Lifeboat Foundation: Safeguarding Humanity
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Japanese researchers have created a smart face mask that has a built in speaker and can translate speech into 8 different languages.

We live in a world full of technology but it was a world without smart masks, until now!

A Japanese technology company Donut Robotics has taken the initiative to create the first smart face masks which connects to your phone. Of course, we couldn’t have battled coronavirus with a simple mask that still does the job of protecting us perfectly well. We as a race need to bring technology into everything and more so if it does an array of extremely important, life-saving things like using a speaker to amplify a person’s voice, covert a person’s speech into text and then translate it into eight different languages through a smartphone app.

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No one wants to walk with a walker, but age has a way of making people compromise on their quality of life. The team behind Superflex, which spun out of SRI International in May, thinks there could be another way.

The company is building wearable robotic suits, plus other types of clothing, that can make it easier for soldiers to carry heavy loads or for elderly or disabled people to perform basic tasks. A current prototype is a soft suit that fits over most of the body. It delivers a jolt of supporting power to the legs, arms, or torso exactly when needed to reduce the burden of a load or correct for the body’s shortcomings.

A walker is a “very cost-effective” solution for people with limited mobility, but “it completely disempowers, removes dignity, removes freedom, and causes a whole host of other psychological problems,” SRI Ventures president Manish Kothari says. “Superflex’s goal is to remove all of those areas that cause psychological-type encumbrances and, ultimately, redignify the individual.”

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A new spin on the magnetic compression of plasmas could improve materials science, nuclear fusion research, X-ray generation and laboratory astrophysics, research led by the University of Michigan suggests.

The study shows that a spring-shaped magnetic field reduces the amount of plasma that slips out between the .

Known as the fourth state of matter, plasma is a gas so hot that electrons rip free of their atoms. Researchers use magnetic compression to study extreme plasma states in which the density is high enough for quantum mechanical effects to become important. Such states occur naturally inside stars and gas giant planets due to compression from gravity.

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Circa 2017

This bubbly concept car protects more than the driver; its next-generation rubber exterior can save pedestrians, too.

Traditional metal panels are replaced with soft rubber, which absorbs the impact of a collision. The car is also a shapeshifter, meaning that the rubber panels move and flex, forming a more aerodynamic shape.

Continue reading “The Shapeshifting Car Of The Future Has Airbags On The Outside” | >

Scattered across the world are a number of bewildering ‘mystery spots’ that appear to defy gravity — places where cars seem to drift uphill, and cyclists struggle to push themselves downhill.

Also known as gravity hills, these bizarre natural phenomena can be found in places like Confusion Hill in California and Magnetic Hill in Canada, and while they’ve inspired rumours of witchcraft and giant magnets buried in the countryside, the actual scientific explanation will have you questioning every slope you encounter from here on out.

There are reportedly dozens of gravity hills around the world, in the US, the UK, Australia, Brazil, and Italy, and they all have one thing in common — if you drive your car to the bottom of the hill and put it in neutral, it will proceed to roll back UP the slope.

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Under certain circumstances in patients, the human immune system can spin out of control and become highly toxic, resulting in cytokine release syndrome (CRS). CRS has been observed in certain autoimmune diseases (Grom et al. 2016), during highly infectious diseases like COVID-19 (Zhang et al. 2020), and following immune-enhancing treatments that include monoclonal or bispecific antibodies, or CAR T therapies (Shimabukuro-Vornhagen et al. 2018). CRS, which can be deadly, has been notoriously difficult to study and for which to develop novel treatments. However, encouraging new data indicates that many aspects of human CRS can be modeled in immunodeficient NSG mice engrafted with human peripheral blood mononuclear cells (PBMCs). This model provides hope that new immuno-modulatory therapies can be safely developed and tested before clinical trials.

Figure 1. TGN1412 analogue (anti-CD28 superagonist) mediated CRS dose response. Human PBMC engrafted NSG™-SGM3 recipient mice (stock# 013062) were treated with anti-CD28 mAb positive control or TGN1412 analogue at low, medium or high dosing. Human IFN- ɣ, TNF-α, and IL-6 were measured quantitatively at 1, 2, 4, and 6 hours post treatment. Increasing doses of TGN1412 analogue showed a progressively increased cytokine release response.

The next question was whether PBMC donor-specific differences in drug response could be observed, mimicking what is observed clinically. Cohorts of mice were engrafted with nine different human PBMC donors, and each donor cohort was tested with PBS, OKT3, or anti-CD28. In mice treated with OKT3, 7 out of 9 donors displayed a severe IFN-ɣ CRS response, 5 showed a severe IL-6 response and all exhibited a strong TNF-α response (figure 2). Donors G and H showed a milder response. When treated with anti-CD28, 2 out of 9 donors showed a severe IFN-ɣ response. Collectively, the data described in the experiments above demonstrate that specific mAbs are capable of initiating a CRS response in this model and that the response is both dose and PBMC donor dependent.

Figure 2. Human PBMC donor specific differences in magnitude of CRS response. Human PBMC from 9 different donors (A-J) were engrafted into NSG recipient mice (stock# 005557) and treated with Muromonab (OKT3, anti-CD3 mAb) or anti-CD28 mAb. Human IFN- ɣ, TNF-α, and IL-6 were measured quantitatively 6 hours post treatment. Each donor shows a quantitative difference in cytokine response to each drug tested.

Continue reading “Battling COVID-19; A New Model of Cytokine Release Syndrome” | >

The certificates do not require a college degree, can be completed in 3 to 6 months and are offered through an online learning platform.

Today, Google announced three new online certificate programs in data analytics, project management and user experience design.

The certificates are created and taught by Google employees, do not require a college degree, can be completed in three to six months and are offered through the online learning platform Coursera. Google says it will consider all of its certificates as the equivalent of a four-year college degree for related roles at the company.

“This is not revenue-generating for Google,” says Google vice president, Lisa Gevelber, who leads Grow with Google and Google for Startups and serves as the company’s Americas chief marketing officer. “There’s a small cost from the Coursera platform itself — the current pricing is $49 a month — but we want to ensure that anyone who wants to have this opportunity, can have it.”

Continue reading “Google announces 100,000 scholarships for online certificates in data analytics, project management and UX” | >