift will accelerate construction.
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Regenerative med center groups top-ranked U-M areas
A new $11.7 million center at the University of Michigan aims to advance regenerative medicine to restore patients’ lost dental, facial and skull tissue.
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Tim Bruns receives NSF CAREER Award
Tim Bruns, U-M assistant professor of biomedical engineering, has received a National Science Foundation Faculty Early Career Development (CAREER) Award.
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U-M faculty elected to National Academy of Engineering
The most prestigious engineering association in the U.S. has named Ellen Arruda, Mark Daskin and Noboru Kikuchi among its newest members.
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U-M faculty elected to National Academy of Engineering
The most prestigious engineering association in the U.S. has named Ellen Arruda, Mark Daskin and Noboru Kikuchi among its newest members.
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Coating method could improve temporary implants that dissolve in the body
Very even, pure coatings that promote healing may now be possible for biodegradable sutures and bone screws.
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‘5-D protein fingerprinting’ could help fight Alzheimer’s, Parkinson’s
In an advance that could lead to new progress against diseases like Alzheimer’s and Parkinson’s, researchers have demonstrated a technique for measuring the properties of individual protein molecules.
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The beginning of the amniotic sac
Amnion developed from human stem cells are being studied. Understanding infertility and pregnancy loss are one area being investigated.
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Cancer stem cells: new method analyzes 10,000 cells at once
A new tool for making sense of the cells believed to cause cancer relapses and metastases.