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Mar 3, 2024

In a First, Organoid Model Resembles All Three Sections of Embryonic Brain and Spinal Cord

Posted by in categories: biotech/medical, engineering, neuroscience

The first organized stem cell culture model that resembles all three sections of the embryonic brain and spinal cord, and produces a full model of the early stages of the human central nervous system, has been developed by a team of engineers and biologists at the University of Michigan(U-M), the Weizmann Institute of Science, and the University of Pennsylvania (UPenn).

“Models like this will open doors for fundamental research to understand early development of the human central nervous system and how it could go wrong in different disorders,” said Jianping Fu, PhD, professor of mechanical engineering at University of Michigan.

This work is published in Nature in the paper, “A Patterned Human Neural Tube Model Using Microfluidic Gradients.

Mar 3, 2024

Science 101: What are Dark Matter and Dark Energy?

Posted by in categories: computing, cosmology, particle physics, science

Argonne’s Science 101 series takes you back to the basics, with plain-language explanations of the scientific concepts behind our pivotal discoveries and our biggest innovations.

In this Science 101 video, postdoctoral researchers Gillian Beltz-Mohrmann and Florian Kéruzoré explore two of the biggest mysteries in science: dark matter and dark energy. These strange influences seem to be stretching the universe apart and clumping stuff together in unexpected ways. Together, they make up a whopping 95% of the universe, but because we can’t see or touch them, we don’t know what they are.

Continue reading “Science 101: What are Dark Matter and Dark Energy?” »

Mar 3, 2024

David Eagleman, investigator of the secrets of our minds

Posted by in categories: food, law, mobile phones, neuroscience

Nothing of the mind is foreign to David Eagleman, neuroscientist, technologist, entrepreneur and one of the most interesting scientific writers of our time. Born in New Mexico 52 years ago, he now researches cerebral plasticity, synesthesia, perception of time and what he called neurolaw, the intersection of the brain’s knowledge and its legal implications. His 2011 book Incognito: The Secret Lives of the Brain has been translated into 28 languages, and he returned to publishing with Livewired: The Inside Story of the Ever-Changing Brain, which focuses on a fundamental idea for today’s neuroscience: that the brain is constantly changing to be able to adapt to experience and learning. The science he brings to us isn’t merely top-notch, but firsthand, and his brilliant, crystal-clear writing — a perfect reflection of his mind — turns one of the most complex subjects of modern-day research into food for thought for the interested reader. We spoke with him in California by videoconference, the first interview that he’s given to a Spanish publication in a decade.

Could a newborn brain learn to live in a five-dimensional word? “We don’t actually know which things are pre-programmed and how much is experiential in our brains,” he replies. “If you could raise a baby in a five-dimensional world, which, of course, is unethical to do as an experiment, you might find that it’s perfectly able to function in that world. The general story of brain plasticity is that everything is more surprising than we thought, in terms of the brain’s ability to learn whatever world it drops into.”

Eagleman pulls out a sizable bowl of salad from somewhere, scoops a forkful into his mouth and continues his argument: “The five-dimensional world is hypothetical, but what we do see, of course, is that babies dropping into very different cultures around the planet, whether that’s a hyper-religious culture or an atheist culture, whether it’s a culture that lives on agriculture or a culture that is super technically advanced like here in Silicon Valley, the brain has no problem adjusting. My kids, when they were very young, could operate an iPad or cell phone just as easily as somebody growing up in a different place would operate farming equipment. So, we do know that brains are extremely flexible.”

Mar 3, 2024

Wait … Did We Finally Find the Source of Dark Energy?!

Posted by in categories: cosmology, physics

For the first time ever, we can explain its entire existence with no new physics.

Mar 3, 2024

Cancer Prevention and Control Panel

Posted by in category: biotech/medical

This CU Cancer Center Lunch and Learn from 2/21/2024 featured CU Cancer Center members Rajesh Agarwal, PhD, Stacy Fischer, MD, and Jamie L. Studts, PhD.

Mar 2, 2024

MOSAIC: A Modular System for Assistive and Interactive Cooking

Posted by in category: futurism

MOSAIC

A modular system for assistive and interactive cooking.


Join the discussion on this paper page.

Mar 2, 2024

James Webb Detected Intensely Red Supermassive Black Hole in Early Universe

Posted by in category: cosmology

NASA’s James Webb Space Telescope (JWST) has detected a unique and “intensely red” supermassive black hole hidden in one of the oldest part of the universe.

Scientists proposed the reddish black hole was the outcome of an enlarged universe just 700 million years following the Big Bang, as given in a paper published this month in the journal Nature. Its colors are because of a solid layer of dust compressing a lot of its light, they said.

Whereas for the first time the cosmic monster was technically invented last year, astronomers have now spotted that it is much more massive than anything else of its type in the field, making it strange discovery that could rescript the way we think how supermassive black holes increase relative to their host galaxies.

Mar 2, 2024

Stealthy stem cells to treat disease

Posted by in categories: biotech/medical, genetics, health

Strategies differ, but there are some gene edits that all researchers agree must underpin any universal stem-cell-derived therapy. There is also widespread consensus that the optimal product should incorporate as few edits as possible, both to minimize the potential for unintended genetic consequences and to streamline manufacturing and regulatory approval.

Beyond that, the scientific community is divided. The complexities of the immune system have fuelled spirited debates over the exact genetic manipulations necessary to create a cell therapy that is both capable of bypassing immune defences and delivering meaningful health benefits.

“The immune system is pervasive and persistent,” says Charles Murry, a cardiovascular pathologist at the University of Washington in Seattle and chief executive of StemCardia in Seattle, one of a growing number of biotechnology companies developing gene-editing strategies to overcome immune barriers in regenerative cell treatments.

Mar 2, 2024

AI-enabled atomic robotic probe to advance quantum material manufacturing

Posted by in categories: chemistry, quantum physics, robotics/AI

Scientists from the National University of Singapore (NUS) have pioneered a new methodology of fabricating carbon-based quantum materials at the atomic scale by integrating scanning probe microscopy techniques and deep neural networks. This breakthrough highlights the potential of implementing artificial intelligence (AI) at the sub-angstrom scale for enhanced control over atomic manufacturing, benefiting both fundamental research and future applications.

Open-shell magnetic nanographenes represent a technologically appealing class of new carbon-based quantum materials, which host robust π-spin centres and non-trivial collective quantum magnetism. These properties are crucial for developing high-speed electronic devices at the molecular level and creating quantum bits, the building blocks of quantum computers. Despite significant advancements in the synthesis of these materials through on-surface synthesis, a type of solid-phase chemical reaction, achieving precise fabrication and tailoring of the properties of these quantum materials at the atomic level has remained a challenge.

The figure illustrates the chemist-intuited atomic robotic probe that would allow chemists to precisely fabricate organic quantum materials at the single-molecule level. The robotic probe can conduct real-time autonomous single-molecule reactions with chemical bond selectivity, demonstrating the fabrication of quantum materials with a high level of control. (© Nature Synthesis)

Mar 2, 2024

Brain repairs with nanorobots

Posted by in categories: biotech/medical, robotics/AI

Researchers have found that nerve cells, carried by magnetically powered nanorobots, can be guided towards specific sites in brain tissue to then establish structural and functional connections with the nerve cells of that tissue. While not yet realised in living organisms, the researchers believe their nanorobotic system could potentially be used in patients to treat nerve-related degenerative diseases and injuries.

They describe their findings in the journal Advanced Materials (“A Neurospheroid-Based Microrobot for Targeted Neural Connections in a Hippocampal Slice”).

In the study, a magnetic neurospheroid (Mag-Neurobot), which is made up of magnetic nanorobots carrying live nerve cells (neurons), was introduced into a slice of brain tissue and then magnetically guided to a precise location within that tissue using an external magnetic field.