Stanford researchers have designed an oncolytic virus that replicates only within cells that are driven by hyperactive biochemical signals, such as constitutively active kinases driving and maintaining tumors, which can minimize off-target activity and support higher dosing.
Researchers at Stanford have developed a rapid and efficient method for high-throughput genome editing using CRISPR/Cas9. The CRISPR/Cas9 system allows researchers to edit any site in an organism's genome.
Stanford inventors have developed technologies for improved islet transplantation using a bioscaffold platform that maintains islet health during and after their transplantation.
Stanford inventors have developed technologies for improved islet transplantation using a bioscaffold platform that maintains islet health during and after their transplantation.
Researchers at Stanford have developed a probe, NIRDye812, which improves contrast between healthy and diseased tissues for fluorescence-guided cancer surgery applications.
A team of Stanford researchers has invented a product that can be used to provide relief to patients with hyperhidrosis (excessive sweating), with a particular focus on palmar hyperhidrosis (excessive sweating of the hands).
Bioengineers in Prof. Stephen Quake's laboratory have developed an energy efficient, on-chip valve system for automated, multiplexed fluid control in a portable, low-cost microfluidics devices.
Stanford researchers have designed hydrogels that can be delivered to surgical sites in a patient's body for controlled and sustained release of bacteriophages to treat or prevent bacterial infections.
Researchers at Stanford have developed a magnetophoretic separation device (MSD) for isolating basophils and other rare cell types from a blood sample. The device applies exponentially increasing magnetic field strength to flowing magnetically tagged cells.