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Video/AnimationMucus Layer In Vitro on Human Colon ChipUsing Human Organ Chips, researchers at the Wyss Institute were able to generate the mucus layer of the colon in vitro, which has never been done before. In the colon, the mucus layer protects intestinal epithelial cells against inflammatory stimuli such as pathogens, damaged cells, or irritants. The ability to support mucus-producing cells is one... -
Audio/PodcastResearching Biosensors with Dr. Pawan JollyPoint of Care Medical Devices are the future! Pawan Jolly, Ph.D., Senior Staff Scientist at The Wyss Institute for Biologically Inspired Engineering at Harvard University talks with Jonah and Aryan of the Beyond the Books podcast about his research in the biosensor and medical device arena. They ask him about his latest COVID-19 focused project,... -
Video/AnimationeRapid: Bringing Diagnostics HomeSenior Research Scientist, Pawan Jolly, gives an overview of the eRapid Institute Project, a platform of multiplexed electrochemical sensors for fast, accurate, portable diagnostics. Credit: Wyss Institute at Harvard University -
Video/AnimationInterrogator: Human Organ-on-ChipsThis video describes the “Interrogator” instrument that can be programmed to culture up to 10 different Organ Chips and sequentially transfer fluids between their vascular channels to mimic normal human blood flow between the different organs of our body. Its integrated microscope enables the continuous monitoring of the tissues’ integrities in the individual organ chips... -
Video/AnimationeRAPID: a Platform for Portable DiagnosticseRapid is an electrochemical sensing platform that uses a novel antifouling coating to enable low-cost, multiplexed detection of a wide range of biomolecules for diagnostics and other applications. Credit: Wyss Institute at Harvard -
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. -
Video/AnimationabbieSenseabbieSense is a Wyss technology that can detect histamine levels in human body fluids and determine the severity of an allergic reaction, which could help save the lives of patients with severe allergies. Credit: Wyss Institute at Harvard University -
Audio/PodcastDisruptive: Cancer Vaccine and Immuno-MaterialsImmunotherapy – treatment that uses the body’s own immune system to help fight disease – has groundbreaking and life-saving implications. In an effort to make immunotherapy more effective, Wyss Institute researchers are developing new immuno-materials, which help modulate immune cells to treat or diagnose disease. In this episode of Disruptive, Dave Mooney, Wyss Core Faculty... -
Video/AnimationWyss Focus: Immuno-MaterialsWyss Core Faculty, Dave Mooney, explains our new Immuno-Materials Focus Area, which adds a new dimension to immunotherapy in that it harnesses materials to make treatments more efficient and effective. These material-based systems are capable of modulating immune cells and releasing them into the body where they can treat diseases. -
Video/AnimationProject ABBIEProject ABBIE is inspired by the story of Abbie Benford, who succumbed to complications related to anaphylaxis just eight days before her 16th birthday. The Wyss Institute, in collaboration with Boston Children’s Hospital, is developing a wearable, non-invasive device that could sense anaphylaxis and automatically inject epinephrine in individuals who are unable to do so... -
Video/AnimationSmoking Human Lung Small Airway-on-a-ChipIn this video, Wyss Founding Director Donald Ingber and Technology Development Fellow Kambez Benam explain how the integrated smoking device mimics normal cigarette smoke exposure and how it can impact research into the causes of COPD and into new biomarkers and therapeutics. Credit: Wyss Institute at Harvard University -
Video/AnimationSmall Airway-on-a-Chip: Modeling COPD and AsthmaDevelopment of new therapeutics for chronic lung diseases have been hindered by the inability to study them in vitro. To address this challenge, Wyss Institute researchers used their Organ-on-a-Chip technology to produce a microfluidic ‘human lung small airway-on-a-chip.’ The device, which is composed a clear rubber material, is lined by living Human lung small airway... -
Video/AnimationDistributed Cell Division CounterGenetically engineered E. coli containing a fluorescing red protein enabled a Wyss Institute and Harvard Medical School team to analyze the population fluctuations of gut microbes by comparing proportion of “marked” to “unmarked” cells. Credit: Wyss Institute at Harvard University -
Video/AnimationPathogen-Extracting Sepsis TherapyThis video explains how sepsis induced by an overload of blood pathogens can be treated with the Wyss Institute’s improved pathogen-extracting, spleen-mimicking device. Blood is flown through a cartridge filled with hollow fibers that are coated with a genetically engineered blood protein inspired by a naturally-occurring human molecule called Mannose Binding Lectin (MBL). MBL is... -
Video/AnimationGastrointestinal Re-ProgrammingIn this animation, see an example of how genetically engineered microbes being developed by researchers at the Wyss Institute could detect and treat a wide range of gastrointestinal illnesses and conditions. Credit: Wyss Institute at Harvard University -
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... -
Video/AnimationBioinspired Approach to Sepsis TherapyWyss Institute Founding Director Don Ingber, Senior Staff Scientist Michael Super and Technology Development Fellow Joo Kang explain how they engineered the Mannose-binding lectin (MBL) protein to bind to a wide range of sepsis-causing pathogens and then safely remove the pathogens from the bloodstream using a novel microfluidic spleen-like device. Credit: Wyss Institute at Harvard... -
Video/AnimationVirus-inspired DNA NanodevicesWyss Institute Core Faculty member William Shih and Technology Development Fellow Steven Perrault explain why DNA nanodevices need protection inside the body, and how a viral-inspired strategy helps protect them. Credit: Wyss Institute at Harvard University -
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...