Stanford inventors have discovered that applying a hydrogel containing an inhibitor of mechanotransduction pathways on top of a skin graft reduces scarring and promotes healing after repair of traumatic injuries like severe burn wounds.
Proliferative vitreoretinopathy (PVR) is a rare ocular condition that can lead to vision loss or blindness and is a complication of rhegmatogenous retinal detachment, severe diabetic retinopathy, and other conditions.
Physicians at Stanford Lucile Packard Children's Hospital (LPCH) have developed a novel Vesico-Amniotic Shunt (VAS) for treatment of Prenatal Lower Urinary Tract Obstruction (LUTO).
Researchers at Stanford University have developed a clinical transrectal imaging system for detection of prostate cancer using dual ultrasound and real-time photoacoustic imaging.
Stanford researchers at the Airan Lab have developed a new deep learning approach to dramatically reduce the amount of ultrasound data required to produce high quality power Doppler images for functional ultrasound (fUS).
Researchers at Stanford have developed an ultracompact, high-quality-factor (high-Q) metasurface that enables more convenient phase contrast imaging. Phase contrast imaging is a critical technique in biology and medicine to image essentially transparent objects such as cells.
Researchers in Roger Kornberg's lab have developed a deep convolutional neural network algorithm that predicts the location and strength of transcription factor activation domains (ADs) in eukaryotes.
This invention facilitates the realization of optical elements with spatially multiplexed/interleaved phase profiles to achieve a high packing density of distinct optical elements on a surface.
Stanford researchers have developed a method of designing materials for air-stable and high-brightness photocathodes. Challenges with current photocathode materials' lie with in brightness and extreme air sensitivity.
Researchers at Stanford have developed a dielectric diffraction grating that provides high (near-unity) diffraction efficiencies in an ultra-compact volume.