Search results

Technologies 11

View all

• FeCILL: Targeted Treatment for Severe Fungal Infections
  FeCILL is novel delivery vehicle for antifungal drugs that targets them right to the infection site and reduces harmful side effects in patients with severe fungal infections.
• SomaCode: Getting Cell Therapies Where They Need to Go
  SomaCode is solving the problem of cell therapy delivery by identifying unique molecular “zip codes” for disease and engineering cells to home to those zip codes, making cell therapies safer and more effective.
• Sustained Growth Factor Delivery for Regenerating Tissues
  The Problem Millions of people worldwide suffer from traumatic injuries or health conditions that cause damage to soft tissues including nerves, muscles, and blood vessels. The body can heal some of that damage, but more serious cases like the severing of a nerve or sustained oxygen deprivation can lead to permanent loss of movement or...
• MRBL: Next-Generation Gene Therapy for Molecular Skin Rejuvenation
  The next-generation gene therapy for molecular skin rejuvenation combines a comprehensive target gene prediction with a novel transdermal delivery approach for therapeutic adenovirus-associated viruses. The platform targets monogenic disease indications in the skin, and extends the same targets to the treatment of common skin aging conditions.
• Single-Cell Encapsulation for Improved Cell Therapies
  The Problem Mesenchymal stromal cells (MSCs) are valued for their ability to secrete compounds that modulate the body’s immune system, making them an attractive solution for existing problems with cell therapies including host-vs-graft disease and organ transplant rejections. However, MSCs are rapidly cleared from the body and can come under fire from the immune system....
• Injectable Alginate Hydrogels for Medical Applications
  One of the biggest challenges in medicine is getting a drug to the right part of the body at the right time. Even when the target site in the body is known, like a pain-causing injury or a cancerous tumor, most drugs are given as oral pills or intravenous infusions, which limits their effectiveness. In...

Collaborations 1

• Brain Targeting Program
  Pre-competitive multi-partner industry collaboration that aims to identify novel transport targets and shuttle compounds to enable more effective delivery of drugs to the brain.

News 90

View all

• Press Release
  
  Moving the needle on monitoring skin cancer
  August 21, 2023
• Community
  
  Neha Kapate on Backpacking her way into a New Frontier for Treating Incurable Diseases
  June 23, 2023
• Community
  
  Reimagining treatment for brain diseases to improve the lives of patients and their families: Ana Raquel Santa Maria
  May 11, 2023

Multimedia 37

View all

• 

  Video/Animation
  Genetic & Cellular Engineering w/ David Schaffer & Samir Mitragotri – BIOS Roundtable
  Samir Mitragotri is a Core Faculty member at the Wyss Institute and the Hiller Professor of Bioengineering & Hansjorg Wyss Professor of Biologically Inspired Engineering at Harvard SEAS. David Schaffer is Professor at UC Berkeley & Director at BBH. The two discuss Genetic and Cellular Engineering, with a focus on delivery challenges.

• 

  Video/Animation
  How can we better treat brain diseases?
  The Brain Targeting Program at the Wyss Institute is a pre-competitive, multi-partner industry collaboration that aims to identify novel transport targets and shuttle compounds to enable more effective delivery of drugs to the brain. Credit: Wyss Institute at Harvard University

• 

  Video/Animation
  FeCILL: Reimagining How We Treat the Sickest Patients
  Opportunistic fungal infections usually only affect patients whose immune systems are compromised, but when they do, they are often deadly – the mortality rate for these infections can be as high as 25%. Existing antifungal treatments have high levels of toxicity, and can harm the patient more than they help. Researchers at the Wyss Institute...

• 

  Video/Animation
  SomaCode: GPS for Cell Therapy
  Just like zip codes help drivers navigate to specific addresses using a GPS system, the molecular ‘zip codes’ identified via the SomaCode platform can be used to deliver cell therapies to their specific targets in the human body, increasing the therapies’ efficacy and reducing side effects. Credit: Wyss Institute at Harvard University

• 

  Video/Animation
  Janus Tough Adhesives for Tendon Repair
  There is a large unmet need for tendon regeneration therapies after injury. Building upon the tough gel adhesive technologies developed at the Wyss Institute at Harvard University and the Harvard School of Engineering and Applied Sciences, researchers from these institutions collaborated with a group at Novartis to create the Janus Tough Adhesives (JTAs). This two-sided...

• 

  Video/Animation
  eToehold: an RNA-detecting control element for use in RNA therapeutics, diagnostics and cell therapies
  This animation shows an example of an eToehold that detects and signals the presence of a specific viral RNA in a human cell. After the virus has injected its RNA into a host cell, the RNA acts as a “trigger RNA” by binding to a complementary sequence within the eToehold specifically engineered for its detection....