Lifeboat Foundation

Summary: Researchers have isolated the electrical activity of individual neurons in the vagus nerve responsible for regulating cardiovascular function in humans. By identifying neurons that fire in sync with the heartbeat, scientists can now study how these neurons monitor or control heart activity.

This breakthrough could lead to new insights into how cardiovascular diseases develop and why vagal neuron activity changes in these conditions. The findings offer a foundation for exploring therapeutic targets in heart disease by studying vagus nerve activity in both healthy individuals and those with cardiovascular issues.

Summary: Sound stimulation can manipulate brain waves during REM sleep, a stage crucial for memory and cognition. Using advanced technology, researchers were able to increase the frequency of brain oscillations that slow down in dementia patients, potentially improving memory functions.

The non-invasive technique could pave the way for innovative treatments for dementia by targeting brain activity during sleep. This approach offers hope for enhancing memory and cognition with minimal disruption to patients’ lives.

MIT researchers have developed a miniature, chip-based “tractor beam,” like the one that captures the Millennium Falcon in the film “Star Wars,” that could someday help biologists and clinicians study DNA, classify cells, and investigate the mechanisms of disease.

Small enough to fit in the palm of your hand, the device uses a beam of light emitted by a silicon-photonics chip to manipulate particles millimeters away from the chip surface. The light can penetrate the glass cover slips that protect samples used in biological experiments, enabling cells to remain in a sterile environment.

Traditional optical tweezers, which trap and manipulate particles using light, usually require bulky microscope setups, but chip-based optical tweezers could offer a more compact, mass manufacturable, broadly accessible, and high-throughput solution for optical manipulation in biological experiments.

What would you say if someone told you that skin cancer could be cured by using a bar of soap?

Ethiopia-born Heman Bekele is on TIME’s latest cover as the 2024 Kid of the Year.

In most vertebrates, a pattern of chemical marks on the genome is a reliable indicator of age, but in axolotls this clock seems to stop after the first four years of life.

By Claire Ainsworth

Summary: Neural stem cells, which create new neurons in the brain, become less active with age due to elevated glucose levels. Researchers found that by knocking out the glucose transporter gene GLUT4 in older mice, they could significantly increase the production of new neurons.

This discovery opens up potential pathways for both genetic and behavioral interventions to stimulate brain repair, including the possibility of a low-carbohydrate diet. The findings could help treat neurodegenerative diseases and aid in brain recovery after injury.

Scientists at the University of Minnesota and the Midwest Antiviral Drug Discovery (AViDD) Center have made a surprising discovery: antibodies can have opposite effects on viral infections in human cells.

The spike protein of SARS-CoV-2, the virus that causes COVID-19, enables the virus to enter human cells and is the primary target for the body’s antibodies. Previous research has shown that antibodies can either block the virus, have no effect, or, in rare cases, assist the virus in infecting cells. While antibody drugs work to block infections, this new study challenges current understanding of their mechanisms.

Published in the journal PLOS Pathogens, this study is the first to identify an antibody that can both assist and block the virus. This particular antibody helps pre-omicron variants of the virus infect cells while preventing the omicron variant from doing the same. The study also explains how the antibody aids the pre-omicron virus in invading cells while blocking the omicron virus from succeeding.

Patients with certain mental disorders, including schizophrenia, often hear voices in the absence of sound.

Auditory hallucinations are likely the result of abnormalities in two brain processes: a broken corollary discharge that fails to suppress self-generated sounds, and a noisy efference copy that makes the brain hear these sounds more intensely than it should. That is the conclusion of a study published October 3 in the open-access journal PLOS Biology by Xing Tian, of New York University Shanghai, China, and colleagues.

In the new study, researchers carried out electroencephalogram (EEG) experiments measuring the brain waves of 20 patients diagnosed with schizophrenia with auditory hallucinations and 20 patients diagnosed with schizophrenia who had never experienced such hallucinations.

A new way of diagnosing lung cancer with a blood draw is 10 times faster and 14 times more sensitive than earlier methods, according to University of Michigan researchers.