Browse Technologies

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Fused in Sarcoma (FUS) Nuclear Translocation Inhibitors for Preventing Fibrosis

The research team has found that one of the key regulators of collagen production in fibrotic diseases is the FUS ribonucleoprotein. This protein is upregulated in fibrotic diseases leading to additional collagen formation and deposition. In order to combat FUS upregulation, a new approach to blocking nuclear translocation has been developed using an FUS targeting peptide approach.


Licensing Contact

Janis Elsner

615.343.2430
Therapeutics

Systems and Methods for Optical Stimulation of Neural Tissues (Portfolio)

Vanderbilt researchers have developed a novel technique for contactless simulation of the central nervous system.  This involves the use of infrared neural stimulation (INS) to evoke the observable action potentials from neurons of the central nervous system.  While infrared neural stimulation of the peripheral nervous system was accomplished almost a decade ago, this is the first technique for infrared stimulation of the central nervous system. This technology has been protected by a portfolio of issued patents.


Licensing Contact

Ashok Choudhury

615.322.2503

Prevention of Cytokine Induced Apoptosis In Intestinal Epithelial Cells By A Probiotic Bacterium

The present invention provides therapeutic and prophylactic compositions for use in treating and preventing disorders involved epithelial cell apoptosis, such as gastrointestinal disorders (e.g., inflammatory bowel disease, Crohn's disease or ulcerative colitis) in a subject, such as a human patient.


Licensing Contact

Janis Elsner

615.343.2430

Inventors

Brent Polk, Fang Yan
Therapeutics
Protein/Peptide
Gastrointestinal

Long-Lasting and Self-Sustaining Cell Therapy System

Researchers at Vanderbilt have created a novel drug delivery system using two distinct T-cell populations that interact to promote engraftment and persistence in pre-clinical models, increasing the efficacy of T-cell therapies. Furthermore, "booster" treatments can be administered months after the first dose to produce an expansion of antigen specific T cells. These advantages result in longer-term therapeutic efficacy and could reduce the number of treatments required. This system also represents a viable self-renewing platform for the delivery of biologic drugs in patients who would otherwise require frequent administration.


Licensing Contact

Clarissa Muere

615.343.2430

New antibiotics against new targets in multi-drug resistant microorganisms

New everninomicin antibiotics including a potent bifunctional antibiotic natural product targeting two different and distant ribosomal sites are under development and can be readily produced using synthetic biology. Developing resistance to this bidentate antibiotic should be very difficult for pathogenic microorganisms.


Licensing Contact

Jody Hankins

615.322.5907
Therapeutics
Infectious Disease

Multisubstrate Inhibitors of Histone Acetylation Increase the Cytotoxicity of Chemotherapeutic Agents

Inhibitors of histone acetylation may constitute a novel class of potent therapy sensitizers applicable to a broad range of conventional cancer treatments.


Licensing Contact

Mike Villalobos

615.322.6751
Therapeutics
Oncology

Vascular Restoration Therapy with Cell-Penetrating CRADD Protein

Vascular inflammation caused by metabolic, autoimmune, and microbial insults mediates cardiovascular diseases that include hypertension and atherosclerosis (heart attacks, strokes), systemic lupus, and giant cell arteritis. An estimated 35 million Americans have hypercholesterolemia, contributing to 500,000 deaths underlying heart attacks and strokes. In these diseases, metabolic, autoimmune, and microbial insults continually challenge blood and vascular cells by triggering signaling to the nucleus mediated by BCL10. Genetic ablation of BCL10 rescues animals from atherosclerosis, aortic aneurysms, and fatty liver and insulin resistance due to overnutrition. Intracellular therapy with CP-CRADD is designed to extinguish BCL10-mediated noxious signals to avert vascular inflammation and its life-threatening complications including ruptured aneurysms in aorta and brain.


Licensing Contact

Janis Elsner

615.343.2430
Therapeutics

Agriculture: Control of Insect Populations via Wolbachia or Bacteriophage Tools

The insect microbiome is a rich resource that can explored to control insect reproduction and insect populations at large. Vanderbilt University has a collection of technologies available for such purposes, including bacteriophage therapies, Wolbachia genomic editing techniques and tools, and transgenic insect approaches.


Licensing Contact

Jody Hankins

615.322.5907

Marker Enrichment Modeling (MEM) Software for Automated Cell Population Characterization and Identification in Complex Tissue Microenvironments

Marker enrichment modeling (MEM) provides a crucial missing piece for true machine learning analysis of cell identities and phenotypes in complex tissue microenvironments, including human immune disorders and cancer.


Licensing Contact

Masood Machingal

615.343.3548

MemoryMonitor: A real-time neuroscientific learning monitor that knows whether you will later remember something you see

We all wish that we could know if we were going to later remember something, the moment that new information enters our brain. For example, if we could predict whether our children would later remember a vocabulary word, then we could have them spend more time on the words they will not remember. A group of neuroscientists at Vanderbilt University has developed a way of measuring and analyzing brain activity that achieves this goal of predicting later memory as we study and view new information. The procedure involves measuring brainwaves from just two electrodes on the head as people view pictures, words, or virtually any kind of information that a person hopes to remember later.


Licensing Contact

Masood Machingal

615.343.3548