Browse Technologies

Displaying 41 - 50 of 67

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

Upper Extremity Assistance Device

An assistive device for individuals with upper extremity neuromuscular deficit has been developed by researchers at Vanderbilt. This device is specifically designed for patients having hemiplegia following stroke, incomplete spinal cord injury, multiple sclerosis, and other disabilities and conditions, who may have severe muscle weakness or inability to fully control an upper limb. In order to facilitate use of the upper limb, the patient can wear the device as a substitute for or a supplement to the patient's volitional movement.

Licensing Contact

Ashok Choudhury

615.322.2503

Inventors

Michael Goldfarb, Benjamin Gasser, Judith Lefkowitz
Category:
Medical Devices Robotics

Speculum-Free Diagnostic Probe for Optical Assessment of the Cervix

A new approach for obtaining less invasive optical measurements of the cervix has been developed that does not require the use of a speculum exam. This technology can visualize the cervix in vivo to find unique biomarkers that indicate various conditions such as preterm labor, cancer, human papillomavirus (HPV), and dysplasia.

Licensing Contact

Ashok Choudhury

615.322.2503

Inventors

Christine O'Brien, Anita Mahadevan-Jansen, Katherine Cochran, Kristen Findley, William Stokes, Lowell Hays, Mohsin Tejani, Anne-Marie Crowe (nee Crochet)
Category:
Diagnostics Medical Devices Medical Imaging

Cooling-Triggered Self-Destructing Electronics

Vanderbilt University researchers have developed self-destructing electrical conductors that dissolve and vanish below a certain critical temperature, which is achieved either by actively cooling the circuit or by removing a heat source.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Leon Bellan, Xin Zhang
Category:
General Engineering

Self-Decoupled RF Coils for Optimized Magnetic Resonance Imaging

Magnetic resonance imaging (MRI) is one of the most important and versatile tools in the repertoire of diagnostics and medical imaging. Vanderbilt researchers have developed a novel, geometry independent, self-decoupling radiofrequency (RF) coil design that will allow MRI machines to generate images at a faster rate and with greater image quality.

Licensing Contact

Philip Swaney

615.322.1067

Inventors

Xinqiang Yan, John Gore, William Grissom
Category:
Medical Devices Medical Imaging

Accurate Gamma-Ray Spectroscope for Compositional Analysis of Celestial Bodies

Vanderbilt and Fisk University researchers have developed a new type of gamma ray spectroscope (GRS) that overcomes the limitations of current systems. This type of GRS can be used to accurately determine the subsurface chemical composition of celestial bodies in the solar system.

Licensing Contact

Chris Harris

615.343.4433

Inventors

Keivan Stassun, Arnold Burger
Category:
General Engineering

Automated Inflatable Binder to Counter the Effects of Orthostatic Hypotension

Vanderbilt scientists have developed an automated inflatable abdominal binder that can detect when a patient moves from a prone or sitting positon to a standing position and automatically apply a sustained servo-controlled compression pressure in order to counter the effects of OH. The binder is as effective as conventional drug therapy in controlling OH, without subjecting patients to potentially harmful side effects and interactions with other medications.

Licensing Contact

Taylor Jordan

615.936.7505

Inventors

Franz Baudenbacher, Italo Biaggioni, Andre Diedrich, Luis Okamoto, Rene Harder
Category:
Medical Devices
Field of Use:
Cardiovascular

Dual Interlocked Logic (DIL) Circuit

Vanderbilt researchers have developed a novel combinatorial logic circuit that prevents the propagation of signal glitches such as those caused by radiation-induced transients. The interlocked-feedback circuit accomplishes this without the loss of any speed. The circuit is designed for robustness in both combinatorial and sequential logic applications.

Licensing Contact

Ashok Choudhury

615.322.2503

Inventors

Jeff Maharrey, Jeffrey Kauppila, Dennis (Scooter) Ball, W.Timothy Holman, Lloyd Massengill
Category:
Computer Science & Communications General Engineering

Non-Invasive Bacterial Identification for Acute Otitis Media using Raman Spectroscopy

Vanderbilt researchers have developed an optical-based method for real-time characterization of middle ear fluid in order to diagnose acute otitis media, also knows as a middle ear infection. The present technique allows for quick detection and identification of bacteria and can also be applied to other biological fluids in vivo.

Licensing Contact

Ashok Choudhury

615.322.2503

Inventors

Anita Mahadevan-Jansen, Oscar Ayala, Eric Skaar, Catherine Wakeman, Jay Werkhaven
Category:
Diagnostics Medical Devices Medical Imaging