Technologies search results
9 Results for ''
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Ichor: Reversing Aging
Ichor is addressing multiple age-related diseases by identifying genetic interventions that reprogram old cells to a younger state. Therapies based on these interventions could improve survival for cancer patients and long-term cardiovascular and neurological health. -
HarborSite: Precise and Efficient Gene Editing for Next-Generation Gene Therapies
The HarborSite next-generation gene therapy platform enables integration of therapeutic genes into genomic safe harbors using highly specific and efficient recombinases to enable more predictable, safe and durable gene therapies. -
Plastivores: Plastic-Degrading Super-Microbes and Enzymes
The Plastic Degradation project identifies microbes from natural sources that have a low-level ability to degrade multiple types of plastic. In the laboratory, with the help of synthetic biology, those microbes then are evolved into much more effective plastic-eating microbes that, in the future, could be globally deployed to decompose plastic waste. -
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. -
Human Ovarian Organoids to Improve Women’s Health
Gameto is using the Wyss Institute’s fully human ovarian organoid technology to solve the global problem of rising infertility by making IVF safer, cheaper, and more accessible. -
Circe: Transforming Greenhouse Gases into Biodegradable Products
Circe is a platform technology that uses engineered microbes to produce valuable, biodegradable synthetic polymers from greenhouse gases, minimizing the environmental impact of manufacturing. Potential applications include biodegradable plastics and packaging, energy-efficient agriculture, clean personal care products, and more. Circe is a platform technology that uses engineered microbes to produce valuable, biodegradable synthetic polymers from greenhouse gases, minimizing the environmental impact of manufacturing. Potential applications include biodegradable plastics and packaging, energy-efficient agriculture, clean personal care products, and more. -
Engineered Live Biotherapeutic Product (eLBP) to Protect the Microbiome from Antibiotics
eLBP is a safe and cost-effective therapeutic for patients treated with beta-lactam antibiotics that safeguards against the loss of health-essential microbes while preventing the development and spread of antibiotic resistance. -
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. -
Circe: Tailored Fats for Food Applications
Circe Bioscience spun out of the Wyss Institute in 2023 to commercialize their gas-fermentation-based technology that uses engineered microbes to convert greenhouse gases into fats for use in food products without the use of plants or animals.