Based on their proprietary HyTEC tissue engineering platform, researchers at Stanford have developed an osteoinductive intramedullary implant (IM) device for improved bone healing.
Researchers at Stanford have developed a biodegradable device and platform carrier of biologics for promoting faster bone healing of large bone defects, fractures, and non-union.
Stanford researchers have developed chemically modified AAV vectors through an unnatural amino acid substitution on the capsid surface for post-production vector engineering through biorthogonal copper-free click chemistry.
Stanford researchers in the Benson Lab have developed CCSNet, an open source software platform for modeling CO2 storage reservoirs based on machine learning neural networks.
Stanford inventors have developed an early-stage screening method to diagnose abdominal aortic aneurysms (AAA). AAA is a common cardiovascular disease with high prevalence in European men 65 years and above.
Researchers at Stanford have developed a next-generation technique of fabricating metal oxide thin films using open-air ultrasonic spray combustion and plasma curing.
Stanford researchers have developed a new method of imaging cholesteatoma, an expanding and destructive lesion of the middle ear and mastoid, based on its chemical composition.
Stanford scientists have invented a new PET-nanophotonic metamaterial scintillator that consists of tunable scintillating alkaline-earth rare-earth fluoride nanoparticles (MLnF) for low-dose, high-resolution PET imaging.
Stanford researchers in the Bao lab have developed a new fabrication method to create stretchable transistors for electronic skin. It produces a soft, stretchable material capable of sensing pressure, temperature, strain, and more.
Researchers at Stanford have developed an innovation that will enhance the depth of the imaging capabilities for optical coherence tomography (OCT) imaging.