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Technologies 6

• Reel Foods: Cultivated fillets of fish for healthier people and planet
  Reel Foods leverages cardiac tissue engineering methods developed at the Wyss Institute to generate cultivated fish fillets that are indistinguishable from wild-caught seafood, have a lower carbon footprint than traditional fish production, and are free from contaminants like mercury and PFAS.
• Kidney Engineering Technology for New Tissue Replacement Therapies
  Trestle Biotherapeutics licensed 3D bioprinting, and stem cell and kidney organoid engineering methods to help it create kidney repair and replacement therapies. These could become new standard-of-care options beyond dialysis and kidney transplants for patients with kidney failure.
• PhonoGraft^TM: Biomimetic Hearing-restoration Technology
  PhonoGraft is an eardrum-regenerating device that enables better and longer-lasting eardrum reconstruction, reducing the need for invasive surgeries and minimizing the risk of long-term hearing loss. Wyss startup Beacon Bio was acquired by Desktop Health, a healthcare business within Desktop Metal, Inc. which is further developing this technology towards commercialization with the former Wyss startup team leading the way.
• MM3D: Multimaterial Multinozzle 3D Printing
  3D printers are revolutionizing manufacturing by allowing users to create any physical shape they can imagine on-demand. However, most extrusion-based printers available commercially are only able to build objects from a single nozzle at a time. Those that can deposit multiple inks are even slower due to the additional time required to switch between materials....
• 4D Printing of Shapeshifting Devices
  Organisms, such as flowers and plants, have tissue compositions and microstructures creating dynamic morphologies that can shapeshift in response to changes in their environments. Researchers at the Wyss Institute have mimicked a variety of such dynamic shape changes like those performed by tendrils, leaves, and flowers in response to changes in humidity or temperature with...
• 3D Bioprinting of Living Tissues
    The Problem There is a severe shortage of human organs for people who need transplants due to injury or disease: more than 103,000 people are on the waiting list for organs in the US, and it’s estimated that 17 people die waiting for an organ transplant every day. Growing full organs from living human...

News 51

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• Awards
  
  Highly Cited Researchers 2025 honors nine Wyss members
  November 17, 2025
• Awards
  
  Jennifer Lewis awarded James Prize in Science and Technology Integration
  January 27, 2025
• Press Release
  
  3D-printed blood vessels bring artificial organs closer to reality
  August 7, 2024

Multimedia 25

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  Video/Animation
  PhonoGraft: Programming the eardrum to repair itself
  Eardrum perforations are a widespread problem affecting millions worldwide. Current standard of care is invasive, involves harvesting an autologous tissue to patch the eardrum, and often requires to revision surgeries, while hearing outcomes remain unsatisfying. What if we could program the eardrum to repair itself after injury? Researchers at the Wyss Institute, Massachusetts Eye and...

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  Video/Animation
  Beating Back the Coronavirus: Face Shields for Frontline Healthcare Workers
  There is a national shortage of personal protective equipment (PPE) for frontline healthcare workers battling the COVID-19 pandemic. Researchers from the Jennifer Lewis Lab at the Harvard School of Engineering and Applied Sciences and Wyss Institute at Harvard University self-assembled into a team manufacturing greatly needed face shields for local hospitals. Credit: Wyss Institute at...

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  Video/Animation
  Voxelated Soft Matter via Multimaterial, Multinozzle 3D Printing
  Multimaterial Multinozzle 3D (MM3D) Printing, a new technique developed by engineers at the Wyss Institute and Harvard SEAS, allows seamless switching between up to eight different materials within a single nozzle, allowing for the creation of complex 3D objects in a fraction of the time required by other extrusion-based 3D printing methods. Credit: Wyss Institute...

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  Audio/Podcast
  Disruptive: 3D Bioprinting
  There 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...

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  Video/Animation
  A Swifter Way Towards 3D-printed Organs
  20 people die waiting for an organ transplant every day in the US, but lab-grown organs so far lack the cellular density and functions required to make them viable replacements. The new SWIFT method from the Wyss Institute and Harvard SEAS solves those problems by 3D printing vascular channel networks directly into living tissue constructs,...

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  Video/Animation
  Kidney Organiods: Flow-Enhanced Vascularization and Maturation In Vitro
  This video explains how the collaborative project created vascularized kidney organoids and how they advance the field of tissue engineering. Credit: Wyss Institute at Harvard University.

Events 3

• Mar 10, 2022,
  12:00pm - 1:15pm
  Lecture
  
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  Harvard Startup Stories: Nicole Black, Beacon Bio
  Hop on Zoom for this lunchtime talk featuring Wyss Lumineer and founder of Beacon Bio, a biomedical device startup that launched to commercialize innovations developed at Harvard SEAS, Harvard’s Wyss Institute, and Mass Eye & Ear. The company was acquired in 2021 by Desktop Metal, where Dr. Black continues to lead the platform’s development. Hosted... Free and open to public
• Apr 13, 2021,
  1:00pm - 2:00pm
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  Additive Manufacturing and the FDA
  In this talk, Dr. Di Prima will discuss his role as a regulatory scientist in the CDRH at the FDA and will be providing a high-level summary of medical device regulations and submission types. The FDA’s history with additively manufactured medical devices will then be covered along with the FDA’s regulatory approach for these products.... Free and open to public
• Sep 22, 2017,
  8:15am - 6:45pm
  Wyss Event
  
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  Wyss Symposium 2017: Therapeutic Organ Engineering
  The 8th Annual Wyss International Symposium will focus on innovations in Therapeutic Organ Engineering, with the goal of sharing recent advances in 3D organ engineering, materials fabrication, and vascular integration that are leading to new organ transplant and regenerative medicine approaches. This event is free, however registration is required. Doors open for registration at 7:30am. Free and open to public