Stanford inventors have developed a novel diagnostic tool that identifies distinct immune signatures in the peripheral blood of osteoarthritis patients using mass cytometry (CyTOF) and applied machine learning.
Stanford BIODESIGN researchers have developed a disease breathalyzer for detecting necrotizing enterocolitis in newborns. Newborn babies face a high risk of blood infections (sepsis) and gastrointestinal inflammation and injury disease (necrotizing enterocolitis 'NEC').
Stanford researchers have invented a unified AI architecture that integrates foundational models (FMs) with AI techniques for efficient analysis of fMRI data in psychiatric disorders.
Stanford researchers in the Zhao Lab have designed and optimized a rotation device that can mechanically dissolve a clot for fast and complete clot retraction.
This invention describes reinforced grafts made from biocompatible materials that are designed for use in surgical procedures such as coronary bypass graft surgery, vascular surgery, and arteriovenous fistula.
Researchers at Stanford have identified the use of the drug verteporfin to treat or reduce the risk of developing ibrosis after ocular procedures or ocular injury. Of interest is corneal injury, for example after refractive surgery or crosslinking, e.g.
Stanford researchers at the Woo Lab have designed and manufactured a flexible, compact laparoscopic device for knot tying during cardiac, thoracic, and ENT operations.
Stanford researchers have created a system that enables efficient fabrication of complex three-dimensional (3D) nanostructures via triplet-triplet-annihilation upconversion (TTA-UC).
Stanford scientists have developed a novel approach to help patients with short bowel syndrome by using intestinal lengthening. The solution involves injecting a degradable hydrogel into the intestinal wall to narrow the lumen and enable the confinement of a coiled spring.
Researchers in the Murmann Mixed Signal Group have developed a pipelined chip architecture with inverted residual and linear bottlenecks-based networks for energy efficient Machine Learning inference on edge devices.
Stanford researchers at the Woo Lab have developed an innovative supra-hemostasis aortic graft, an advanced version of conventional aortic grafts. Current aortic grafts do not have reinforced suture area which can cause bleeding around the anastomosis line.
Stanford researchers at the Woo Lab have designed an innovative prosthetic valve to address challenges in mitral valve replacement for patients with severe mitral annular calcification (MAC).