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Apr 8, 2022

Michael Fossel | Aging: Understanding it, Reversing it

Posted by in categories: biotech/medical, computing, life extension, nanotechnology, neuroscience

Dr Fossel talking about dementia, telomeres, and clarifying some experimental myths.


Foresight Biotech & Health Extension Meeting sponsored by 100 Plus Capital.
Program & apply to join: https://foresight.org/biotech-health-extension-program/

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Apr 8, 2022

New data on an elusive particle could upend physics as we know it

Posted by in categories: cosmology, particle physics

The W boson measurement provides insight into the weak nuclear force, and could explain other longstanding mysteries like antimatter imbalance and dark matter.

Apr 8, 2022

Hubble finds a planet forming in an unusual way

Posted by in category: space

This discovery supports a long-debated theory for how planets like Jupiter form, called “disk instability.”

Apr 8, 2022

China uses AI software to improve its surveillance capabilities

Posted by in categories: government, robotics/AI, surveillance

Dozens of Chinese firms have built software that uses artificial intelligence to sort data collected on residents, amid high demand from authorities seeking to upgrade their surveillance tools, a Reuters review of government documents shows.

Apr 8, 2022

Humans could live up to 150 years, new study claims

Posted by in categories: biotech/medical, internet, life extension

Humans could live until the ripe old age of 150 years according to recent research – and scientists are racing to work out how.

Harvard geniuses, biohackers and internet billionaires are all looking for ways that humans can crack the code on aging.

WaitButWhy blogger Tim Urban writes “the human body seems programmed to shut itself down somewhere around the century mark, if it hasn’t already”.

Apr 8, 2022

Engineered crystals could help computers run on less power

Posted by in categories: computing, transportation

Computers may be growing smaller and more powerful, but they require a great deal of energy to operate. The total amount of energy the U.S. dedicates to computing has risen dramatically over the last decade and is quickly approaching that of other major sectors, like transportation.

In a study published online this week the journal Nature, University of California, Berkeley, engineers describe a major breakthrough in the design of a component of transistors—the tiny electrical switches that form the building blocks of computers—that could significantly reduce their without sacrificing speed, size or performance. The component, called the gate oxide, plays a key role in switching the transistor on and off.

“We have been able to show that our gate-oxide technology is better than commercially available transistors: What the trillion-dollar semiconductor industry can do today—we can essentially beat them,” said study senior author Sayeef Salahuddin, the TSMC Distinguished professor of Electrical Engineering and Computer Sciences at UC Berkeley.

Apr 8, 2022

Solar panels that can generate electricity at night have been developed at Stanford

Posted by in categories: solar power, sustainability

While standard solar panels can provide electricity during the day, this device can be a “continuous renewable power source” during the day and at night.

Apr 8, 2022

Blue Brain builds neurons with mathematics

Posted by in categories: biotech/medical, chemistry, computing, information science, mathematics, neuroscience

Santiago Ramón y Cajal, a Spanish physician from the turn of the 19th century, is considered by most to be the father of modern neuroscience. He stared down a microscope day and night for years, fascinated by chemically stained neurons he found in slices of human brain tissue. By hand, he painstakingly drew virtually every new type of neuron he came across using nothing more than pen and paper. As the Charles Darwin for the brain, he mapped every detail of the forest of neurons that make up the brain, calling them the “butterflies of the brain”. Today, 200 years later, Blue Brain has found a way to dispense with the human eye, pen and paper, and use only mathematics to automatically draw neurons in 3D as digital twins. Math can now be used to capture all the “butterflies of the brain”, which allows us to use computers to build any and all the billons of neurons that make up the brain. And that means we are getting closer to being able to build digital twins of brains.

These billions of neurons form trillions of synapses – where neurons communicate with each other. Such complexity needs comprehensive neuron models and accurately reconstructed detailed brain networks in order to replicate the healthy and disease states of the brain. Efforts to build such models and networks have historically been hampered by the lack of experimental data available. But now, scientists at the EPFL Blue Brain Project using algebraic topology, a field of Math, have created an algorithm that requires only a few examples to generate large numbers of unique cells. Using this algorithm – the Topological Neuronal Synthesis (TNS), they can efficiently synthesize millions of unique neuronal morphologies.

Apr 8, 2022

“Time jump” anti-aging method gives specialized cells a 30-year refresh

Posted by in categories: biotech/medical, life extension, neuroscience

Through experimentation with a highly promising anti-aging technique, scientists at the UK’s Babraham Institute have demonstrated a new way of turning back the clock in human skin cells. These cells functioned like cells 30 years younger, but in what represents an exciting advance in the field, were able to still retain some of their specialized functions acquired through age.

In 2012, Japanese researcher Shinya Yamanaka earned a Nobel Prize for his work in developing what are known as induced pluripotent stem cells (iPSCs). These start out as regular adult tissue cells that are harvested and exposed to four molecules called Yamanaka factors, which return them to an immature state. From here, the stem cells can theoretically develop into any cell type in the body.

We’ve seen scientists explore this potential in a number of exciting ways, implanting them in rabbits to restore vision, addressing dopamine deficiencies in animal models of Parkinson’s disease and repairing damaged heart muscles in pigs. The full reprogramming process involves subjecting the cells to the Yamanaka factors for around 50 days, but the Babraham scientists have found that shortening this process might bring some significant benefits to the table.

Apr 8, 2022

‘Extraordinary’ W boson particle finding contradicts understanding of how universe works

Posted by in category: particle physics

New measurement of fundamental particle of physics after decade-long study challenges theoretical rulebook in scientific ‘mystery’.