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Alzheimer's Breakthrough as Five New Subgroups Identified

  • Nishadil
  • January 15, 2024
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  • 2 minutes read
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Alzheimer's Breakthrough as Five New Subgroups Identified

Scientists have made a breakthrough in our understanding of Alzheimer's after identifying five new subcategories of the disease. The discovery opens the door to more , as well as more accurate genetic risk assessments and prognoses. Alzheimer's, the most common form of dementia in the United States, affects roughly 5.8 million Americans, according to the U.S.

Centers for Disease Control and Prevention. The progressive condition is characterized by memory loss and cognitive decline in the regions of the brain involved in thought, memory and language. Scientists believe the condition is caused by an abnormal buildup of proteins in and around the brain cells, but exactly what triggers this process is still unclear.

At a molecular level, Alzheimer's differs among patients, meaning not everyone responds well to the same treatments. But now new research from a large team of neuroscientists and Alzheimer's disease specialists has revealed that these differences can be divided into five distinct categories.

The research was published in the journal . In its study, the team took samples of the cerebrospinal fluid from 419 Alzheimer's patients and 187 control volunteers. Cerebrospinal fluid is a watery liquid that surrounds and protects the brain and spinal cord and allows for the transfer of nutrients and impurities in and out of these regions.

Being in direct contact with the brain, the fluid also provides a minimally invasive way to study the molecular fingerprints of neurodegenerative disease. The team analyzed each sample for the presence of 1,058 different proteins, and distinct patterns began to emerge quickly. Among the Alzheimer's patients, these patterns could be divided into five distinct categories.

These protein profiles varied, from those associated with excessive structural reorganization in the brain to those indicative of a leaky blood brain barrier. The team also found that each of these subtypes was associated with distinct genetic risk factors. "The subtypes also differed in cortical [cell death] patterns and survival times, underscoring their clinical relevance," the authors wrote.

"Given the distinct patterns of molecular processes and Alzheimer's disease genetic risk profiles, it is likely that Alzheimer's subtypes will require specific treatments." More work is needed to determine these subtype specific effects, but the authors say that the discovery highlights the importance of personalized medicine in Alzheimer's treatment.

Newsweek is committed to challenging conventional wisdom and finding connections in the search for common ground. Newsweek is committed to challenging conventional wisdom and finding connections in the search for common ground..