• About
  • Advertise
  • Privacy & Policy
  • Contact
Research Television
Advertisement
  • Home
  • Research News
    • World
    • Africa
    • Europe
    • Asia
    • Pacific
    • Oceanic
    • Politics
  • Research Business
    • Agriculture
    • Energy
    • Manufacturing
    • Services
    • Tech
  • Research Style
    • Community
    • Culture
  • Research Entertainment
    • Movies
    • Music
  • Research Technology
    • Innovation
    • Science
  • Research Education
  • Research Environment
  • Research Health
  • Research Security
  • Research Sports
    • Football
    • Basketball
    • Golf
    • Tennis
  • Research Religion
  • LIVE
No Result
View All Result
  • Home
  • Research News
    • World
    • Africa
    • Europe
    • Asia
    • Pacific
    • Oceanic
    • Politics
  • Research Business
    • Agriculture
    • Energy
    • Manufacturing
    • Services
    • Tech
  • Research Style
    • Community
    • Culture
  • Research Entertainment
    • Movies
    • Music
  • Research Technology
    • Innovation
    • Science
  • Research Education
  • Research Environment
  • Research Health
  • Research Security
  • Research Sports
    • Football
    • Basketball
    • Golf
    • Tennis
  • Research Religion
  • LIVE
No Result
View All Result
Research Television
No Result
View All Result
Home Research Technology Science

Scientists reverse age-related memory loss by targeting bacteria gut

ResTV by ResTV
July 6, 2026
in Science
0
Scientists develop tiny solar cells that use car windows, glasses to generate electricity
0
SHARES
0
VIEWS
Share on FacebookShare on Twitter

A new mouse study from researchers at Stanford Medicine and the Arc Institute in Palo Alto, California, has identified a gut-brain connection that leadscto cognitive aging. Aging changes gut bacteria in mice, weakening communication between the intestines and the brain.

Restoring that connection helped older mice form memories as effectively as young mice. For decades, age-related memory loss has largely been viewed as a problem that begins in the brain. But growing evidence suggests that some of the processes shaping cognition may start much farther south — in the gut, home to trillions of microbes that help regulate everything from digestion to immunity.

The team found that age-related changes in gut bacteria can interfere with signals traveling along the vagus nerve, a major communication highway linking the gastrointestinal tract and the brain. Their findings suggest that memory decline may be influenced by changes outside the brain itself, opening new possibilities for preserving cognitive function later in life.

“Although memory loss is common with age, it affects people differently and at different ages. “We wanted to understand why some very old people remain cognitively sharp while other people see significant declines beginning in their 50s or 60s.

What we learned is that the timeline of memory decline is not hardwired; it’s actively modulated in the body, and the gastrointestinal tract is a critical regulator of this process,” said Dr. Christoph Thaiss, assistant professor of pathology.

“We wanted to understand why some very old people remain cognitively sharp while other people see significant declines beginning in their 50s or 60s. What we learned is that the timeline of memory decline is not hardwired; it’s actively modulated in the body, and the gastrointestinal tract is a critical regulator of this process,” the scientist adder.

The study found that the gut microbiome, the natural community of bacteria living in the intestine, changes as mice grow older. Some bacterial species become more common while others decline.

Immune cells in the gastrointestinal tract detect these changes and trigger inflammation that weakens signaling through the vagus nerve to the hippocampus, the brain region involved in memory formation and spatial navigation.

When researchers stimulated vagus nerve activity in older mice, the animals regained the ability to remember unfamiliar objects and escape mazes as well as younger mice. “The degree of reversibility of age-related cognitive decline in the animals just by altering gut-brain communication was a surprise.

We tend to think of memory decline as a brainintrinsic process. But this study indicates that we can enhance memory formation and brain activity by changing the composition of the gastrointestinal tract — a kind of remote control for the brain,” he said Thaiss, who is also a core investigator at Palo Altobased Arc Institute, is a senior author of the study, which was published in Nature.

Dr. Maayan Levy, an assistant professor of Pathology and Arc Institute innovation investigator, is the other senior author while Timothy Cox, a graduate student at the University of Pennsylvania, is the lead author of the research. “Our study emphasises that processes in the brain can be modulated through peripheral intervention.

ResTV

ResTV

Research Television

Research is in everything and everything is in research

Follow Us

Centre for Petroleum, Pollution and Corrosion Control

African Journal of Engineering and Environmental Research

Research Newspaper

Browse by Category

  • Africa
  • Agriculture
  • Asia
  • Basketball
  • Community
  • Culture
  • Energy
  • Europe
  • Football
  • Golf
  • Innovation
  • Manufacturing
  • Movies
  • Pacific
  • Politics
  • Research Automobile
  • Research Business
  • Research Education
  • Research Entertainment
  • Research Environment
  • Research Health
  • Research News
  • Research Religion
  • Research Security
  • Research Sports
  • Research Style
  • Research Technology
  • Science
  • Services
  • Tech
  • Uncategorized
  • World

Recent News

Santos secures 10-year deal to supply gas to South Australia

Santos secures 10-year deal to supply gas to South Australia

July 6, 2026
UK mulls ban on New North Sea oil & gas licences

Nigeria joins top global gas producers to address supply security

July 6, 2026
  • About
  • Advertise
  • Privacy & Policy
  • Contact

© 2026 Research Television.

No Result
View All Result

© 2026 Research Television.