Stanford researchers have developed a first-in-class, non-hormonal male contraceptive that works by targeting a protein found only in developing sperm cells.
Researchers at Stanford have developed a clinically applicable method of bone marrow conditioning for stem cell transplantation or treatment of hematologic malignancies.
Researchers at Stanford University have demonstrated rapid and accurate identification of extracellular vesicles (EVs) from different cell lines using an AI-assisted optical platform.
Stanford researchers have developed a modular system of Synthetic cytokine receptors (SCRs), which are customizable receptors that mimic cytokine signals to precisely control immune cell behavior without the need for external cytokines.
Researchers at Stanford University have developed a software that applies correction algorithms on sequence data from cell-free DNA (cfDNA) in blood samples to estimate total T and B cell counts.
Stanford researchers have developed a novel CRISPR-based method, Oligo-LiveFISH, for generating large-scale pools of synthetic RNA oligos that enable multiplexed targeting, imaging, and manipulation of genomic regions in living cells.
The Stanford team developed a versatile injectable alginate-collagen hydrogel, a significant advancement in regenerative medicine and targeted therapeutic delivery.
Stanford researchers have developed the Large-scale Electrophysiology Amplification Platform (LEAP), a wireless, label-free optical system for monitoring the electrical activity of neurons and heart cells.
Stanford researchers have developed a novel, multi-specific chimeric antigen receptor (CAR) T-cell therapy designed to overcome the key challenges of treating solid tumors, including tumor heterogeneity, immune evasion, and CAR T-cell exhaustion.
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Researchers at Stanford have developed an innovative molecular engineering strategy to enhance the stability and performance of polymer semiconductors (PSCs).
Stanford scientists have discovered that a specific protein signaling pathway can promote regenerative wound healing by suppressing fibrosis-related mechanosignaling.
Stanford researchers in Prof. Michelle Monje's lab have developed a method for treating cognitive impairment (aka brain fog) caused by cancer immunotherapy.
Researchers in Prof. Hongjie Dai's laboratory have developed a simple process to easily deposit plasmonic nanoscopic gold films on a variety of surfaces.
Researchers at Stanford have developed a novel strategy to enhance vaccine efficacy using mRNA lipid nanoparticles (LNPs) encoding immunostimulatory cytokines.