Multimedia
- Multimedia Type
- Focus Areas
- 3D Organ EngineeringHighly functional, multiscale, vascularized organ replacements that can be seamlessly integrated into the body
- Bioinspired Therapeutics & DiagnosticsTherapeutic discovery and diagnostics development enabled by microsystems engineering, molecular engineering, computational design, and organ-on-a-chip in vitro human experimentation technology
- Computational Design & DiscoveryCombining predictive bioanalytics and machine learning with physical and mathematical modeling and simulation
- Diagnostics AcceleratorDeveloping new diagnostic technologies that solve important healthcare challenges through collaboration at the Wyss Institute with clinicians and industry partners
- Immuno-MaterialsMaterial-based systems capable of modulating immune cells ex vivo and in the human body to treat or diagnose disease
- Living Cellular DevicesRe-engineered living cells and biological circuits as programmable devices for medicine, manufacturing and sustainability
- Molecular RoboticsSelf-assembling molecules that can be programmed like robots to carry out specific tasks without requiring power
- Synthetic BiologyBreakthrough approaches to reading, writing, and editing nucleic acids and proteins for multiple applications, varying from healthcare to data storage
- Technology Areas
- 3D Printing
- Actuators
- Biomarker
- Building Materials
- Cell Therapy
- Diagnostics
- Disease Model
- DNA Nanostructures
- Drug Development
- Filtration & Separation
- Gene Circuits
- Imaging
- Immunotherapy
- Medical Devices
- Microbiome
- Microfabrication
- Microfluidics
- Microsystems
- Nanodevices
- Organs on Chips
- Robots
- Sensors
- Surface Coatings
- Therapeutics
- Vaccines
- Wearable Devices
- Disciplines
- Aging
- Architecture
- Biochemistry
- Bioinformatics
- Biotechnology
- Cell Biology
- Chemical Engineering
- Chemistry
- Computer Science
- Control
- Design
- Electrical Engineering
- Genetics
- Genome Engineering
- Immune Engineering
- Materials Science
- Mechanical Engineering
- Mechanobiology
- Medicine
- Microtechnology
- Nanobiotechnology
- Nanotechnology
- Pharmacology
- Physics
- Physiology
- Polymer Chemistry
- Regenerative Medicine
- Robotics
- Self Assembly
- Stem Cell Engineering
- Surgery
- Synthetic Biology
- Tissue Engineering
- Toxicology
- Application Areas
- Anti-aging
- Apparel
- Bacteria
- Balance & Motor Control
- Brain Disease
- Cancer
- Diabetes
- Drug Development
- Energy
- Fundamental Research
- Heart Disease
- Hemostasis
- Infectious Disease
- Inflammatory Diseases
- Intestinal Disease
- Kidney Disease
- Liver Disease
- Lung Disease
- Manufacturing
- Motor Control
- Personalized Medicine
- Rehabilitation
- Sepsis
- Stroke
- Sustainability
- Targeted Drug Delivery
- Toxicology
- Water
- Women's Health
294 Results for Video/Animation
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Video/AnimationFouling Marine FoulingMarine fouling occurs when organisms attach themselves to underwater objects like boats, rope, pipes and building structures. Mussels are one of the biggest culprits. Once attached, they are difficult to remove, leading to operational downtime, increased energy use and damage. Paints and coatings are currently used to prevent marine fouling, but are frequently toxin-based and not... -
Video/AnimationBattery-Free Folding RobotsWireless, battery-free folding robots are powered by electromagnetic fields, enabling them to move without bulky batteries. Credit: Wyss Institute at Harvard University -
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 -
Video/AnimationSoft Exosuit for Post-stroke Gait Re-trainingThis video explains how exosuit technology, developed at the Wyss Institute for Biologically Inspired Engineering, applied to ankle movements helps patients post-stroke regain a more normal gait. Credit: Wyss Institute at Harvard University -
Video/AnimationSoft Fabric SensorsThis textile-based sensor effectively registers fine motor movements of the human body, taking researchers one step closer to creating soft, wearable robots. Credit: Wyss Institute at Harvard University -
Video/AnimationSoft Exosuit for RunningBuilding upon previous soft exosuit technology, researchers at the Wyss Institute and Harvard SEAS have developed a soft exosuit for running. This exosuit applies forces to the hip joint using thin, flexible wires, assisting the muscles during each stride. Using an off-board actuation system, compared to not wearing the exosuit, this exosuit can reduce the... -
Video/AnimationHow Humans Walk…With RobotsResearchers at the Wyss Institute and Spaulding Rehabilitation Hospital shed light on how humans respond – or do not respond – to forces applied by rehabilitative robots. Credit: Wyss Institute at Harvard University -
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/AnimationTED: What intelligent machines can learn from a school of fishScience fiction visions of the future show us AI built to replicate our way of thinking — but what if we modeled it instead on the other kinds of intelligence found in nature? Robotics engineer Radhika Nagpal studies the collective intelligence displayed by insects and fish schools, seeking to understand their rules of engagement. In... -
Video/AnimationPodocyte Cells: Kidney-on-a-ChipThis video shows a 3-dimensional rendering of the glomerulus-on-a-chip with human stem cell-derived mature podocytes (in green) grown and differentiated in one channel (shown on top) and that extend their processes through the modeled glomerulus basement membrane towards glomerular vascular cells (in magenta) in the parallel running channel (shown on the bottom). Credit: Wyss Institute... -
Video/AnimationArtScience Talks @ Le Lab – Seeing Is Believing: Therapeutic Cancer VaccinesWyss Core Faculty member David Mooney presents a talk with Mary Mooney, titled Seeing Is Believing: Therapeutic Cancer Vaccines. Marshaling a patientÍs immune system to recognize and destroy cancerous cells is an exciting strategy to attack cancer, and this talk will explore materials that engage the immune system through science and artistic representation. Mary K.... -
Video/AnimationHow plant stems grow into different shapesIt is well known that as plants grow, their stems and shoots respond to outside signals like light and gravity. But if plants all have similar stimuli, why are there so many different plant shapes? Using simple mathematical ideas, Harvard University researchers constructed a framework that explains and quantifies the different shapes of plant stems....