Stanford researchers in the Swartz lab have proposed a method to synthesize metabolic cofactors from inexpensive substrates for protein synthesis and commodity production applications.
IPEX syndrome is a severe autoimmune disease with limited treatment options caused by mutations in the forkhead box protein 3 (FOXP3) gene, which plays a critical role in immune regulation.
Researchers in Prof. David Myung's laboratory have developed a bio-compatible, crosslinking gel that can be used for in situ repair of damaged cornea or as a three-dimensional scaffold for keratocyte-keratinocyte tissue culture.
Stanford University researchers have developed a system that achieves atmospheric water harvesting with high specific productivity, defined as the rate of water collected per mass of absorbent material.
Using their newly developed acetyl-click screening platform, researchers at Stanford have identified riboflavin analogs as small molecule inhibitors of Histone Acetyltransferase 1 (HAT1) with anti-cancer activity.
Stanford researchers have developed a contrastive learning approach that can significantly reduce the amount of labeled electrocardiogram (ECG) data required for downstream healthcare tasks, such as arrhythmia identification.
Stanford researchers in the Mahajan Lab have created a customizable proteomics platform that can identify protein biomarkers to differentiate among ischemic eye diseases and identify novel therapeutic targets to treat them.
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.
Pedestrian movement prediction is a critical aspect of driver-assistance and autonomous cars. This requires predicting both human poses and human trajectories based on keypoints in an egocentric setting.