Technologies search results
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Pancreatitis Tx: An Engineered Protein Treatment for Pancreatitis
First disease-modifying therapy that can be systemically applied to safely and effectively treat patients with different forms of pancreatitis. -
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. -
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. -
DoriVac: Boosting Antigen-specific Immune Responses with DNA Origami-Based Vaccines
Personalized cancer and infectious disease vaccine platform harnessing DNA nanotechnology to control the co-delivery and co-presentation of tumor antigen and adjuvant ligands to immune cells with nanoscale precision. This approach has potential to trigger enhanced immune responses against tumors and infectious pathogens. -
CogniXense for Rare Disease Drug Discovery
Unravel Biosciences has licensed a Wyss drug discovery platform technology to identify and create drugs to treat complex central nervous system disorders, starting with Rett syndrome. -
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. -
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... -
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. -
Soft Robotic Glove for Neuromuscular Rehabilitation
The soft robotic glove helps restore lost hand function in patients with neurological conditions using inflatable chambers that gently bend and straighten the fingers repeatedly. Wyss startup Imago Rehab launched in 2021 to commercialize this technology for at-home rehabilitation of stroke survivors, and aims to expand its offerings into other areas of rehabilitation. -
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. -
Tough Gel Adhesives for Wound Healing
A Band-Aid® adhesive bandage is an effective treatment for stopping external bleeding from skin wounds, but an equally viable option for internal bleeding does not yet exist. Surgical glues are often used inside the body instead of traditional wound closure techniques like stitches, staples, and clips because they reduce the patient’s time in the hospital... -
Broad-Spectrum RNA Therapeutic for Treatment of COVID-19 and Influenza
Our novel dsRNAs stimulate the immune system to inhibit many respiratory infections, including SARS-CoV-2, related SARS viruses, and multiple influenza strains. -
Cellular “Backpacks” to Slow Tumor Growth
Macrophages are the body’s multipurpose defense agents, patrolling for pathogens and engulfing cellular debris, foreign substances, microbes, and even cancer cells. But cancerous tumors have evolved an insidious defense mechanism: they can switch arriving macrophages from an anti-cancer state to a pro-cancer state, in which they help promote the tumor’s growth. As a result, attempts... -
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. -
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. -
Bone Marrow-Like Scaffolds for Accelerating Immune Reconstitution
An implantable bone marrow cryogel to accelerate the full reconstitution of the immune system, including T cell immunity, in patients that received chemotherapy and a bone marrow transplant. This could provide an off-the-shelf, material-based solution for patients with severe blood disorders whose immunity is recovering only slowly after treatment. -
eRNA: Controlled Enzymatic RNA Oligonucleotide Synthesis
Synthetic RNA oligonucleotides designed as specific successions of the four nucleobases A, U, G, and C that mimic naturally occurring RNA species are the key components of diverse RNA-based therapies. These include RNA therapeutics that can partially or completely turn off the expression of disease-causing genes (antisense and interfering RNAs), help replace or supplement dysfunctional... -
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... -
Single-Cell Encapsulation for Improved Cell Therapies
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. Efforts to... -
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... -
Liquid-Infused Tympanostomy Tubes
The Problem Acute middle ear infections affect more than 700 million people each year, with children often experiencing the most recurrent and severe symptoms. By the age of three, 25-40% of children have had at least three episodes of acute middle ear infection, which is commonly accompanied by excess fluids accumulating behind the tympanic membrane... -
CogniXense: A Platform for Rapid Drug Repurposing
CogniXense is a target-agnostic drug discovery platform that enables the repurposing of drugs for rare genetic diseases in record time. By combining human data-based computational drug prediction with on-demand animal model development, we can mimic the diversity of symptoms of patient populations and begin drug screening on new diseases within a month. -
Synthetic AAV Capsids for Advanced Gene Therapy
The protein shell (capsid) of Adeno-associated viruses (AAV) are presently the most promising delivery vehicles for various in vivo gene therapies. AAVs are non-pathogenic and, through past engineering efforts, have become safe due to their inability to integrate into and damage the genome of target cells. Rather, the delivered DNA containing a therapeutic gene of... -
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... -
Soft Exosuits for Back Support During Strenuous Tasks
Over half a million workers in the manufacturing and construction industries are injured on the job each year, resulting in an estimated direct cost of $13.8 billion. Occupational back pain is the leading cause of injury and accounts for one-third of all musculoskeletal injuries, resulting in a median of eight days of missed work. Discussions... -
Toehold Switches for Synthetic Biology
The burgeoning field of synthetic biology is designing artificial gene circuits that recognize molecules in their environment and respond by regulating genes with desired activities. In the future, such capabilities could allow the engineering of cells as diagnostic or therapeutic devices, factories for the production of clinically or industrially coveted molecules, and as specialized devices... -
Light-Reflecting Balloon Catheter for Heart Repair
Certain Congenital Heart Defects (CHD) called Atrial Septal Defect (ASD) and Ventricular Septal Defect (VSD) occur when openings in the septum that divides the upper and lower heart chambers causes oxygen-rich blood from the upper chamber to mix with oxygen–poor blood from lower chamber. According to the Centers for Disease Control and Prevention, ASD alone... -
Soft Robotic Shoulder Support for Stroke Rehabilitation
The majority of stroke survivors have difficulty using their affected arm in everyday life. Commercial rehabilitation robots exist, but most are expensive, rigid, non-portable exoskeletons that can only be used in clinical rehabilitation settings. Portable devices could considerably increase the frequency and amount of robotic therapy, maximizing the recovery possible for patients with arm impairments.... -
Implantable Cancer Vaccine
The implantable cancer vaccine is an aspirin-sized disc that is implanted under the skin and serves as an artificial lymph node, recruiting and training a patient's own immune cells to find and kill their cancer cells. It was validated in a Phase I clinical trial at the Wyss Institute, and is currently being developed by Novartis to treat melanoma. -
Microfluidic Drug Encapsulation
Because of their large molecular sizes and properties, biologic drugs, be it in the form of monoclonal antibodies that target disease-associated molecules or active proteins and enzymes that may correct deficiencies in the human body, have proven difficult to deploy in many cases. Their therapeutic effects on target cells and tissues often require high and... -
JetValve for Heart Regeneration
The human heart beats approximately 35 million times every year, pumping blood into the circulation via four different heart valves. In more than four million people each year, heart valves fail for different reasons, including birth defects, age-related deteriorations and infections. At present, clinicians use either artificial prostheses or fixed animal and cadaver-sourced tissue to... -
T Cell Traps
T cells, a subtype of white blood cells, play key roles in cell-mediated immunity, be it to fight infections and cancer or, when corrupted, to react against the body’s own cells in more than 80 autoimmune diseases, including type I diabetes, multiple sclerosis, rheumatoid arthritis and others. However, isolating disease-related T cells from the body... -
Fusion Proteins for Reduced Drug Toxicity
Therapeutic variants of the natural hormone erythropoietin (EPO) which is produced in the kidney to boost the production of red blood cells are commonly used to treat anemias stemming from kidney disease, chemotherapy and other complications. However, many drugs that are based on therapeutic proteins, including EPO, often cause unwanted side effects because they not... -
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... -
Project Abbie
Over 15 million Americans are at risk of anaphylaxis, a severe allergic reaction triggered by exposure to certain foods, materials, medications, and insect bites. Every three minutes, a food reaction sends someone to the emergency room. In most individuals, anaphylactic shock can be prevented by administering the counteracting drug epinephrine, as soon as an attack... -
Active Mattress for Infant Health
Wyss pediatric biotech startup Prapela is commercializing a gently vibrating mattress pad that helps soothe infants and normalize their breathing. This medical device can be used to address a variety of health conditions, including infant apnea and neonatal opioid withdrawal syndrome. -
Soft Exosuits for Lower Extremity Mobility
Our lower-extremity soft exosuit is made of light, flexible fabrics that move with the wearer like clothing, and apply precisely timed assistive forces to a patient's ankles to improve their walking and mobility. This technology was licensed by ReWalk Robotics, which has commercialized it as the ReStore™ for stroke rehabilitation. -
Human Organs-on-Chips
Organ Chips are microfluidic devices lined with living human cells for drug development, disease modeling, and personalized medicine. Launched in 2014, Wyss startup Emulate, Inc., is leveraging the Wyss Institute’s Organ Chip technology to mimic human organs in vitro, enabling faster, better, and cheaper drug development and insights into human health. -
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...