Brain atrophy in multiple sclerosis (MS) reflects progressive neurodegeneration that correlates with disability, cognitive decline and long-term prognosis. Magnetic resonance imaging (MRI) volumetric ...
Researchers have developed an artificial intelligence method that can uncover previously hidden signs of multiple sclerosis in routine MRI scans.
Researchers say ability to see for the first time previously hidden indicators of MS disease progression is an important advance.
Changes in the upper spinal cord, measured on routine brain MRI, may help flag higher MS progression risk in people with RRMS ...
One of the uncomfortable truths about multiple sclerosis is that the part of the brain likely to reveal the most about the disease and how a patient will be affected has been mostly invisible to ...
Now, by analyzing thousands of proteins found in the blood, scientists at UC San Francisco have created the clearest picture yet of when the disease attacks the myelin sheath that covers the nerve ...
A new study uses generative AI and MMCLE to reveal invisible gray matter cortical lesions on legacy MS MRI scans.
Changes in NAWM and NAGM are crucial in MS progression, challenging the traditional lesion-centric model. Subtle alterations in myelin integrity, immune cell function, and neuronal connectivity ...
An international research team, including researchers at Karolinska Institutet, has mapped the genes expressed in the brain cells of people with multiple sclerosis (MS). The atlas, which is presented ...
Many people with multiple sclerosis struggle with balance and coordination, and this study uncovers a hidden reason why. Researchers found that inflammation in the brain disrupts the energy supply of ...
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 ...