Browse Technologies

Displaying 91 - 100 of 178

Enhanced Optical Imaging for the Treatment of Retinal Disease

Vanderbilt researchers have developed a system for enhancing the imaging capabilities of optical coherence tomography (OCT), a tool commonly used to monitor and treat patients with retinal disease. The image resolution of OCT, however, is intrinsically limited. Ideally, a contrast agent could be used to highlight specific parts of the retina within the image, but dye alone is largely ineffective because of the way OCT generates the image. Photothermal heating solves this problem by creating local zones of tissue expansion which can be distinctly detected by OCT. Photothermal-OCT is safe, effective, and enhances the imaging power of a tool widely used by opticians.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Yuankai Tao, Maryse Lapierre-Landry, Melissa Skala
Category:
Medical Imaging

Systems and Methods for Non-destructive Evaluation of Optical Material Properties and Surfaces

A team of Vanderbilt researchers has developed a novel system and method for non-destructive characterization of compound lenses. The approach uses optical coherence tomography and reflectance confocal microscopy to fully characterize lens geometry and glass materials, enabling accurate modeling of compound lenses.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Yuankai Tao, Mohamed El-Haddad
Category:
Medical Imaging

Method and System for Automating Oxygen Monitoring and Dosing in Real Time for Patient on Oxygen Therapy

Vanderbilt researcher, Lisa Lancaster, MD, has developed a novel device to monitor the flow as well as adjust actively the levels of oxygen that pass to a patient suffering from Idiopathic Pulmonary Fibrosis or other causes of hypoxic lung disease. Standing out of the pack, this device ensures that patients exerting themselves are given enough oxygen while actively reducing the dosage, to prevent further damage, when the same patient is resting.

Licensing Contact

Masood Machingal

615.343.3548

Inventors

Lisa Lancaster
Category:
Medical Devices
Field of Use:
Pulmonary/Respiratory

An Ergothioneine PET Radioligand for Imaging Oxidative Stress in Alzheimer's Disease

Vanderbilt researchers lead by Professor Wellington Pham, PhD, have developed a novel ergothioneine (ERGO) PET radioligand for imaging oxidative stress in Alzheimer's disease.

Licensing Contact

Masood Machingal

615.343.3548

Inventors

Wellington Pham, William Behof, Clayton Whitmore, Dmitry Koktysh, Justin Haynes
Category:
Therapeutics
Field of Use:
Neuroscience/Neurology

Cooling-Responsive Gel for Local Drug Delivery Applications

Vanderbilt researchers have created a cooling-responsive gel implant that meets the need for non-invasive local drug delivery and is simple to activate, requiring only an ice pack for some applications, eliminating complex clinical equipment. This implant is ideal for alternative pain management or delivery of cancer therapeutics.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Leon Bellan
Category:
Therapeutics

Bioresorbable RF Coils for Post-Surgical Monitoring by MRI

Vanderbilt researchers have developed bioresorbable RF coils to improve the signal-to-noise ratio (SNR) for use in post-surgical monitoring.

Licensing Contact

Chris Harris

615.343.4433

Inventors

Mark Does, John Rogers
Category:
Diagnostics Medical Imaging

Innovative Mobile App that Facilitates Self-Management in Diabetes

Vanderbilt researchers have developed the MyDay mobile app (iOS/Android) designed to collect, integrate, and provide feedback on a wide range of individual data relevant for diabetes self-management which allows flexible creation of data collection content, format, and timing.

Licensing Contact

Masood Machingal

615.343.3548

Inventors

Shelagh Mulvaney, Robert (Bob) McClellan, Sarah Vaala
Category:
Computer Science & Communications Health Care IT
Field of Use:
Metabolic Disorders/ Diabetes

Ultrasound Device for Underwater High Resolution Imaging in Turbid Water

A team of Vanderbilt researchers has developed a novel system for producing 3D, real-time, high-resolution visualization within arms reach of a diver. The system uses a custom ultrasound array and mirror system in conjunction with software and algorithms to overcome the limitations of existing systems, enabling the diver to see through turbid water in real-time.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Jason Mitchell, Brett Byram, Joseph Howard, Christopher Khan, Don Truex
Category:
General Engineering

Thermoresponsive Printer Filament for Tissue Engineering

Vanderbilt researchers have developed a thermoresponsive filament material for use in 3D printing that can be readily dissolved via cooling. This material has use in a multitude of different applications. One potential application is lost-wax casting for tissue engineering. The present material enables the user to print an intricate vascular structure, embed the structure in an engineered tissue construct, and then dissolve the printed structure to create a hollow vascular network embedded within the tissue construct.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Leon Bellan, John Rector
Category:
General Engineering

System for Transporting, Sorting, and Assembling Nanoscale Objects

Vanderbilt researchers have developed a new system for transporting and sorting nanoscale and mesoscale particles and biomolecules. The system is able to achieve size-based sorting and captures/arranges the particles within a few seconds, which is significantly faster than the existing method of diffusion-based transport.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Justus Ndukaife
Category:
Thin Films & Nanomaterials