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17 Results for ''
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Video/AnimationThe Vagina Chip: A New Preclinical Model for Research on Vaginal Epithelium Microbiome InteractionsThe Vagina Chip allows researchers to study a human model of the vaginal microbiome and develop new treatments for bacterial vaginosis and other conditions that threaten women’s health. Credit: Research Square
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Video/AnimationEngineering Solutions to Confront the Climate CrisisAt the Wyss Institute, we are committed to tackling this existential climate crisis and are expanding our portfolio of sustainability research projects. Join us in reimagining a more sustainable future, together. Credit: Wyss Institute at Harvard University
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Video/AnimationCirce: Using Microbes to Make Biodegradable ProductsCurrent manufacturing methods release harmful greenhouse gases and pollution, and many of the products produced do not biodegrade, damaging our ecosystems even further. What if we could turn greenhouse gases into biodegradable products? Researchers at the Wyss Institute are using synthetic biology to make this a reality. Credit: Wyss Institute at Harvard University
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Video/AnimationEngineered Cross-feeding in Bacterial ConsortiaThrough engineered amino acid cross-feeding, researchers at the Wyss Institute and Harvard Medical School modified multiple bacterial strains to reverse antagonistic interactions and develop symbiotic relationships, resulting in a more balanced consortium and paving the way for future bacteria-based therapeutics. Credit: Wyss Institute at Harvard University
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Video/AnimationSelf-regenerating bacterial hydrogels as intestinal wound patchesThis animation explains how self-regenerating bacterial hydrogels could be used as adhesive patches to help intestinal wounds heal. Credit: Wyss Institute at Harvard University.
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Video/AnimationLiquid-Infused Tympanostomy TubesResearchers at the Wyss Institute have developed next-generation tympanostomy tubes with an innovative material design that significantly reduces biofouling, implant size, need for revision surgeries, and promotes drug delivery into the middle ear. Credit: Wyss Institute at Harvard University
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Audio/PodcastFormer DI Hoopster Searches For Athletic Boost In The MicrobiomeFormer DI Hoopster Searches For Athletic Boost In The Microbiome was originally broadcast on WBUR’s Only a Game on August 4, 2017. The story features Wyss Core Faculty member George Church and Postdoctoral Fellow Jonathan Scheiman. The original broadcast story can be found here.
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Video/AnimationCRISPR-Cas: Molecular RecordingIn this video, Wyss Institute and Harvard Medical School researchers George Church and Seth Shipman explain how they engineered a new CRISPR system-based technology that enables the chronological recording of digital information, like that representing still and moving images, in living bacteria. Credit: Wyss Institute at Harvard University
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Audio/PodcastDisruptive: Sports GenomicsWith 100 trillion cells in the human body, bacteria outnumber our own human cells 2 to 1. These bacteria make up one’s microbiome, and particularly bacteria in our guts affect all our key organ functions. They play a role in our health, development and wellness, including endurance, recovery and mental aptitude. In this episode of...
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Audio/PodcastDisruptive: Putting Biofilms to WorkBiofilms are commonly known as the slime-producing bacterial communities sitting on stones in streams, dirty pipes and drains, or dental plaque. However, Wyss Core Faculty member Neel Joshi is putting to work the very properties that make biofilms effective nuisances or threats in our daily lives. In this episode of Disruptive, Joshi and postdoctoral fellow...
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Audio/PodcastGeorge Church: Responsibility, art & science of intentional extinction, de-extinction & agingGeorge Church Responsibility, art & science of intentional extinction, de-extinction & aging Wednesday, Feb 17, 2016 ArtScience @ Le Lab Lecture Series: Art, Design, Engineering & Biology – Core Faculty from the Wyss Institute for Biologically Inspired Engineering at Harvard University discuss how the arts and design are informing the frontiers of science. ArtScience @...
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Video/AnimationHuman Organs-On-ChipsWyss Institute researchers and a multidisciplinary team of collaborators have engineered microchips that recapitulate the microarchitecture and functions of living human organs, including the lung, intestine, kidney, skin, bone marrow and blood-brain barrier. These microchips, called ‘organs-on-chips’, offer a potential alternative to traditional animal testing. Each individual organ-on-chip is composed of a clear flexible polymer...
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Video/AnimationSLIPS‘SLIPS’ technology, inspired by the slippery pitcher plant that repels almost every type of liquid and solid, is a unique approach to coating industrial and medical surfaces that is based on nano/microstructured porous material infused with a lubricating fluid. By locking in water and other fluids, SLIPS technology creates slick, exceptionally repellent and robust self-cleaning...
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Video/AnimationSLIPS: Keeping Ice AwayWhat if we could design surfaces that prevent ice formation? ‘SLIPS’ technology, inspired by the slippery pitcher plant that repels almost every type of liquid and solid, is a unique approach to coating industrial and medical surfaces that is based on nano/microstructured porous material infused with a lubricating fluid. By locking in water and other...
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Video/AnimationIntroduction to Sepsis DiagnosticWhat if we could diagnose sepsis in just hours, not days? Wyss Institute researchers discuss their approach to a rapid sepsis diagnostic. Credit: Wyss Institute at Harvard University
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Video/AnimationIntroduction to Organs-on-a-ChipWhat if we could test drugs without animal models? Wyss Institute researchers and a multidisciplinary team of collaborators have engineered microchips that recapitulate the microarchitecture and functions of living human organs, including the lung, intestine, kidney, skin, bone marrow and blood-brain barrier. These microchips, called ‘organs-on-chips’, offer a potential alternative to traditional animal testing. Each...
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Audio/PodcastBuilding a Sustainable FutureIn this episode of Harvard Medical LabCast, Harvard Medical School Professor of Systems Biology and Wyss Institute Core Faculty, Pam Silver discusses engineering organisms that produce fuel and even food. Find out how she’s working to build a sustainable future through synthetic biology.