Stanford researchers have patented a real-time auralization-reverberation system (CAVIAR - Chamber for Augmented Virtual and Interactive Audio Realities) for providing immersive and interactive audio environments.
Stanford researchers have developed a networked audio system that enhances the experience of teleconferencing, and online performances, gaming, and gatherings.
Stanford scientists have developed waterproofed six-axis robotic Stewart platforms that accurately replicate papillary muscle motion in ex vivo heart simulators.
Urethral catheterization is commonly performed during elective procedures, inpatient hospitalizations and long-term patient management, with more than 30 million indwelling catheters used annually in US.
Stanford scientists have developed a novel cardiac Ex-vivo Preservation System (EVPS) capable of maintaining hearts of any size warm and beating upon transport, expanding heart transplant options for pediatric populations.
Stanford scientists have developed a novel Nerve Decompression Brace capable of decompressing mild nerve compressions, which relieves forearm pain, numbness, and tingling symptoms associated with repetitive strain injuries.
Stanford scientists have developed methods to analyze mononuclear phagocyte system markers for detecting prosthetic joint infections that evade conventional neutrophil-based diagnostics.
Stanford researchers have developed an intelligent graph-based system that automates clinical decisions through evidence-based protocols for chronic disease management.
Stanford researchers have developed an advanced method for accurately tracking and accumulating radiation dose in magnetic resonance-guided radiotherapy.
Stanford researchers have developed a novel shortwave infrared (SWIR) sinuscope to noninvasively detect cerebrospinal fluid (CSF) leaks during skull base surgeries.
Researchers at Stanford University have identified EP300 modulators as effective treatments for reducing skin scarring, demonstrating significant regeneration of hair follicles, sweat glands, and connective tissue architecture.
Stanford inventors have developed an optimal strain sensing network for continuous monitoring of cardiac strains to monitor cardiac health and assess real-time response to therapies.
Stanford researchers have developed a conductive nanoporous powder technology that dramatically enhances electrode stability and efficiency for fuel cells and electrolyzers.