Many people with multiple sclerosis struggle with balance and coordination, and this study uncovers a hidden reason why.

New research suggests that balance and coordination problems in multiple sclerosis may begin when key brain cells slowly run ...

Subscribe to our newsletter for the latest sci-tech news updates. Now, by analyzing thousands of proteins found in the blood, scientists at UC San Francisco have created the clearest picture yet of ...

Artificial intelligence (AI), using a simple blood test combined with standard brain images has, for the first time, been able to identify two biologically distinct types of multiple sclerosis (MS), ...

MS research suggests the disease may be divided into two biological subtypes that differ in how early and aggressively nerve ...

A new cellular balance test can detect a hidden inflammation in the brain, helping physicians to spot multiple sclerosis ...

NIH study reveals key players underlying disease onset and repair. Using an animal model of multiple sclerosis (MS), researchers at the National Institutes of Health (NIH) have created a ...

Autoimmune diseases such as multiple sclerosis arise when the immune system turns against the body itself. Yet for most of ...

A team of scientists led by the Institute for Glial Sciences (IGS) at Case Western Reserve University’s School of Medicine has discovered a built-in “brake” that controls when key brain cells mature.

MS has a way of making everything feel interconnected, writes columnist Desiree Lama, and that includes her relationship with ...

In the human brain, neurofilament light chain (NfL, shown in brown) is seen in brain cells and the neural wires that connect them. UCSF researchers found NfL in the bloodstream of patients who would ...

Now, by analyzing thousands of proteins found in the blood, scientists at the University of California, San Francisco (UCSF), have created what they view as the clearest picture yet of when the ...