Stanford researchers have invented a C-Aperture Nano-Tip which provides a new way to further enhance the optical resolution down to smaller than 15 nm.
A team of Stanford researchers has developed a precisely controlled hydrogel drug delivery system that prevents scarring and promotes wound healing in large, full thickness wounds.
The Rai1-Tag knock-in allele expresses a FLAG/myc-tagged RAI1 (Rai1-Tag) before Cre recombinase exposure. Cre-mediated deletion of the floxed FLAG-myc-STOP sequence results in expression of RAI1/EGFP fusion protein (Rai1EGFP).
When examining one or higher dimensional data, researchers frequently aim to identify individual subsets (clusters) of objects within the dataset. With high-dimensional data (>3 dimensions), the data become progressively more sparsly distributed in space.
Researchers at Stanford have developed a new, patented strategy to enhance anti-tumor immune responses to treat cancer. Cancer is the second leading cause of death in the United States and inflicts a tremendous burden on public health.
Researchers at Stanford have developed a method to direct T cell fate toward the T stem cell memory (TSCM) phenotype during ex vivo expansion for adoptive cell transfer (ACT) therapies.
This nanoparticle platform for electric field detection is the first inorganic platform to use both intensity and spectro-ratiometric (relative color change) readout for the determination of local electric fields in vitro, in vivo, and in situ.
Stanford inventors have developed a mesenchymal stem cell-based gene therapy that can target the inflammatory environment and secrete immunomodulatory cytokines. The model has been demonstrated in bone marrow mesenchymal stem cells in vitro.
Researchers at Stanford have discovered new, chemically distinct opioid receptor ligands that may be used to develop safer opioid therapeutics. Opioids are ligands that bind to the mu, delta, and/or kappa opioid receptors.
Disease indication - HIV infection, specifically reversal of viral latency alone or in combination with other latency reversal agents to improve reservoir targeting.
Engineers in Prof. Zhenan Bao's lab have developed highly conductive, stretchable composite hydrogel materials that can be used as soft electrodes that match the mechanical properties of a range of biological tissues.
Stanford researchers have patented a hydrogel system which allows for the easy encapsulation of cells and biomolecules without requiring external changes in environmental conditions or exposure to chemical crosslinkers.
Researchers at Stanford and their colleagues have developed easily expressed Wnt agonist and antagonists. Wnts are central mediators of development as they influence cell proliferation, differentiation and migration.
Stanford researchers have developed an improved method of distinguishing live and dead cells using mass cytometry, a next-generation form of flow cytometry.