Stanford researchers have designed and prototyped an inexpensive, compact and easy-to-use smartphone lens mount for the capture of high quality photographs and videos of the eye's front and back structures.
Stanford researchers have applied large-scale proteomic platforms to identify biomarkers that can be used to diagnose uveal melanoma and subtype eye tumors according to their gene expression profile (GEP) class or PRAME status.
Researchers in the Fuller group have designed a platform and method for measuring the thickness profiles of dynamic thin liquid films at high frequencies. The key steps in the new method called as dynamic hyperspectral interferometry are as follows.
Stanford researchers have developed a portable hybrid frame-event based near eye gaze tracking system that has a superior speed while using a lower data bandwidth. They demonstrated real time results for gaze-tracking.
Stanford researchers in the laboratory of Dr. Daria Mochly-Rosen have developed novel small molecules for modulating ALDH2 (mitochondrial aldehyde dehydrogenase-2).
Stanford researchers at the Chichilnisky lab have developed a novel framework for a far superior artificial retina with strikingly near optimal efficiency (96%) of visual perception.
Stanford researchers have discovered that dietary metabolites, specifically alpha-ketoglutarate, are able to delay retinal degeneration to treat blinding retinal diseases regardless of the type of retinal condition.
Stanford researchers have developed a gene therapy that combines a retinal ganglion cell (RGC)- specific promoter with CRISPR gene editing to provide effective neuroprotection in optic neuropathies.
Stanford researchers have developed an optical coating that steers infrared and visual light in different paths while suppressing the typical undesired rainbow effect.
Researchers at Stanford have developed a new therapeutic to promote survival of retinal ganglion cells (RGCs) and optic nerve regeneration after traumatic injury or optic neuropathies.
Stanford researchers have proposed a novel, in vivo, real-time epifluorescence imaging method in the second near-infrared region using single-walled carbon nanotubes (SWNTs).
Researchers at Stanford have developed methods using click chemistry to immobilize and concentrate therapeutic factors on a tissue to improve wound healing.
An interdisciplinary team of Stanford University researchers have developed a novel interpenetrating polymer network hydrogel that is useful for a wide variety of medical, industrial and personal hygiene applications.