On this trivia episode of X10, Veera quizzes Nicola and Giuliano on stem cells, giving them five genuine stumpers from Ulla-Kaisa Peteri that leave them unsure and puzzled throughout.
Want to test your knowledge about stem cells with this not-so-trivial trivia? Let’s see if you can do better than Giuliano and Nicola! (You probably can, especially better than Nicola…).
Thanks to Ulla-Kaisa Peteri for preparing the questions!
LOS ALAMOS, N.M., Jan. 15, 2020 — Scientists at Los Alamos National Laboratory have incorporated meticulously engineered colloidal quantum dots into a new type of LED containing an integrated optical resonator, which allows the LEDs to function as lasers.
:-o.
The 256-foot boat doubles as a submarine capable of diving to depths of 985 feet for 10 days at a time.
The LiveWire may have been Harley-Davidson’s first foray into electric motorcycles, but it certainly wasn’t its last. And taking a look at the next Harley-Davidson electric motorcycle in the works may help lend some insight into the direction this legacy motorcycle manufacturer is headed.
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.
We’re at a fascinating point in the discourse around artificial intelligence (AI) and all things “smart”. At one level, we may be reaching “peak hype”, with breathless claims and counter claims about potential society impacts of disruptive technologies. Everywhere we look, there’s earnest discussion of AI and its exponentially advancing sisters – blockchain, sensors, the Internet of Things (IoT), big data, cloud computing, 3D / 4D printing, and hyperconnectivity. At another level, for many, it is worrying to hear politicians and business leaders talking with confidence about the transformative potential and societal benefits of these technologies in application ranging from smart homes and cities to intelligent energy and transport infrastructures.
Why
Its stock has soared past $500 per share. That’s a hopeful sign that the company might finally be executing smoothly.
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.