"No one doubts that amyloid plays a role in Alzheimer's disease, but more and more tau findings are beginning to shift how people think about what is actually driving the disease," explained Renaud La Joie, PhD, a postdoctoral researcher in Rabinovici's In Vivo Molecular Neuroimaging Lab, and lead author of the new study. "Still, just looking at postmortem brain tissue, it has been hard to prove that tau tangles cause brain degeneration and not the other way around. One of our group's key goals has been to develop non-invasive brain imaging tools that would let us see whether the location of tau buildup early in the disease predicts later brain degeneration."
Tau PET Scans Predict Locations of Future Brain Atrophy in Individual Patients
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Despite early misgivings that tau might be impossible to measure in the living brain, scientists recently developed an injectable molecule called flortaucipir -- currently under review by the FDA -- which binds to misfolded tau in the brain and emits a mild radioactive signal that can be picked up by PET scans.
Rabinovici and collaborator William Jagust, MD, of UC Berkeley and Lawrence Berkeley National Laboratory, have been among the first to adopt tau PET imaging to study the distribution of tau tangles in the normally aging brain and in a smaller cross-sectional study of Alzheimer's patients. Their new study represents the first attempt to test whether tau levels in Alzheimer's patients can predict future brain degeneration.
La Joie recruited 32 participants with early clinical stage Alzheimer's disease through the UCSF Memory and Aging Center, all of whom received PET scans using two different tracers to measure levels of amyloid protein and tau protein in their brains. The participants also received MRI scans to measure their brain's structural integrity, both at the start of the study, and again in follow-up visits one to two years later.
The researchers found that overall tau levels in participants' brains at the start of the study predicted how much degeneration would occur by the time of their follow up visit (on average 15 months later). Moreover, local patterns of tau buildup predicted subsequent atrophy in the same locations with more than 40 percent accuracy. In contrast, baseline amyloid-PET scans correctly predicted only 3 percent of future brain degeneration.
"Seeing that tau buildup predicts where degeneration will occur supports our hypothesis that tau is a key driver of neurodegeneration in Alzheimer's disease," La Joie said.
