Researchers at Stanford have developed a nucleic acid amplification test to detect high-risk Epstein-Barr Virus (EBV) BALF2 variants in plasma to aid population-level screening for nasopharyngeal carcinoma (NPC).
Stanford researchers in the Zhao Lab have designed and optimized a rotation device that can mechanically dissolve a clot for fast and complete clot retraction.
Researchers at Stanford have identified the use of the drug verteporfin to treat or reduce the risk of developing ibrosis after ocular procedures or ocular injury. Of interest is corneal injury, for example after refractive surgery or crosslinking, e.g.
This invention describes reinforced grafts made from biocompatible materials that are designed for use in surgical procedures such as coronary bypass graft surgery, vascular surgery, and arteriovenous fistula.
Researchers at Stanford have developed innovative Verteporfin conjugates that considerably enhance the solubility and therapeutic potential of Verteporfin.
Selective cytotoxicity, or the ability to selectively remove certain cell types from a population, is a vital technology that is often applied to various therapeutic applications.
Stanford scientists have developed a new, better binder for the tumor-associated macrophage marker CD206. This binder can be conjugated to a variety of payloads, including an anti-immune checkpoint protein antibody for more selective immune checkpoint blockade.
The DeSimone Research Group at Stanford University developed a method for fabricating 3D pyrolytic carbon structures from polyacrylonitrile (PAN) generated by a scalable Vat Polymerization 3D-printing continuous liquid interface production (CLIP) process.
Researchers at Stanford have developed an inducible and programmable CRISPR-mediated transcript organization (CRISPR-TO) method for repositioning RNAs to various desired subcellular compartments.
Researchers at Stanford have developed methods to link antigenic or immunomodulatory molecules to bacterial surface proteins of commensal bacteria that result in a high immune response when applied to an epithelial surface of a mammal.
A team of Stanford researchers has developed humanized and chimeric mouse anti-human CD99 monoclonal antibodies with demonstrated activity against AML (acute myeloid leukemia) cells in vitro and in vivo.
Introduction: Blood cell transfusion plays a vital role in modern medicineāsupporting surgery, obstetrics, trauma care, and cancer chemotherapy. In the US alone, more than 12 million red-cell units are consumed annually.