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Category: biotech/medical – Page 2,183

AI Can Spot Low Glucose Levels Without Fingerprick Test

Researchers have developed a new Artificial Intelligence (AI)-based technique that can detect low-sugar levels from raw ECG signals via wearable sensors without any fingerprint test. Current methods to measure glucose requires needles and repeated fingerpicks over the day. Fingerpicks can often be painful, deterring patient compliance.

The new technique developed by researchers at University of Warwick works with an 82 per cent reliability, and could replace the need for invasive finger-prick testing with a needle, especially for kids who are afraid of those.

“Our innovation consisted in using AI for automatic detecting hypoglycaemia via few ECG beats. This is relevant because ECG can be detected in any circumstance, including sleeping,” said Dr Leandro Pecchia from School of Engineering in a paper published in the Nature Springer journal Scientific Reports.

Discover Longevity and Anti-Aging Science Past, Present and Future

Ira Pastor, ideaXme exponential health ambassador, interviews Dr. Magomed Khaidakov, Assistant Research Professor, Department of Internal Medicine, University of Arkansas for the Medical Sciences. https://www.amazon.com/Pessimistic-Guide-Anti-aging-Research…atfound-20

Ira Pastor Comments

Today we are going to be talking about mitochondria, among many other longevity and anti-aging themed topics.

We’re also going to talk a little bit about the role of pessimism and realism when it comes to the human translation of certain technologies, and why it is important to limit “messianic thinking” as much as possible.

Mitochondria

The mitochondria are double-membrane-bound organelles found in most eukaryotic organisms and are responsible for generating most of the cell’s supply of adenosine triphosphate (ATP), used as a source of chemical energy. Thus mitochondria is termed the “powerhouse of the cell.”

Continue reading “Discover Longevity and Anti-Aging Science Past, Present and Future” | >

Augmented Reality in a Contact Lens

Science fiction writers envisioned the technology decades ago, and startups have been working on developing an actual product for at least 10 years.

Today, Mojo Vision announced that it has done just that—put 14K pixels-per-inch microdisplays, wireless radios, image sensors, and motion sensors into contact lenses that fit comfortably in the eyes. The first generation of Mojo Lenses are being powered wirelessly, though future generations will have batteries on board. A small external pack, besides providing power, handles sensor data and sends information to the display. The company is calling the technology Invisible Computing, and company representatives say it will get people’s eyes off their phones and back onto the world around them.

The first application, says Steve Sinclair, senior vice president of product and marketing, will likely be for people with low vision—providing real-time edge detection and dropping crisp lines around objects. In a demonstration last week at CES 2020, I used a working prototype (albeit by squinting through the lens rather than putting it into my eyes), and the device highlighted shapes in bright green as I looked around a dimly lit room.

Exosome Therapy for Stroke Produces Full Recovery in Animal Model

Researchers reverse stroke damage in animal model using stem cell exosomes.

Expanding upon previous work that developed a treatment using a type of extracellular vesicles known as exosomes—small fluid-filled structures that are created by stem cells—investigators at the University of Georgia (UGA) present brain-imaging data for a new stroke treatment that supported full recovery in swine, modeled with the same pattern of neurodegeneration as seen in humans with severe stroke. Findings from this new study were published recently in Translational Stroke Research through an article titled “Neural Stem Cell Extracellular Vesicles Disrupt Midline Shift Predictive Outcomes in Porcine Ischemic Stroke Model.”

Amazingly, it’s been almost a quarter-century since the first drug was approved for stroke. Yet, what’s even more striking is that only a single drug remains approved today, so having a greater understanding of the molecular mechanisms that underlie stroke cases should lead to new therapies that could provide dramatic improvements in patient outcomes.

The researchers at UGA’s Regenerative Bioscience Center report the first observational evidence during a midline shift—when the brain is being pushed to one side—to suggest that a minimally invasive and nonoperative exosome treatment can now influence the repair and damage that follow a severe stroke.

LIfT BioSciences secures a further round of funding for its game-changing innate cell therapy for solid tumours

London, 15th January 2020 – Biotech LIfT BioSciences today announced a further major investment into the company in its mission to develop the first curative and affordable cell therapy for all solid tumours. The investors included Jonathan Milner, a leading biotech ‘super-angel’ investor and earlier stage investor in LIfT, Kizoo Technology Ventures, a leading early-stage investor in breakthrough technologies and Downing Ventures, a leading London-based investor.