precision medicine

Precision medicine is an emerging approach for disease treatment and prevention that takes into account individual variability in genes, environment, and lifestyle for each person. This approach will allow doctors and researchers to predict more accurately which treatment and prevention strategies for a particular disease will work in which groups of people. It is in contrast to a “one-size-fits-all” approach, in which disease treatment and prevention strategies are developed for the average person, with less consideration of the differences between individuals.

Researchers at WID with expertise in complex biological systems, epigenetics, data science, health care, gene editing, and tissue engineering will contribute to “healthy people” initiatives through precison medicine.

Precision medicine is an important component of WID’s Multi-Omics Hub.

Micro-Molded ‘Ice Cube Tray’ Scaffold is Next Step in Returning Sight to Injured Retinas
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Micro-Molded ‘Ice Cube Tray’ Scaffold is Next Step in Returning Sight to Injured Retinas

archive_admin2024-11-14T21:49:43-06:00

WID's Sarah Gong is part of a team that developed a micro-molded scaffolding photoreceptor "patch" to be implanted under damaged or diseased retinas, the next step in restoring sight.

Micro-Molded ‘Ice Cube Tray’ Scaffold is Next Step in Returning Sight to Injured Retinasarchive_admin2024-11-14T21:49:43-06:00

Fixing Genetic Mistakes to Restore Vision
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Fixing Genetic Mistakes to Restore Vision

archive_admin2024-11-14T21:52:43-06:00

Shaoqin "Sarah" Gong collaborates on a new approach to target genetic mutations and develop a new therapy for restoring vision in children and adults.

Fixing Genetic Mistakes to Restore Visionarchive_admin2024-11-14T21:52:43-06:00

Randolph Ashton and Collaborators Win WARF Innovation Award
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Randolph Ashton and Collaborators Win WARF Innovation Award

archive_admin2024-11-14T21:54:52-06:00

WID's Randolph Ashton, Gavin Knight, Benjamin Knudsen, and Nisha Iyer take top honors from the Wisconsin Alumni Research Foundation's Innovation Awards. Their work, Superior Neural Tissue Models for Disease Modeling, Drug Development and More, was selected from more than 400 innovation disclosures.

Randolph Ashton and Collaborators Win WARF Innovation Awardarchive_admin2024-11-14T21:54:52-06:00

New Effective and Safe Antifungal Isolated from Sea Squirt Microbiome
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New Effective and Safe Antifungal Isolated from Sea Squirt Microbiome

ppointer2024-11-14T21:56:23-06:00

By combing the ocean for antimicrobials, scientists at the University of Wisconsin–Madison have discovered a new antifungal compound that efficiently targets multi-drug-resistant strains of deadly fungi without toxic side effects in mice. WID postdoc Marc Chevrette is part of the team that published the finding in Science.

New Effective and Safe Antifungal Isolated from Sea Squirt Microbiomeppointer2024-11-14T21:56:23-06:00

UW Researchers Devise Approach to Treat Rare, Incurable Form of Blindness
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UW Researchers Devise Approach to Treat Rare, Incurable Form of Blindness

archive_admin2024-11-14T21:58:38-06:00

WID's Kris Saha was among UW–Madison researchers who have published a proof-of-concept method to correct an inherited form of macular degeneration that causes blindness, and that is currently untreatable.

UW Researchers Devise Approach to Treat Rare, Incurable Form of Blindnessarchive_admin2024-11-14T21:58:38-06:00

New Tool for Assessing Heart Muscle Cells Helps Unlock Their Potential
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New Tool for Assessing Heart Muscle Cells Helps Unlock Their Potential

archive_admin2024-11-14T21:59:49-06:00

A team of UW-Madison researchers led by Discovery Fellow Wendy Crone has created a powerful tool to help assess what experimental factors help to produce stem cell-generated cardiomyocytes that behave like adult heart cells.

New Tool for Assessing Heart Muscle Cells Helps Unlock Their Potentialarchive_admin2024-11-14T21:59:49-06:00

WPR: An Exciting Development, CRISPR Lets UW-Madison Researchers Edit Genes
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WPR: An Exciting Development, CRISPR Lets UW-Madison Researchers Edit Genes

archive_admin2024-11-14T22:02:08-06:00

WID's Kris Saha spoke to Wisconsin Public Radio to answer questions about gene editing technology CRISPR in response to a question received by WHYsconsin.

WPR: An Exciting Development, CRISPR Lets UW-Madison Researchers Edit Genesarchive_admin2024-11-14T22:02:08-06:00

New Tool Predicts Three-Dimensional Organization of Human Chromosomes
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New Tool Predicts Three-Dimensional Organization of Human Chromosomes

archive_admin2024-11-14T22:03:18-06:00

WID researchers have developed a computational tool that can accurately predict the three-dimensional interactions between regions of human chromosomes.

New Tool Predicts Three-Dimensional Organization of Human Chromosomesarchive_admin2024-11-14T22:03:18-06:00

Tiny Capsules Packed with Gene-Editing Tools Offer Alternative to Viral Delivery of Gene Therapy
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Tiny Capsules Packed with Gene-Editing Tools Offer Alternative to Viral Delivery of Gene Therapy

ppointer2024-11-14T22:05:28-06:00

An interdisciplinary pair of WID researchers has developed a new nanocapsule delivery method for delivering the CRISPR-Cas9 gene editing tool. The new system could be used for many types of gene therapies.

Tiny Capsules Packed with Gene-Editing Tools Offer Alternative to Viral Delivery of Gene Therapyppointer2024-11-14T22:05:28-06:00

WID Researchers Collaborate on UW2020 Projects
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WID Researchers Collaborate on UW2020 Projects

archive_admin2024-11-14T22:05:59-06:00

Researchers at the Wisconsin Institute for Discovery are co-Principal Investigators and co-Investigators on four UW2020: WARF Discovery Initiative projects.

WID Researchers Collaborate on UW2020 Projectsarchive_admin2024-11-14T22:05:59-06:00

Uncovering a Connection Between Regulators and Genes During Early Neurodevelopment
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Uncovering a Connection Between Regulators and Genes During Early Neurodevelopment

archive_admin2025-01-27T14:18:51-06:00

WID researchers used a collaborative combination of computational and wet lab experimental techniques to find a connection between a transcription factor and a neurodevelopment gene.

Uncovering a Connection Between Regulators and Genes During Early Neurodevelopmentarchive_admin2025-01-27T14:18:51-06:00

Revolutionary Engineered Blood Vessels Behave Like the Real Thing
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Revolutionary Engineered Blood Vessels Behave Like the Real Thing

ppointer2024-11-14T22:07:46-06:00

WID's Tom Turng envisions a future in which surgeons can order mass-produced artificial blood vessels that arrive ready to use in bypass surgeries.

Revolutionary Engineered Blood Vessels Behave Like the Real Thingppointer2024-11-14T22:07:46-06:00

WID Hubs Launch at Illuminating Connections Event
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WID Hubs Launch at Illuminating Connections Event

ppointer2025-01-27T14:39:33-06:00

WID's new hubs—Data Science, Multi-Omics, and Illuminating Discovery—represent a new path forward for collaborative research projects and fields.

WID Hubs Launch at Illuminating Connections Eventppointer2025-01-27T14:39:33-06:00

New Technology for Controlling Neural Tissue Manufacturing
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New Technology for Controlling Neural Tissue Manufacturing

ppointer2025-01-27T14:39:06-06:00

A paper published in eLife this week by an interdisciplinary team at WID describes new methods for reproducibly manufacturing brain and spinal cord organoids with strict control over morphogenic and developmental processes.

New Technology for Controlling Neural Tissue Manufacturingppointer2025-01-27T14:39:06-06:00

UW–Madison Researchers Developing Methods to Edit Genes in Brain Cells
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UW–Madison Researchers Developing Methods to Edit Genes in Brain Cells

ppointer2024-11-14T22:09:22-06:00

A second WID-led team joins NIH's Somatic Cell Genome Editing Consortium with a grant to study new methods of delivering the CRISPR/Cas9 system to the brain.

UW–Madison Researchers Developing Methods to Edit Genes in Brain Cellsppointer2024-11-14T22:09:22-06:00

WID Researchers Looking to the Future with UW2020 Awards
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WID Researchers Looking to the Future with UW2020 Awards

ppointer2024-11-14T22:11:39-06:00

Investigators from WID are among the recipients of the latest round of UW2020 awards.

WID Researchers Looking to the Future with UW2020 Awardsppointer2024-11-14T22:11:39-06:00

UW Carbone Scientists Present at Annual Cancer Research Conference

UW Carbone Scientists Present at Annual Cancer Research Conference

ppointer2024-11-14T22:11:58-06:00

One of the UW Carbone Cancer Center members presenting is WID's Peter Lewis. His work focuses on how genes are turned on and off during embryonic development, and how misregulation in those genes can lead to some childhood cancers.

UW Carbone Scientists Present at Annual Cancer Research Conferenceppointer2024-11-14T22:11:58-06:00

Small But Mighty: Nanoparticles Can Deliver More Types of Drugs, More Safely
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Small But Mighty: Nanoparticles Can Deliver More Types of Drugs, More Safely

ppointer2024-11-14T22:13:06-06:00

WID researcher Shaoqin Sarah Gong is working to more safely deliver a variety of drugs to treat cancer, heart disease and even blindness.

Small But Mighty: Nanoparticles Can Deliver More Types of Drugs, More Safelyppointer2024-11-14T22:13:06-06:00

Randolph Ashton Continues Research into Causes of Lou Gehrig’s Disease
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Randolph Ashton Continues Research into Causes of Lou Gehrig’s Disease

archive_admin2024-11-14T22:15:22-06:00

In August 2017, Randolph Ashton received almost $800,000 from the National Institute of Neurological Disorders and Stroke, part of NIH, to continue a five-year research study of Lou Gehrig’s disease (amyotrophic lateral sclerosis, or ALS), after successfully completing its first phase.

Randolph Ashton Continues Research into Causes of Lou Gehrig’s Diseasearchive_admin2024-11-14T22:15:22-06:00

The “Icing” on the DNA

The “Icing” on the DNA

ppointer2024-11-14T22:16:54-06:00

Xuehua Zhong recently received an outstanding investigator award from NIH via the Maximizing Investigators' Research Award (MIRA) mechanism to support her research. She talked about how she uses plants to study epigenetics in an interview with Grow magazine.

The “Icing” on the DNAppointer2024-11-14T22:16:54-06:00

Connecting the Dots: a New Method to Understand Cell Type Transitions

Connecting the Dots: a New Method to Understand Cell Type Transitions

archive_admin2025-01-27T14:49:18-06:00

Wisconsin Institute for Discovery (WID) researchers Rupa Sridharan and Sushmita Roy are combining their expertise in regenerative biology and computational biology to better understand how cells transition from one type to another through gene regulation.

Connecting the Dots: a New Method to Understand Cell Type Transitionsarchive_admin2025-01-27T14:49:18-06:00

Machine Learning Can Detect a Genetic Disorder from Speech Recordings

Machine Learning Can Detect a Genetic Disorder from Speech Recordings

ppointer2024-11-14T22:17:35-06:00

Machine learning is a form of artificial intelligence by which algorithms are "trained" to analyze new information using existing data. Researchers are using it to identify individuals with a genetic condition known as fragile X premutation.

Machine Learning Can Detect a Genetic Disorder from Speech Recordingsppointer2024-11-14T22:17:35-06:00

You may also like … Algorithms that improve drug discovery

Immersed in the Ethics of Virtual Reality

archive_admin2025-01-27T14:25:06-06:00

The Living Environments Laboratory will host the Ethics in Investigational & Interventional Uses of Virtual Reality (e3iVR) conference beginning with public talks on the afternoon of April 26. More information and registration are at go.wisc.edu/e3iVR.

Immersed in the Ethics of Virtual Realityarchive_admin2025-01-27T14:25:06-06:00

Watching gene editing at work to develop precision therapies

Watching gene editing at work to develop precision therapies

ppointer2024-11-14T22:21:43-06:00

Kris Saha illuminates the inner workings of gene editing.

Watching gene editing at work to develop precision therapiesppointer2024-11-14T22:21:43-06:00

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