Browse Technologies

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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.

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.

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.

A research team at Vanderbilt University Mass Spectrometry Research Center has developed the Molecular Image Fusion software system, that by fusing spatial correspondence between histology and imaging mass spectrometry (IMS) measurements and cross-modality modeling, can predict ion distributions in tissue at spatial resolutions that exceed their acquisition resolution. The prediction resolution can even exceed the highest spatial resolution at which IMS can be physically measured. This software has been successfully tested on different IMS datasets and can be extended to other imaging modalities like MRI, PET, CT, profilometry, ion mobility spectroscopy, and different forms of microscopy.