Multimedia
- Multimedia Type
- Focus Areas
- 3D Organ EngineeringHighly functional, multiscale, vascularized organ replacements that can be seamlessly integrated into the body
- Bioinspired TherapeuticsTherapeutic discovery and development enabled by microsystems engineering, molecular engineering, computational design, and organ-on-a-chip in vitro human experimentation technology
- Diagnostics for Human and Planetary HealthDeveloping new diagnostic technologies that solve important healthcare and environmental challenges
- 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
17 Results for Audio/Podcast
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Audio/PodcastDisruptive: Accelerating DiagnosticsIn this episode of Disruptive, Wyss Core Faculty member David Walt discusses his lessons learned from founding successful biotech companies and how he incorporates translation-minded thinking early on into his current diagnostic research in his labs at the Wyss Institute and the Brigham and Women’s Hospital. Walt and collaborators are inventing new diagnostic tools to... -
Audio/PodcastDisruptive: Art Advances ScienceIn this episode of Disruptive, Wyss Institute Founding Director Don Ingber and Staff Scientist Charles Reilly discuss their process creating The Beginning, a short film inspired by Star Wars, to better communicate science to the public…and how they made a scientific discovery along the way. To make The Beginning, film industry visual effects and animation... -
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... -
Audio/PodcastDisruptive: Mechanotherapeutics – From Drugs to WearablesMechanobiology reveals insights into how the body’s physical forces and mechanics impact development, physiological health, and prevention and treatment of disease. The emerging field of Mechanotherapeutics leverages these insights towards the development of new types of pharmaceuticals, drug delivery systems, engineered tissues, and wearable therapeutic devices that leverage physical forces or target mechanical signaling pathways... -
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... -
Audio/PodcastDisruptive: Fluorescent In Situ SequencingDeveloped at the Wyss, FISSEQ (fluorescent in situ sequencing) is a spatial gene sequencing technology that reads and visualizes the three-dimensional coordinates of RNA and mRNAs – the working copies of genes – within whole cells and tissues. FISSEQ affords insights into biological complexity that until now have not been possible. In this episode of... -
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... -
Audio/PodcastDisruptive: Rapid, Low-Cost Detection of Zika & Future PandemicsThe rapid emergence of the Zika virus on the world stage calls for a detection system that is just as quick. In this episode of Disruptive, Wyss Core Faculty member and MIT professor Jim Collins and University of Toronto Assistant Professor Keith Pardee discuss how they developed a low cost, paper-based diagnostic platform that can... -
Audio/PodcastDisruptive: 3D BioprintingThere are roughly 120,000 people in the United States on waiting lists for live-saving organ transplants, with only about 30,000 transplants happening every year. To address this great challenge of organ shortages, a team at the Wyss Institute led by Core Faculty member Jennifer Lewis, Sc.D., is developing a method for 3D bioprinting organ tissues... -
Audio/PodcastDisruptive: Bioinspired Robotics (pt. 2)Our bodies—and all living systems—accomplish tasks far more complex and dynamic than anything yet designed by humans. Many of the most advanced robots in use today are still far less sophisticated than ants that “self–organize” to build an ant hill, or termites that work together to build impressive, massive mounds in Africa. From insects in... -
Audio/PodcastDisruptive: Synthetic BiologyWhat sorts of breakthroughs are possible by modifying an organism’s genome – something researchers are now able to do ever more cheaply and efficiently? Researchers around the world are already able to program microbes to treat waste water, generate electricity, manufacture jet fuel, create hemoglobin, and fabricate new drugs. What sounds like science fiction to... -
Audio/PodcastDisruptive: Soft Robotics for Deep Sea ExplorationThe deep ocean is the least explored environment on Earth, and scientists estimate that many thousands of species are yet to be encountered. Marine researchers depend on tools primarily developed for the military or the oil and gas industry to study and capture undersea organisms. Many of them are extremely fragile, some thousands of years...