A large proportion of the chemicals and heavmiy metals we are exposed to in the modern world are detrimental to brain health in one way or another; aluminium accumulation in the brain is known to cause
the amyloid plaque formation behind Alzheimer's, mercury is linked to autism, and fluoride can lower IQ levels at all ages.
Not exact matches
IN BRIEF Scientists have new evidence that suggests that THC inhibits the
formation of
amyloid plaques by blocking the enzyme in the brain that produces them.
In a study published online June 21 in the Annals of Clinical and Translational Neurology, the researchers show that the consumption of extra-virgin olive oil protects memory and learning ability and reduces the
formation of
amyloid - beta
plaques and neurofibrillary tangles in the brain — classic markers of Alzheimer's disease.
One drug blocks an enzyme essential to the
formation of
amyloid plaques that are thought to cause the disease.
«We're getting a clearer understanding of the pathologies —
amyloid plaques and their analog in Parkinson's, Lewy bodies — and how we can thwart their
formation,» says Bredt.
«This implies that the astrocytes could be reacting against the
formation of
amyloid plaques by modifying their function rather than changing position, concludes Galea.
Recent research also has illuminated how the deadly cascade that leads to brain atrophy is set in motion: The buildup of
amyloid plaques, working in tandem with certain gene mutations, sparks the
formation of the renegade tau proteins.
The results showed that
amyloid plaque levels in the posterior cingulate cortex were related to the amount of white matter damage, suggesting that injury to the brain's wiring may be linked to the
formation of
amyloid plaques.
We don't fully understand what it means, but it may combine with other forms of
amyloid - beta to stimulate
plaque formation.»
Alzheimer's disease has been linked to the
formation of sticky beta -
amyloid plaques and tau tangles in the brain.
In a study published in the journal Cell Reports, Drs. Per Nilsson, Takaomi Saido and their team show for the first time using transgenic mice that a lack of autophagy in neurons prevents the secretion of
amyloid beta and the
formation of
amyloid beta
plaques in the brain.
Autophagy, a key cellular auto - cleaning mechanism, mediates the
formation of
amyloid beta
plaques, one of the hallmarks of Alzheimer's disease.
«This suggests that
amyloid buildup in the brain's blood vessels precedes
plaque formation in chimpanzees.»
Insulin plays many roles in the brain — it is involved in memory
formation, and it helps to keep synapses free of protein debris, including the tau tangles and
amyloid plaques that build up in Alzheimer's, Craft says.
In another rodent study published this week in Science Translational Medicine a group of researchers from multiple institutions identified a pathway responsible for the
formation of
amyloid plaques.
In persons with the disease, the
formation of
amyloid plaque aggregates, a process known to cause the onset of Alzheimer's disease, prevents the Crtc1 protein from functioning correctly.
Glenner's research eventually morphed into the «
amyloid cascade hypothesis,» which says that the
formation of
amyloid - beta
plaques leads to tangled forms of another protein, tau, and ultimately to inflammation in the brain.
The new study from a team at the Cleveland Clinic Lerner Research Institute focused on an enzyme called BACE1 (aka beta - secretase), which is known to contribute to the
formation of the toxic
amyloid proteins that congregate as
plaques on the brain, and are hypothesized to be the source of most Alzheimer's symptoms.
Many of the current drugs being explored act to stop the
formation of
amyloid plaques in the brain which mean they may need to be given early in the disease process.
Abundant
amyloid plaque deposition is evident throughout all cortical layers, hippocampal
formation and amygdala in homozygote transgenic rats.
We report that immunization of the young animals essentially prevented the development of beta -
amyloid -
plaque formation, neuritic dystrophy and astrogliosis.
Within two months, those derived from the Alzheimer's patients began secreting high levels of
amyloid protein, which clumped together in the spaces between neurons, resembling the
formation of
plaques in a fully formed brain.
While the buildup of sticky proteins called
amyloid plaques in the brain has been repeatedly linked to Alzheimer's disease, the role of blood in the
formation of the condition has been less clear.
A team of researchers from the Cleveland Clinic Lerner Research Institute have found that gradually depleting an enzyme called BACE1 completely reverses the
formation of
amyloid plaques in the brains of mice with Alzheimer's disease, thereby improving the animals» cognitive function.
SAN FRANCISCO, CA — Researchers at the Gladstone Institutes have shown that low levels of the protein progranulin in the brain can increase the
formation of
amyloid - beta
plaques (a hallmark of Alzheimer's disease), cause neuroinflammation, and worsen memory deficits in a mouse model of this condition.
The gene is also linked to
formation of the
amyloid - beta peptide associated with sticky
plaque, one of the supposed hallmarks of the disease, but how ApoE4 actually brings or heightens risk for the disease is unclear.
The researchers wanted to see how brain function is affected by canola oil consumption, so the study was focused on the impairment of memory and the
formation of neurofibrillary tangles and
amyloid plaques in the Alzheimer's mouse model.
Enhancing valuable AMPK activity can improve memory while suppressing the
formation of beta -
amyloid plaque and tau tangles — both indicators of Alzheimer's disease — and can cause an additional 20 percent increase in lifespan.
It is theorized that the anti-inflammatory spice with powerful antioxidant properties inhibits the
formation of
amyloid plaque, a major cause of dementia.
Scientists have identified a basic pathologic process underlying Alzheimer's development that involves the
formation of abnormal protein deposits in the brain known as beta -
amyloid plaques, but they still aren't entirely sure what causes this to happen.
''... experiments employed germ - free animals indicate that host microbiota can regulate
formation of
amyloid plaques in the brain...»
Magnesium is a cofactor for enzymes that break down and prevent the
formation of
amyloid - beta
plaques.
There has been some research that has shown potential for an increase in what are called neurofibrillary tangles where the
formation of what are called beta
amyloid plaques and neurodegeneration in your brain in the presence of pot intake.