What causes memory
problems? Often, it's plaque in the brain, which leads to Alzheimer's. Now, new
research shows a more common culprit may be vascular brain injury. Find out
about this type of cognitive decline from stroke, mini-stroke and high blood
pressure. Learn why diagnosing the right cause effects therapy and treatment.
Alzheimer's is
connected to sticky plaques made of beta-amyloid that choke brain cells,
thereby causing dementia. People may act like they have Alzheimer's when they
really have vascular dementia. Vascular dementia is caused by vascular events
(related to blood vessels) such as strokes and mini-strokes, so treatment is
different. (Mini-strokes occur in the brain when blood vessels clog up or
burst. They can accumulate slowly and can go unnoticed for years.)
For example, the
damage caused by plaque is typically treated with acetylcholinesterase
inhibitors like Aricept®. These drugs target the nervous system. Vascular
problems like mini-strokes are treated with blood-targeting medications and
therapies.
Alzheimer's disease
and vascular dementia are two types of dementia that are common in the elderly.
A person's dementia can even be caused by a combination of the two, called
"Mixed Dementia."
With today's
technology, both vascular brain injury as well as beta-amyloid plaque can be
detected in the brain. They both cause memory and thinking problems, called
"cognitive impairment". If the cognitive impairment is strong and
interferes with a typical person's day, it is called dementia. If it is mild,
it is called MCI (Mild Cognitive Impairment).
Until now, doctors
generally assumed that when they saw cognitive impairment, it was probably from
plaque building up in the brain. Treatment and therapy were given accordingly.
New research is showing that vascular brain injury from strokes or the
mini-strokes often caused by high blood pressure may deserve the greater part
of their attention.
A study at the
Alzheimer’s Disease Research Center at UC Davis has found that vascular brain
injury from conditions such as high blood pressure and stroke are greater risk
factors for cognitive impairment among non-demented older people than is the
deposition of the amyloid plaques in the brain that long have been implicated
in conditions such as Alzheimer’s disease.
Published online
early today in JAMA Neurology (formerly Archives of Neurology), the study found
that vascular brain injury had by far the greatest influence across a range of
cognitive domains, including higher-level thinking and the forgetfulness of
mild cognitive decline.
The researchers also
sought to determine whether there was a correlation between vascular brain
injury and the deposition of beta amyloid (Αβ) plaques, thought to be an early
and important marker of Alzheimer’s disease, said Bruce Reed, associate
director of the UC Davis Alzheimer’s Disease Research Center in Martinez,
Calif. They also sought to decipher what effect each has on memory and executive
functioning.
“We looked at two
questions,” said Reed, professor in the Department of Neurology at UC Davis.
“The first question was whether those two pathologies correlate to each other,
and the simple answer is ‘no.’ Earlier research, conducted in animals, has
suggested that having a stroke causes more beta amyloid deposition in the
brain. If that were the case, people who had more vascular brain injury should
have higher levels of beta amyloid. We found no evidence to support that.”
"The second,”
Reed continued, “was whether higher levels of cerebrovascular disease or
amyloid plaques have a greater impact on cognitive function in older,
non-demented adults. Half of the study participants had abnormal levels of beta
amyloid and half vascular brain injury, or infarcts. It was really very clear
that the amyloid had very little effect, but the vascular brain injury had
distinctly negative effects.”
“The more vascular
brain injury the participants had, the worse their memory and the worse their
executive function – their ability to organize and problem solve,” Reed said.
The research was
conducted in 61 male and female study participants who ranged in age from 65 to
90 years old, with an average age of 78. Thirty of the participants were
clinically “normal,” 24 were cognitively impaired and seven were diagnosed with
dementia, based on cognitive testing. The participants had been recruited from
Northern California between 2007 to 2012.
The study
participants underwent magnetic resonance imaging (MRI) ― to measure vascular
brain injury ― and positron emission tomography (PET) scans to measure beta
amyloid deposition: markers of the two most common pathologies that affect the
aging brain. Vascular brain injury appears as brain infarcts and “white matter
hyperintensities” in MRI scans, areas of the brain that appear bright white.
The study found that
both memory and executive function correlated negatively with brain infarcts,
especially infarcts in cortical and sub-cortical gray matter. Although infarcts
were common in this group, the infarcts varied greatly in size and location,
and many had been clinically silent. The level of amyloid in the brain did not
correlate with either changes in memory or executive function, and there was no
evidence that amyloid interacted with infarcts to impair thinking.
Reed said the study
is important because there’s an enormous amount of interest in detecting
Alzheimer’s disease at its earliest point, before an individual exhibits
clinical symptoms. It’s possible to conduct a brain scan and detect beta
amyloid in the brain, and that is a very new development, he said.
“The use of this
diagnostic tool will become reasonably widely available within the next couple
of years, so doctors will be able to detect whether an older person has
abnormal levels of beta amyloid in the brain. So it’s very important to
understand the meaning of a finding of beta amyloid deposition,” Reed said.
“What this study says
is that doctors should think about this in a little more complicated way. They
should not forget about cerebrovascular disease, which is also very common in
this age group and could also cause cognitive problems. Even if a person has
amyloid plaques, those plaques may not be the cause of their mild cognitive
symptoms.”
(Source: Alzheimer’s and Dementia Weekly, 11 December
2013)
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