Technologies search results
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Instrument-Free Molecular Diagnostics
A synthetic biology-based molecular diagnostics platform that enables the creation of low-cost, highly accurate tests for non-clinical settings. -
Metabolically Labeled CAR-T Cells Against Cancer
Through a simple and effective metabolic labeling approach, patient-derived T cells engineered to carry immune-enhancing cytokines on their surfaces could help expand adoptive T cell therapies to treatment of solid tumors and improve blood cancer therapies. -
NodeTX: Growing Lymph Nodes to Treat Cancer
NodeTX is a novel immunotherapy that leverages the human body's innate ability to grow lymph nodes to fight tumors. -
Crisscross Nanoseed Detection: Nanotechnology-Powered Infectious Disease Diagnostics
This nanotech-based diagnostic platform uses a unique nucleation mechanism that assembles a DNA "nanoseed" in the presence of a pathogen-derived biomarker that then is amplified within 15 minutes to create a signal for easy detection. It is highly robust, and cost-effective, and can be adapted to detect a variety of biomarkers. -
Cellular “Backpacks” to Fight Cancer, Autoimmune Disorders, and More
Macrophages are very malleable immune cells, but that also means that they can be influenced by cancerous tumors and inflammatory processes. Our cellular "backpacks" stick to macrophages and can deliver molecules that keep them in their desired state for cell therapy and more. -
eRapid: Multiplexed Electrochemical Sensors for Fast, Accurate, Portable Diagnostics
Handheld electrochemical sensors have revolutionized at-home medical testing for diabetics, but they have not yet been successfully applied to diagnosing other conditions. These sensors are based on the activity of an enzyme, and there are only a limited number of enzymes that can be used to detect biomarkers of human disease. An alternative, much more... -
Passive Directional Valve Technology: Towards More User-friendly and Accessible Microfluidic Devices for Diagnostic and Research Applications
Passive directional valves enable smaller and more complex microfluidics applications across of broad spectrum of future technologies, including diagnostics, drug development, and tissue engineering. -
Tunable ECMs for More Effective T cell Therapies
Tunable hydrogels that enhance the efficacies of adoptively transferred immune cells during their manufacturing by mimicking target tissue biomechanics. -
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. -
eRNA: Enzymatic RNA synthesis for better drugs
EnPlusOne Biosciences is enabling RNA oligonucleotide manufacturing at scale, meeting the increasing demand for RNA drugs with an enzymatic process that is more efficient and creates a smaller environmental footprint. -
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. -
eRapid: Multiplexed Electrochemical Detection of Complex Diseases
StataDX licensed the eRapid portable electrochemical sensing technology to develop diagnostics for neurological, cardiovascular, and renal diseases with a first focus on building a point-of-care platform for difficult-to-detect neurological disorders. -
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... -
directEsense: Revolutionizing Animal Diagnostic Testing at the Point-of-Care
Electrochemical biosensors using a novel surface chemistry offer new opportunities for portable diagnostics with the potential to detect many disease biomarkers in animals and beyond. -
Biotechnology for Conservation and De-Extinction
Colossal Biosciences is leveraging a suite of technologies including genome engineering to de-extinct critical species like the wooly mammoth to advance conservation to combat biodiversity loss. -
wFDCF Face Masks: A Wearable COVID-19 Diagnostic
The Problem The COVID-19 pandemic has made it starkly clear that the world lacks rapid, accurate diagnostic tests for pathogens. When patients arrive in a medical facility for treatment, the triage process is hindered by diagnostic tests that are inaccurate or take a long time to produce results. In addition, patients who are asymptomatic and... -
PhonoGraftTM: 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. -
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. -
Rapid Metabolite-Sensing System for Blood Lactate
In emergency medicine, blood lactate levels are a reliable real-time indicator of the severity and mortality risk of conditions that occur as a result of poor blood circulation and oxygen supply to organs and tissues (hypoperfusion), such as in patients with sepsis, cardiac arrest, stroke, major trauma, cystic fibrosis and other conditions. Lactate levels also... -
DNA Nanotechnology Tools: From Design to Applications
A suite of diverse, multifunctional DNA nanotechnological tools with unique capabilities and potential for a broad range of clinical and biomedical research areas. Our DNA nanotechnology devices were engineered to overcome specific bottlenecks in the development of new therapies and diagnostics, and to help further our understanding of molecular structures. -
Multiplexed Protein Binding and Barcoding Platform for Drug Development
Manifold Bio is commercializing an end-to-end drug discovery and development platform to improve the efficiency of protein therapeutic creation. -
OMNIVAX: Broadly Deployable Infection Vaccine Platform
OMNIVAX is an immuno-material-based vaccine platform technology able to create safe and effective therapeutic and prophylactic vaccines against viral and bacterial threats. Its modular approach enables the rapid creation of vaccines for pathogens using known and unknown antigens. Current approaches include vaccines against some viral diseases. -
FcMBL: Broad-Spectrum Pathogen Capture for Infectious Disease Diagnosis and Therapy
The Problem Infectious diseases have plagued humanity for millennia, and the pathogens that infect and sicken humans are constantly evolving. Severe infections can cause sepsis, a life-threatening condition in which a patient’s immune system overreacts to the infection. The body starts to attack itself, which can lead to tissue damage, organ failure, and death. Sepsis... -
Athlete-Derived Probiotics
FitBiomics is commercializing probiotic supplements based on unique combinations of microbes found in elite athletes’ guts to help optimize the health and function of all humans. -
Synthetic Adeno-Associated Virus (AAV) Capsids for Advanced Gene Therapy
Dyno Therapeutics is aiming to become a leading gene therapy delivery partner for companies in this space, and to enable a new generation of more effective, safer gene therapies by harnessing optimized AAV capsids. -
abbieSense: Anaphylaxis Diagnostic
The molecule histamine plays a primary role in the anaphylaxis reaction, which is a major cause of illness and death in people with severe allergies. Histamine is a very small molecule composed of only seventeen atoms, making it a challenging target to detect. To date, no diagnostic test exists that can measure histamine levels accurately... -
Biomaterial Scaffolds for T Cell Expansion
Immunotherapy, or tweaking the body’s own immune system to treat disease, is attracting significant attention in the medical field for its potential to offer long-lasting cures with fewer side effects than chemotherapy or other drugs. One type of immunotherapy involves isolating T cells (a type of white blood cell) from a patient’s body, sometimes modifying... -
RAPID: Testing for Food Contaminants
Contamination of food by microorganisms such as certain bacteria, viruses and fungi is a constant concern, with even miniscule amounts of certain species posing a risk for foods to become unsafe and spoiled during storage. Current safety and quality tests are often not sensitive enough to detect rare species, and because they first require the... -
Engineered Brain Organoids
The ability to derive and manipulate pluripotent stem cells has opened up new avenues for modeling biological systems in both healthy and diseased conditions. In order to more fully recapitulate the tissue microenvironment with its cell-cell, cell-extracellular matrix, and cell-niche interactions, it is essential to transition stem-cell culturing from monolayers to 3D structures. Self-organization of... -
Gene Drives
Since the 1940s, researchers have thought of using gene drives to eradicate populations of pests and disease vectors, and to reduce or eliminate invasive species that wreak havoc on natural ecosystems. The idea of a gene drive stems from nature itself, where in sexually reproducing organisms a certain version of a gene is preferentially passed... -
Targeted EPO: Safely Normalizing Oxygen Delivery in a Broad Range of Disease Conditions
General Biologics commercializes Targeted EPO as a first-in-class fusion protein therapeutic for the treatment of life-threatening and limiting hypoxia in various disease conditions, including COPD, cystic fibrosis, COVID-19, and severe anemias, such as in patients with kidney failure. -
Cell-Free Biomolecule Manufacturing
Wyss Institute researchers have developed a biomolecular manufacturing method that can quickly and easily produce a wide range of vaccines, antimicrobial peptides and antibody conjugates while doing so anywhere, even in places without access to electrical power or refrigeration. The breakthrough could provide a life-saving workaround for making modern interventions available in remote areas. Today... -
FISSEQ: Fluorescent In Situ Sequencing
Working copies of active genes — called messenger RNAs or mRNAs —translate the genetic information present in DNA into proteins within the cells’ multiple compartments. They are often positioned strategically within cells in ways that contribute critically to how cells and tissues grow, develop and function, and their mislocation can lead to disease development. To... -
NanoRx: Mechanically-Activated Drug Targeting
The Wyss team has developed a novel drug targeting nanotechnology that is activated locally by mechanical forces, either endogenous high shear stresses in blood created by vascular occlusion or mechanical energy applied locally using low-energy ultrasound radiation. Today, vascular blockage is the leading cause of death and disability in United States and Europe. Current therapies... -
Injectable Hydrogels for Better Drug Delivery
Wyss researchers have developed a new approach to delivering drugs and therapeutic cells using biocompatible and biodegradable hydrogels made of alginate, a naturally occurring polysaccharide from brown algae. Injectable hydrogels could greatly improve clinical ability to provide extended drug release and controlled delivery throughout the body or at targeted local sites. The method holds promising... -
DNA Data Storage
The genetic material DNA has garnered considerable interest as a medium for digital information storage because its density and durability are superior to those of existing silicon-based storage media. For example, DNA is at least 1000-fold more dense than the most compact solid-state hard drive and at least 300-fold more durable than the most stable... -
MAGE: Multiplex Automated Genomic Engineering
Developed at the Wyss Institute, the multiplex automated genome engineering (MAGE) technology harnesses the natural principles of evolution to do all the heavy lifting of genome design and automates these steps to dramatically shorten the time scale required to produce microbes with specialized functionalities for manufacturing, sensing and therapeutic applications. Genome engineering has a wide...