Connect with us

Published

on

Scientists at the Massachusetts Institute of Technology (MIT) have unveiled groundbreaking cell-wearable devices that could transform the treatment of neurological disorders, including multiple sclerosis (MS). These micro-scale devices, which wrap around individual neurons, mimic the function of natural myelin and restore the electrical signalling disrupted by neurodegenerative diseases. Battery-free and activated by light, the devices offer a new way to monitor and potentially modulate neuron activity within the body.

Synthetic Myelin for Damaged Axons

As per the report by Neuro Science News, these tiny devices are crafted from a soft polymer that rolls and adheres to axons and dendrites when exposed to specific light wavelengths. This unique action allows the device to envelop neuronal structures without damaging delicate cellular components. According to Deblina Sarkar, head of MIT’s Nano-Cybernetic Biotrek Lab, this design is a step towards creating symbiotic neural interfaces that work at a cellular level. “Our technology allows intimate interfaces with neurons, adapting closely to their complex shapes,” Sarkar explains. By wrapping around axons—the neural “wiring” responsible for transmitting electrical impulses—the device can act like synthetic myelin, potentially restoring functions in damaged neurons.

Advances in Microelectronics

To create these wearables, researchers use azobenzene, a light-sensitive material. When exposed to specific light wavelengths, azobenzene films form microtubes that snugly wrap around neuronal structures. Lead author Marta J. I. Airaghi Leccardi, now a Novartis Innovation Fellow, highlights that the team developed a fabrication technique scalable enough to produce thousands of these microdevices without a semiconductor cleanroom. “This advancement means we can potentially produce cell-wearables in large quantities for therapeutic applications,” says Leccardi.

Future Applications and Possibilities

MIT researchers are optimistic about the potential to integrate these devices with advanced sensors, which could open new pathways for non-invasive brain treatments. The devices may one day help clinicians and researchers monitor electrical, optical, and even thermal signals from neurons, offering a deeper understanding of brain function. Flavia Vitale, associate professor at the University of Pennsylvania, called the research “an exciting foundation” for future in vivo applications, where the devices might aid in treating neurodegenerative diseases more effectively.

Continue Reading

Science

Water on Ancient Mars? New Study Challenges the Cold Planet Theory

Published

on

By

Water on Ancient Mars? New Study Challenges the Cold Planet Theory

Despite being a vast and inhospitable planet today, scientists believe Mars, the Red Planet, used to look much like Earth, the Blue Planet. Over the last four years, NASA’s Perseverance rover has wandered across an area of Mars where researchers believe a powerful river once poured into a crater, forming a sizable delta. According to computer models, ancient Mars most likely had frequent snowfall and rain, which shaped the enormous networks of lakes and river basins. In the Journal of Geophysical Research: Planets, a recent study found that the distribution of these land characteristics is more consistent with precipitation models than with only the consequences of melting ice caps.

Investigating Early Martian Climate Through Modeling

The researchers published their findings April 21 in the Journal of Geophysical Research: Planets. According to the research by geologists at the University of Colorado in Boulder, our planetary neighbour, on average 140 million miles away in space, was warm and wet billions of years ago. This challenges a long-held belief that early Mars was mostly cold and icy. However, there’s a vital mystery buried in the story: It’s unclear where Mars’ water could have come from, and most climate models predict the world exhibits surface temperatures that are far too cold to sustain liquid water, raising questions about how those visible geological features could have formed.

“It’s very hard to make any kind of conclusive statement,” Amanda Steckel, a postdoctoral researcher at the California Institute of Technology’s Division of Geological and Planetary Sciences, said in a statement. “But we see these valleys beginning at a large range of elevations. It’s hard to explain that with just ice,” she further added in the official blog posted by University of Colorado. 

Through computer simulations, Steckel and her team explored what Mars might have looked like during the Noachian epoch, when water may have drastically shaped the planet’s surface, some 4 billion years ago. Initially created for Earth, their model was modified to simulate how Mars’ landscape changed near the equator, where expansive channel networks extend from the highlands and drain into ancient lakes, possibly even an ocean. NASA’s Perseverance rover is currently exploring one of these sites, Jezero Crater, where a once-powerful river poured into the basin.

Comparing Climate Models and Implications for Planetary History

The group explored two major simulation models, the ice-melt model and the wet and warm model for how precipitation might have created the valleys on Mars: one in which the planet was warm and humid, and another in which ice briefly melted at the edge of a huge ice cap, signifying a cold, arid climate. With valley roots showing up in radically diverse places, each scenario produced a very different Mars.

Their goal was to determine whether ancient Mars may have had a more Earth-like climate, at least for a while. While more evidence is needed and answers to questions, such as how the planet stayed warm enough for rain or snow, are part of an ongoing investigation. Still, Hynek said the study offers valuable clues, not just about Mars, but about the early history of Earth as well.

Continue Reading

Science

SpaceX launches 28 Starlink satellites, nails booster landing

Published

on

By

SpaceX launches 28 Starlink satellites, nails booster landing

SpaceX added to its growing Starlink mega-constellation with a launch to orbit and booster recovery. A Falcon 9 rocket launched from Cape Canaveral Space Force Station’s Launch Complex-40 at 9:52 p.m. EDT (0152 GMT on April 25), carrying 28 new satellites into low Earth orbit. The spacecraft were stacked vertically inside the rocket’s nose cone, where they sat on the Falcon 9’s nine first-stage Merlin engine stack that blasted them into the sky over Florida’s Space Coast.

According to a SpaceX mission update, the Falcon 9’s first stage, booster B1069, separated from the upper stage about 2.5 minutes after launch. Roughly six minutes later, it executed a precise landing on the autonomous droneship A Shortfall of Gravitas, stationed in the Atlantic Ocean. This marked the 23rd successful flight for B1069 and the 19th time it supported a Starlink mission. The rocket’s second stage continued on its course, deploying the 28 satellites into low Earth orbit one hour into the mission.

These satellites come as new additions to the mission (Starlink 6-74), which is now amplifying an extensive network of no less than 7000+ operational units established in orbit. Starlink’s gates are inching open, as each new flight strengthens global service, and the company aims to beam high-speed internet to nearly every location on Earth, except the polar region. In the days to come, the new arrivals will gradually drift into their assigned orbital slots.

SpaceX is still maintaining a breakneck launch tempo for 2025, with Thursday’s flight being the 47th Falcon 9 mission of the year and the 30th carrying Starlink satellites only. The timeline reflects the firm’s determination to broaden satellite broadband deployment, particularly to rural and poorly served parts of the world. Each new batch enhances service reliability and builds resilience into the constellation’s structure.

The Starlink program continues to reshape global internet accessibility, backed by the Falcon 9’s proven reusability and precision recovery. As they tick off their successful booster landing and payload deployment, SpaceX continues to redefine both space travel logistics and satellite-powered access on Earth.

Continue Reading

Science

Scientists Reportedly Found a Potential Sign of Life on a Distant Planet: What You Need to Know

Published

on

By

Scientists Reportedly Found a Potential Sign of Life on a Distant Planet: What You Need to Know

A team of astronomers have reportedly discovered biological activity outside the solar system. The scientists have revealed that the distant planet, named K2-18 b, comprises more than one molecule in its atmosphere that potentially has been generated by living things. However, this revelation has made a sensation among astronomers across the world, more specifically for those who study biosignatures in exoplanet atmospheres.

 

According to report by Nature.com, K2-18 b is a planet that is smaller than Neptune. It lies at a distance of 38 parsecs above the Earth.

About the Discovery

Dimethyl sulphide (DMS) has been discovered by scientists from the University of Cambridge, UK, in the atmosphere of K2-18b. The DMS molecule is generated by living organisms, which has raised speculations about the potential for life on this distant planet. The scientists used the James Webb Space Telescope (JWST) to implement research. Also, the discovery happened when a molecule was detected in the starlight filtering through the planet’s atmosphere. These chemicals have raised curiosity amongst astronomers as they are generated by living organisms on the planet Earth.

This discovery first came into the light in the year 2023. However, the new revelations have been made as a result of the follow-up on similar findings. This time, the scientists used different wavelengths and a research strategy to support their discovery of molecules on the distant planet. .

Significance of this Discovery

For decades, scientists have been engrossed in studying life beyond Earth. Now that the pieces of evidence are hinting towards the potential existence of DMS or DMDS on K2-18 b. If proven, this will be a historic win for the scientists. Furthermore, this discovery is a step towards understanding planets from a broader perspective. Overall, more than 5,800 planets have been detected throughout the Universe.

Reason Behind Uncertainty by Other Researchers

The scientists are sceptical about this discovery as they doubt whether DMS or DMDS are really present or is K2-18 b is barren. While some of the researchers are not confident about the discovery, the expert team of scientists from the University of Cambridge, UK, is working extensively to provide a proven base to support their findings.

Continue Reading

Trending