Researchers in The Optical Communications Group at Stanford have developed an efficient, integrated multimode optical amplifier for scalable, spatially multiplexed long-haul optical fiber transmission.
Stanford researchers have developed a novel technique, enabling specific labeling and purification of regenerating and non-regenerating retinal ganglion cells from the same animals with the same genetic background/modification/injuries.
Spiral ganglion neurons (SGNs) are essential for hearing as they transmit electrical signals from the cochlea to the brain. Loss of SGNs causes permanent hearing loss because SGNs do not spontaneously regenerate in humans.
Stanford researchers have developed aldehyde-containing hydrogels that release bacteriophage, with or without antibiotics, over a controlled and sustained manner to treat infections including orthopedic joint infections, wound infections, ear infections (chronic suppurative ot
Stanford researchers have developed a method for targeted focused ultrasound application to peripheral nerves to suppress acute pain. This invention can non-invasively concentrate ultrasound waves onto peripheral nerves without impacting surrounding tissue.
Stanford inventors have created an audio-visual system with a radiotransparent screen provides a means for communication and visual distractions during procedures such as radiation therapy and radiation imaging.
Cell culture is a central technique used for a plethora of research applications including in the modeling of complex diseases, creating transgenic animals, gene therapy, cell therapy, regenerating lost tissue, and organ biogenesis.
Stanford researchers have developed novel viral markers from tomato brown rugose fruit virus (ToBRFV). The marker is a good indicator of 1) environmental fecal contamination, 2) fecal load in wastewater, and 3) internal control for viral RNA extraction from stool.
Stanford researchers in the Konstantina Stankovic Lab have developed a panel of blood biomarkers for vestibular schwannoma diagnosis and hearing loss monitoring associated with this intracranial tumor.
Stanford researchers are changing the way we approach neuropsychiatric care; they've delved into the complex world of brain signals and developed an analysis that distinguishes cravings from basic needs like hunger and sleep, offering a whole new way to fine-tune treatments fo
Researchers at Stanford University have developed a scalable, single-cell barcoding system and method for genomic editing and tracking using cas12a-based compressive molecular probes.
Introducing a groundbreaking advancement in lithium metal anode technology, Stanford researchers have developed an innovation that leverages a flower-like nanostructured hard carbon host (CF) to unlock the full potential of lithium metal.