Stanford researchers have developed an innovative method for efficiently generating robust lymphatic endothelial cells (iLECs) from human induced pluripotent stem cells (hiPSCs) through transcription factor-based protocols.
Stanford researchers have identified a small set of genes that can be used to diagnose active tuberculosis (TB), distinguish active TB from latent TB or other diseases, and predict progression from latent to active TB months before conventional tests.
Stanford researchers have developed a system that assesses altered mental states in both human and animal subjects using neural biomarkers, allowing for repeatable cross-species studies of potential treatments for psychiatric and neurological disorders.
Researchers at Stanford have developed methods and compositions to provide inducible production of anti-inflammatory cytokines in mesenchymal stem cells (MSCs).
Stanford researchers have developed a novel technology using extracellular vesicles (EVs) to selectively suppress immune responses to AAV vectors, enabling safer and more effective gene therapy.
Stanford researchers have developed a novel blood-based diagnostic platform that leverages circulating bacteriophage DNA (phage cfDNA) to enable sensitive and highly specific detection of both overt and subclinical bacterial infections, while effectively discriminating them fr
Researchers in the Wyss-Coray Lab are investigating a potential therapeutic antibody to treat lysosomal storage disorders and other related neurodegenerative diseases.
Stanford researchers have patented methods to improve phagocytosis, the process by which macrophages clear protein aggregates, dying cells, and debris, to treat age-related diseases.
Stanford researchers have developed an innovative, non-invasive therapeutic strategy to treat myocardial fibrosis (MF), a key driver of arrhythmia and heart failure in LMNA-related dilated cardiomyopathy (LMNA-DCM).
Stanford researchers have developed Screen-GPT, an AI-powered multi-agent platform that automates CRISPR genetic screening by integrating diverse biological data to design libraries and prioritize targets through transparent, explainable, and scalable workflows.
Stanford scientists have developed innovative methods for safely collecting, preserving, imaging, and molecularly profiling human brain tissue that remains on explanted intracranial electrodes used in neurosurgical procedures.
Stanford researchers in the Cochran Lab have patented a potential pancreatic cancer therapeutic approach using novel agents that bind tightly to and inhibit a cancer factor called LIF (leukemia inhibitory factor).