ApplySci – Deep Tech Health + Neurotech

Tag: Featured

  • Smart socks sense pain, pressure in diabetic neuropathy

    Smart socks sense pain, pressure in diabetic neuropathy

    SenseGo smart socks have multiple sensors that monitor  pressure from poor posture, over-exertion, or ill-fitting shoes, all which could lead to diabetic foot ulcers.  Pressure points are registered as electrical signals, and relayed to an app which  informs the patient of a developing risk. The washable sensor socks, developed by Hebrew University professor Yaakov Nahmias, can compensate…

  • Flexible, sweat sensing, health wearable

    Flexible, sweat sensing, health wearable

    Berkeley’s Ali Javey has developed a prototype band that uses sweat non-invasively assess medical conditions.  It could also spot drug abuse, or provide information to optimize sports performance.  The flexibility and computing power of the device build on the capabilities of earlier sweat sensors. A flexible plastic band contains sensors that measure the concentrations of sodium…

  • Virtual clinic uses apps, VR, data, wearables in remote care

    Virtual clinic uses apps, VR, data, wearables in remote care

    USC’s Center for Body Computing, led by Professor Leslie Saxon, has created the Virtual Care Clinic, featuring vetted, best of class partners providing integrated remote healthcare solutions.  The eight initial partners are Doctor Evidence, IMS Health, Karten Design, Medable, Planet Grande, Proteus Digital Health and VSP Global. Mobile apps, virtual doctors, data collection and analysis systems,…

  • Nanofiber sensor glove could detect breast cancer

    Nanofiber sensor glove could detect breast cancer

    Tokyo University’s Takao Someya and Harvard’s Zhigang Suo are developing thin, bendable, pressure sensitive, nanofiber sensors that could be be incorporated into gloves to detect breast tumors. The 1.9 inch square sheet has 144  pressure measuring locations, and can detect pressure even when twisted.  Many researchers are developing flexible pressure sensors, but they are vulnerable when bent…

  • Genetic disease patients identified via machine learning

    Genetic disease patients identified via machine learning

    Stanford’s Nigam Shah and Joshua Knowles are using machine learning to search for people with familial hypercholesterolemia, a genetic disorder that causes high levels of LDL cholesterol in the blood. Only a 10 percent of people  with the disorder are aware of it, and it is often diagnosed after a cardiac event — the risk of which can…

  • DARPA neural implant to enhance brain-computer connections

    DARPA neural implant to enhance brain-computer connections

    DARPA is leading the development of an improved  neural implant for connecting the brain to computers, using advances neuroscience, synthetic biology, low-power electronics, photonics and medical manufacturing.  Their goal is to to dramatically enhance  neurotechnology research capabilities and provide a foundation for new therapies. The Neural Engineering System Design program aims to produce a miniaturized brain implant, smaller…

  • Sensor monitors, regulates IV fluid flow

    Sensor monitors, regulates IV fluid flow

    The Singapore-MIT Alliance for Research and Technology‘s Ajay Kottapalli has developed a cheap IV drip sensor to monitor and regulate fluid flow.  A signal is sent to a control unit which can adjust the flow speed or alert staff.  This can reduce the amount of time nurses spend checking patient IVs — which is estimated at…

  • Self-dissolving implanted brain temperature, pressure sensor

    Self-dissolving implanted brain temperature, pressure sensor

    Wilson Ray and Washington University colleagues,  in partnership with John Rogers,  have developed a miniaturized wireless  device to monitor temperature and pressure when implanted into the brain following TBI.  The implant then dissolves, to be naturally reabsorbed into soft tissue, once  no longer needed. Current methods involve an implanted sensor that must be hard-wired to an external…

  • Glucose monitoring breath test

    Glucose monitoring breath test

    Applied Nanodetectors is in the early stages of developing a noninvasive breath sensor for diabetics to monitor daily glucose levels.  By measuring the levels of volatile organic compounds in breath, if accurate, this could replace finger pricking for disease sufferers, and create a simple diagnostic test. The company has a related product that monitors the concentration of exhaled…

  • “Bubble-pen” writes with nanoparticles

    “Bubble-pen” writes with nanoparticles

    Yuebing Zheng and University of Texas colleagues have developed a “bubble pen lithography” device and technique to quickly, gently and precisely handle nanoparticles.  This can support the creation of accurate and highly sensitive biomedical sensors for drug delivery or imaging, among other applications. The method relies on micro bubbles to  inscribe nanoparticles onto a surface.  A laser is…

  • Handheld spectrometer identifies low-grade brain tumors

    Handheld spectrometer identifies low-grade brain tumors

    Emory and Georgia Tech researchers have developed a highly sensitive spectrometer  to identify low-grade gliomas from healthy tissue.  The hand-held device  contains a light source and detector tuned to the excitation and emission wavelengths of PpIX. The team claims that the device is 3 times more sensitive than current surgical microscopes, and enables the detection of as…

  • Smart helmet + rate activated strap could minimize head injury severity

    Smart helmet + rate activated strap could minimize head injury severity

    The Army Research Lab continues to develop technology aimed at protecting soldiers, athletes and others from impact related head injury. Its rate-activated helmet-strap can prevent violent head motions, while permitting (necessary) voluntary head motion. The material stretches with low, elastic force at slower speeds, and resists with high force when pulled quickly upon impact. Used…