Published Medical Optical imaging of protein Accelerate drug development programs by minimizing expense, eliminating use of cumbersome evaluation strategies, and reducing time to market. By Stanford University
Published Medical An antibody mimic Characterization of tumor EGFR expression via PET scan just 3 hours after injection of the tracer, leading to faster treatment. By Stanford University
Published Electronics Positron emission tomography High Resolution PET Imaging: for a variety of clinical indications, including cancer staging and monitoring. By Stanford University
Published Medical Esophageal Damage A simple prototype was developed and ex vivo experiments were performed on a pig esophagus to determine the efficacy of the invention for manipulating esophageal tissue. By Stanford University
Published Medical Osteonecrosis of the hip The implant can be supplemented with other biologically based additions such as growth factors, small molecules, cells, etc. By Stanford University
Published Electronics Image Reconstruction Variety of clinical indications, including cancer staging and monitoring therapy. By Stanford University
Published Medical Quantify breast density Low cost breast cancer prognostic. Pre-processes the images to improve the ability of other algorithms to segment and analyze dense breast tissue. By Stanford University
Published Electronics Improved CT Imaging Uniquely provides a method for patient specific scatter measurement without blocking the central field-of-view, and thereby allowing for unobstructed high quality image. By Stanford University
Published Electronics Carbon Nanostructures The invention introduces a straight forward method that is easily applied to electronic devices. By Stanford University
Published Medical Assay of Transposase Integrated preassembled system that performs imaging and sequence library preparation at the same time By Stanford University
Published Medical A Motion Tracing Camera It is accurate, high resolution and penetrates walls and other objects as RF signal penetrates most materials used for partition in office or home. By Stanford University
Published Medical Implantable Device The device has a higher efficiency, longer range, better performance, and is less invasive than current RF implants of the same frequency. It is 1/10 penetration losses in tissue. By Stanford University
