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It becomes obvious, that there are clump risks in the current setup of the global drug production.

There may soon be a shortage of certain drugs, such as some antibiotics (, as the only production facilities in China stopped producing them, due to the current Corona virus outbreak.

( e.g. consider that 97% of the antibiotics used in America are made in China according to an article by ABC7 news.

The world’s pharmaceutical supply chain is in danger as the virus spreads across China and jeopardizes travel and trade.

Continue reading “The Coronavirus Is a Threat to the Global Drug Supply” | >

Lifespan.io is hosting its third annual conference on aging and rejuvenation biotechnology.

The Life Extension Advocacy Foundation/Lifespan.io, a nonprofit company promoting aging research, is hosting its third annual Ending Age-Related Diseases: Investment Prospects and Advances in Research conference on August 20–21 at the Stern Auditorium of the Icahn School of Medicine at Mount Sinai (New York City, USA).

The goal of this conference is to promote scientific and public discussion in order to foster the development of interventions that target aging and are capable of relieving our aging society from the burden of age-related diseases. Key topics of the conference include biomarkers of aging, discoveries in fundamental research, the development of interventions targeting the root mechanisms of aging, investment strategies, and regulatory issues that are relevant to rejuvenation research.

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Scientists at Purdue University have made the fastest spinning object ever, a tiny ball of silicon dioxide that rotates 300 billion times per second. They positioned the microscopic silica balls in a vacuum and blasted them with two different lasers that induce the spin.

In 2018, scientists at the Institute for Photonics at ETH Zurich (a small, elite science university) created the first billion-RPM object and said they hoped it would accelerate, so to speak, the discovery of wild and unpredictable things. And that has certainly borne out, because the Purdue team has shown that even in a near vacuum, the spinning silica particles create measurable friction.

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Labs around the world are racing to develop new computing and sensing devices that operate on the principles of quantum mechanics and could offer dramatic advantages over their classical counterparts. But these technologies still face several challenges, and one of the most significant is how to deal with “noise”—random fluctuations that can eradicate the data stored in such devices.

A new approach developed by researchers at MIT could provide a significant step forward in quantum correction. The method involves fine-tuning the system to address the kinds of noise that are the most likely, rather than casting a broad net to try to catch all possible sources of disturbance.

The analysis is described in the journal Physical Review Letters, in a paper by MIT graduate student David Layden, postdoc Mo Chen, and professor of nuclear science and engineering Paola Cappellaro.

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SpaceX will fly four privately-paying space tourists to orbit in its Crew Dragon capsule, the company unveiled on Tuesday.

“This historic mission will forge a path to making spaceflight possible for all people who dream of it, and we are pleased to work with the Space Adventures’ team on the mission,” SpaceX president and COO Gwynne Shotwell said in a statement.

The customers will be brokered through Space Adventures, a company that’s flown private citizens to the International Space Station using Russian spacecraft. The firm said this Crew Dragon mission will allow four individuals to “see planet Earth the way no one has since the Gemini program” of the 1960s.

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