Browse Technologies

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On Chip Polarimetry for HTS

Using microfluidic technology developed by the Bornhop Lab at Vanderbilt, this invention enables the rapid determination of the optical activity of compounds and solutions. Due to the nature of this invention, it is possible to screen a multitude of samples in a high throughput manner in less time with less material and greater accuracy than the industry standards.


Licensing Contact

Janis Elsner

615.343.2430
Research Tools

Novel Target Regulating Angiogenesis

Vanderbilt scientists have discovered that the receptor tyrosine phosphatase DEP-1 plays a significant role in angiogenesis and that modulation of the DEP-1 receptor with certain agents can affect endothelial cell growth. The research team has developed antibodies that bind to the ectodomain of a mammalian transmembrane protein known as DEP-1 (for density enhanced protein) or CD148. CD148 (also named DEP-1/PTPn) is a receptor-like protein tyrosine phosphatase that is abundantly expressed in vascular endothelial cells, hematopoietic-cell lineages, duct epithelia of thyroid, mammary and gastrointestinal tissues.


Licensing Contact

Mike Villalobos

615.322.6751
Therapeutics

NanoBioReactor for Monitoring Small Cell Populations

NanoBioreactors recreate the microenvironments of normal tissue, non-adherent cells, tumor-infected tissue and wounded tissue in vitro. These microfabricated bioreactors provide independent control of chemokine and growth factor gradients, shear forces, cellular perfusion and the permeability of physical barriers to cellular migration. This fine control allows detailed optical and electrochemical observations of normal, immune and cancerous cells during activation, division, cell migration, intravasation, extravasation and angiogenesis.


Licensing Contact

Ashok Choudhury

615.322.2503
Microfluidics

mGlu3 NAMs as Therapeutics for Chemoresistant Tumors

Targeting metabotropic glutamate receptor 3 (mGlu3) has been linked as a potential therapeutic to many neurological disorders and well as oncology through the use of dual specific mGlu2/3 Antagonists (LY341495, RO4491533, MGS0039, RO4988546).


Licensing Contact

Tom Utley

615.343.3852
Therapeutics

Inhibition of Selected microRNAs May Induce Atherosclerosis Regression, Particularly in Patients with Chronic Kidney Disease

A research project to identify microRNAs (miRs) as biomarkers for atherosclerosis in patients with chronic kidney disease is now exploiting an antisense microRNA (anti-miR) therapeutic strategy directed to the inhibition of either one or two target miRs in combination.


Licensing Contact

Jody Hankins

615.322.5907
Cardiovascular

High Inertance Liquid Piston Engine-Compressor

Inventors at Vanderbilt University have developed a high inertance engine-compressor for use with pneumatically actuated devices, especially those with periods of inactivity between periods of pneumatic use. It utilizes a flexible diaphragm in combination with a liquid piston to achieve high inertance and other operational features such as high efficiency, low noise and low temperature operation.


Licensing Contact

Taylor Jordan

615.936.7505
Energy

System and Methods of Using Image-guidance for Placement of Cochlear Stimulator Devices, Drug Carrier Devices, or the Like

Vanderbilt inventors have developed and tested a device (C-in) and method that would shift the current invasive, risky surgical procedure of cochlear implantation to a less invasive outpatient procedure.


Licensing Contact

Taylor Jordan

615.936.7505

TagDock: An Efficient Rigid Body Molecular Docking Algorithm For Three Dimensional Models of Oligomeric Biomolecular Complexes With Limited Experimental Restraint Data

TagDock is an efficient rigid body molecular docking algorithm that generates three-dimensional models of oligomeric biomolecular complexes in instances where there is limited experimental restraint data to guide the docking calculations. Through "distance difference analysis" TagDock additionally recommends followup experiments to further discriminate divergent (score-degenerate) clusters of TagDock's initial solution models


Licensing Contact

Masood Machingal

615.343.3548

Ultrasonic Sensor for Non-intrusive Local Temperature, Transient Temperature and Heat Flux Measurements

An apparatus for measuring the temperature and heat flux of materials through the use of an ultrasonic sensor has been developed at Vanderbilt University. The sensor uses acoustic measurement techniques to determine the heat flux and temperature of material surfaces otherwise inaccessible in particular during system operation in order to enhance monitoring capabilities and reduce unsafe or impaired function due to extreme temperatures.


Licensing Contact

Ashok Choudhury

615.322.2503

Cuffed Inner Cannula and Flexible Outer Cannula Tracheostomy Tube

This new tracheostomy tube design prevents the need for decannulation when changing from a cuffed to cuffless (or vice versa) tracheostomy. It also enables a comfortable and fit in patients with both large and small neck diameters. The tube enhances patient safety by maintaining the airway at all times when downsizing or upsizing.


Licensing Contact

Taylor Jordan

615.936.7505
Medical Devices