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The question of why tau spread matches memory loss progression has become one of the most actively researched areas in neurodegenerative disease, offering...

Understanding tau spread along brain networks has become one of the most significant areas of research in dementia science over the past decade.

Understanding how amyloid damaged synapses leak abnormal tau proteins represents one of the most significant breakthroughs in dementia research over the...

Understanding how tau misfolding and clumping leads to toxicity has become one of the most pressing questions in neurodegenerative disease research, with...

Understanding why chronic brain inflammation worsens tau damage has become one of the most critical frontiers in dementia research, offering potential...

Understanding how inflammatory molecules make neurons more vulnerable has become one of the most important frontiers in dementia research and brain health...

Alzheimer’s disease devastates the brain by progressively eroding memory, cognition, and daily function, with synapse loss—a breakdown in neural connections—emerging as a key early driver of these symptoms. While amyloid plaques and tau tangles have long dominated research, recent studies…

Amyloid beta (Aβ) clusters represent a critical early driver in Alzheimer’s disease, the most common form of dementia, where they disrupt the precise signaling between neurons essential for memory and cognition.[1][2][3] Unlike the visible plaques long associated with the disease,…