Over 1 in 3 people are affected by neurological conditions worldwide. Pharmacological and surgical treatment options may be limited due to access, side effects, and reduced therapeutic efficacy.
Researchers at Stanford have developed a compact, chip-based optical sensor capable of measuring key health biomarkers non-invasively and in real time, with potential for integration into everyday wearable devices.
Stanford scientists have developed a generative learning framework paired with a compact wearable EMG device that extrapolates limited sensor inputs to reconstruct muscle activity equivalent to that captured by high-density sensor arrays.
Scientists at Stanford have developed a new method to manufacture sterile microbial food that contains levels of key bioactive metabolites derived from fermented foods.
The Stanford team has developed a Short Fiber Pre-Plied Double-Double (PPDD) Tape that can achieve complex, double-curvature composite parts like a helmet while maintaining high stiffness and other desired mechanical properties.
Wireless spectrum is increasingly fragmented due to the growing proliferation of unlicensed wireless devices and piecemeal licensed spectrum allocations.
Stanford researchers have developed an oral formula and method to reduce the risk of developing food allergies. This patented formula can reduce the risk of food allergy in different age groups when given as part of a normal daily diet.
Oral mucositis (OM) is a painful side effect of chemoradiotherapy, especially in children and adolescents, with a high incidence rate of over 20%-40% and up to 90% in high risk patients.
Stanford researchers have developed a mouth-cooling device that prevents or reduces the degree of oral mucositis (OM), a painful side effect of chemotherapy, radiotherapy, autoimmune conditions, and infections.
Stanford researchers have developed a software platform featuring an integrated digital twin framework to enable 24/7, carbon-free operations of electric vehicle (EV) fleets.
Stanford researchers have demonstrated clinical proof of concept that a real-time biofeedback system can reduce pain and slow joint degeneration in patients with movement disorders such as knee osteoarthritis.
Researchers at Stanford University have developed a novel 3D printing method, enabling multiple printheads to collaboratively pattern materials from multiple directions, an 'inwards-out' approach that overcomes previous limitations.
Researchers at Stanford University have developed a multilayered immiscible polymer system capable of autonomously realigning its layers to enhance the healing process after damage.