Researchers at Stanford University have established a deep learning segmentation algorithm for non-contrast CT images to aid clinicians in decision making and improve the speed of symptom to treatment in acute ischemic stroke
Stanford scientists developed a novel strategy that uses resting-state functional connectivity magnetic resonance imaging (rs-fMRI) to determine whether a person will respond to treatment for depression.
Stanford researchers develop a surgical technique to access the optical nerve head from tunneling through the suprachoroidal space (SCS) for drug delivery applications.
A Stanford inventor has developed a soft grommet/eyelet to load share and prevent suture pull-through of the repair stitch and a device to pass the eyelet.
Stanford researchers have developed a compact, scalable electronic readout that can multiplex 24 or more fast outputs of each 6x4 SiPM array to only 1 timing channel per detector layer unit.
Stanford scientists developed a comprehensive, minimally invasive, dual-catheter pulsed field device that utilizes a rapid and simple integrated mapping/ablation strategy for the treatment of Atrial Fibrillation.
Stanford inventors have created a novel, interactive, highly scalable computational approach for representing dynamic brain activity as a network for use in clinical settings.
Background: Researchers at Stanford have discovered a method to create lattice microneedle structures using high resolution continuous liquid interface printing (CLIP) technology.
Stanford inventors have developed an information theoretic, seizure detection algorithm for electroencephalography (EEG) towards improving diagnosis, management, and treatment of patients with epilepsy.
Researchers at Stanford have invented a novel hydrogel with enhanced retention and extended durability. This hydrogel can be held together three times longer than many alternatives without sacrificing its self-healing attributes during injection.
For orbital fractures, there are advanced solutions for the restoration of bony contour following trauma but the most debilitating functional consequences (pain and double vision) are due to soft tissue injury and entrapment rather than bony distortion.
Researchers at Stanford have developed a novel cell-free stem cell derived extracellular vesicle (EV) therapy powered by pulsed focused ultrasound (pFUS) that enhances its therapeutic and bioenergetic effect.
Stanford researchers have developed a method for assessing neonatal health risk by using longitudinal electronic health records (EHR) utilizing a machine learning model comprising deep learning neural networks.