PSCAN, which enables minimally invasive, wide-field, high-resolution imaging of the nucleus tractus solitarii (NTS) in living mice. This technique allows detailed investigation of NTS activity and ...

What is the secret to happiness? Does happiness come from within, or is it shaped by external influences such as our jobs, health, relationships and material circumstances? A new study shows that ...

Crucially, the way it interprets the information depends on what the rest of the brain is working on. If it's Super Bowl Sunday, the visual system sees those carrots on a veggie tray before the ...

Multiphoton microscopy is a valuable tool for neuroscience research, allowing scientists to observe functional brain activity in real time through high-resolution imaging. An essential component of ...

These genes affect how your immune system functions ... It functions almost like an endocrine organ, releasing inflammatory compounds and hormones that directly promote insulin resistance.

The badge connects to a real-time location system, a type of technology that tracks the live location of people or objects. When the button on the safety badge is pressed, the RTLS traces the ...

binds to the receptor GFRAL in the brain, evoking anxiety. A human cellular and molecular atlas of the proliferative endometrium in polycystic ovary syndrome (PCOS) was generated via single ...

Compared with the general population, patients with stroke have a higher prevalence of poor sleep. Stroke survivors commonly experience poor sleep quality, which in turn is related to stroke type ...

New research from The University of Manchester may reshape our understanding of what happens to the immune system when we fast. Funded by the Biotechnology and Biological Sciences Research Council ...

The study on mice shows that the brain's hypothalamus controls how the immune system adapts during fasting, through a handful of highly specialized neurons responsible for making animals hungry.

The system, with a combined mass of 1.56 solar masses, will explode in 23 billion years. The discovery suggests such systems may be common, aiding in understanding type 1a supernova origins.