Stanford scientists have developed a novel hydrogel for long-term drug delivery of an Activator Protein 1 (AP-1) inhibitor for the prevention of post-surgical abdominal adhesion.
Stanford researchers have developed a new technology, Variant-FlowFISH, to enable high-throughput, highly sensitive measurements of how variants, introduced via CRISPR, affect gene expression.
Stanford researchers have developed a new, low-cost method for tumor methylation profiling that enables tumor classification even from low amounts of fragmented DNA characteristic of liquid biopsies.
There are two subsets of Hematopoietic stem cells (HSC); one subset that provides balanced production of myeloid and lymphoid cells, and another that is biased toward production of the myeloid lineage.
The Longaker lab at Stanford University has recently discovered that local injection of the drug Verteporfin after wounding can reduce scarring, improve the strength of healed skin, and regrow the hair follicles and sweat glands that are usually lost during the scarring proces
Stanford researchers have developed improved methods for producing mRNAs. Efficient, robust and high fidelity production of mRNAs is critical for obtaining pharmaceutical quality vaccines, viruses and expression constructs, and for eliminating noise due to batch variation.
Stanford researchers have developed improved methods for producing mRNAs. Efficient, robust and high fidelity production of mRNAs is critical for obtaining pharmaceutical quality vaccines, viruses and expression constructs, and for eliminating noise due to batch variation.
Stanford scientists have discovered that treatment with the metabolite N-acetyltaurine leads to weight loss. They found that the removal of PTER, a key enzyme that regulates N-acetyltaurine metabolism, leads to N-acetyltaurine accumulation and a reduction in food intake.
Stanford researchers have identified several peptides that inhibit the binding between certain nonstructural proteins of hepatitis C virus and cytoplasmic membranes.
Stanford researchers have discovered that amphipathic α-helical (AH) peptides that share an amino acid sequence homology to the N-terminus of HCV NS5A can rupture lipid vesicles in a size-dependent manner.
Inventors at Stanford University have developed a light-based 3D printing system that achieves high printing resolutions and fast printing speeds with cell-compatible natural protein biomaterials when compared to existing methods.
Skin wounds invariably heal by developing fibrotic scar tissue, which can result in devastating disfigurement, growth restriction and permanent functional loss.