Of the 1.4 million first time mothers giving vaginal birth in the United States, approximately 75% will experience tearing of their vagina or perineum.
Stanford scientists have developed a device to distinguish the molecule-specific signatures of diseased exosomes isolated from glioblastoma patients. The device is portable, disposable, and low-cost, enabling point-of-care assessment of disease.
Researchers in the Airan Lab have developed a noninvasive method using low intensity transcranial ultrasound to drive cerebrospinal fluid (CSF) glymphatic and lymphatic flow to clear brain injury waste products from CSF and brain interstitium.
Stanford researchers have developed a predictive biomarker for hepatocellular carcinoma (HCC) recurrence post-treatment that provides key spatial distribution information about cell interaction.
Typically, cell live imaging and cell molecular profiling are performed on two different samples without the direct observation of two modalities of information on the exact same cells.
Researchers at Stanford University and Washington University in St. Louis have discovered a novel molecular pathway for the treatment of opioid overdose.
Researchers in the Dionne lab (D-Lab) at Stanford University have designed an on-chip, optical spin processor for classical and quantum information systems.
Stanford researchers have developed an LVCTM3 system for producing lentiviral vectors and other viral particles, offering a cost-effective, simplified and scalable solution for various applications from gene therapy to vaccine development.
Stanford researchers in the Xing Lab have developed GPT-RadPlan, a large language model (LLM) and vision-language model (VLM) based radiation therapy treatment planning automation tool that reduces treatment planning time and lowers costs.
Current challenges in corneal endothelial cells (CEC) transplantation include the limited availability of donor grafts and the inability of CECs to regenerate within the body.