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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/AnimationNanofiber-Reinforced Micro-ActuatorsThis video explains how two fabrication techniques, soft lithography and rotary jet spinning of nanofibers, are combined to create a new type of micro-actuator for the manipulation of small fragile objects in challenging environments. Credit: Wyss Institute at Harvard University -
Video/AnimationThis is Your Brain on ChipsHow do you study something as complex as the human brain? Take it apart. Wyss researchers have created Organ Chips that mimic the blood-brain barrier and the brain and, by linking them together, discovered how our blood vessels and our neurons influence each other. Credit: Wyss Institute at Harvard University -
Video/AnimationTherapeutic Organ Engineering: Highlights From The 8th Annual Wyss SymposiumThe 8th Annual Wyss International Symposium focused on innovations in therapeutic organ engineering, featuring diverse speakers doing exciting work in 3D organ engineering, materials fabrication, and vascular integration. This video highlights some of the themes discussed in their presentations as well as the advances that are leading to the ultimate goals of developing new approaches... -
Video/Animation8th Annual Wyss Institute Symposium: Therapeutic Organ EngineeringScreened just before the symposium opening, this animation artistically connects concepts of therapeutic organ engineering presented during the event. Credit: Wyss Institute at Harvard University -
Video/Animation3D Printed Heart-on-a-ChipIn this video, learn how Wyss Institute and Harvard SEAS researchers have created a 3D-printed heart-on-a-chip that could lead to new customizable devices for short-term and long-term in vitro testing. Credit: Johan U. Lind (Disease Biophysics Group), Alex D. Valentine and Lori K. Sanders (Lewis Lab)/Harvard University -
Audio/PodcastSynthetic Stingray May Lead To A Better Artificial HeartSynthetic Stingray May Lead To A Better Artificial Heart was originally broadcast on NPR’s All Things Considered on July 7, 2016. This story features Wyss Core Faculty member Kit Parker. The original broadcast story can be found here. -
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/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...