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Testing Brain Pacemakers to Zap Alzheimer’s Damage
By Lauran Neergaard
WASHINGTON
(AP) — It has the makings of a science fiction movie: Zap someone’s
brain with mild jolts of electricity to try to stave off the creeping
memory loss of Alzheimer’s disease.
And it’s not easy. Holes are drilled into the patient’s skull so
tiny wires can be implanted into just the right spot.
A dramatic shift is beginning in the disappointing struggle to find something
to slow the damage of this epidemic: The first U.S. experiments with “brain
pacemakers” for Alzheimer’s are getting under way. Scientists are
looking beyond drugs to implants in the hunt for much-needed new treatments.
The research is in its infancy. Only a few dozen people with early stage Alzheimer’s
will be implanted in a handful of hospitals. No one knows if it might work, and
if it does, how long the effects might last.
Kathy Sanford was among the first to sign up. The Ohio woman’s early stage
Alzheimer’s was gradually getting worse. She still lived independently,
posting reminders to herself, but no longer could work. The usual medicines weren’t
helping.
Then doctors at Ohio State University explained the hope — that constant
electrical stimulation of brain circuits involved in memory and thinking might
keep those neural networks active for longer, essentially bypassing some of dementia’s
damage.
Sanford decided it was worth a shot.
“The reason I’m doing it is, it’s really hard to not be able,
sometimes, to remember,” Sanford, 57, said from her Lancaster, Ohio, home.
Her father is blunter.
“What’s our choice? To participate in a program or sit here and watch
her slowly deteriorate?” asked Joe Jester, 78. He drives his daughter to
follow-up testing, hoping to spot improvement.
A few months after the five-hour operation, the hair shaved for her brain surgery
was growing back and Sanford said she felt good, with an occasional tingling
that she attributes to the electrodes. A battery-powered generator near her collarbone
powers them, sending the tiny shocks up her neck and into her brain.
It’s too soon to know how she’ll fare; scientists will track her
for two years.
“This is an ongoing evaluation right now that we are optimistic about,” is
how Ohio State neurosurgeon Dr. Ali Rezai cautiously puts it.
More than 5 million Americans have Alzheimer’s or similar dementias, and
that number is expected to rise rapidly as the baby boomers age. Today’s
drugs only temporarily help some symptoms. Attempts to attack Alzheimer’s
presumed cause, a brain-clogging gunk, so far haven’t panned out.
“We’re getting tired of not having other things work,” said
Ohio State neurologist Dr. Douglas Scharre.
The new approach is called deep brain stimulation, or DBS. While it won’t
attack Alzheimer’s root cause either, “maybe we can make the brain
work better,” he said.
Implanting electrodes into the brain isn’t new.
Between 85,000 and 100,000 people around the world have had DBS to block the
tremors of Parkinson’s disease and other movement disorders. The continuous
jolts quiet overactive nerve cells, with few side effects. Scientists also are
testing whether stimulating other parts of the brain might help lift depression
or curb appetite among the obese.
It was in one of those experiments that Canadian researchers back in 2003 stumbled
onto the Alzheimer’s possibility. They switched on the electrical jolts
in the brain of an obese man and unlocked a flood of old memories. Continuing
his DBS also improved his ability to learn. He didn’t have dementia, but
the researchers wondered if they could spur memory-making networks in someone
who did.
But wait a minute.
Alzheimer’s doesn’t just steal memories. It eventually robs sufferers
of the ability to do the simplest of tasks. How could stimulating a brain so
damaged do any good?
A healthy brain is a connected brain. One circuit signals another to switch on
and retrieve the memories needed to, say, drive a car or cook a meal.
At least early in the disease, Alzheimer’s kills only certain spots. But
the disease’s hallmark gunky plaques act as a roadblock, stopping the “on” switch
so that healthy circuits farther away are deactivated, explained Dr. Andres Lozano,
a neurosurgeon at Toronto Western Hospital whose research sparked the interest.
So the plan was to put the electrodes into hubs where brain pathways for memory,
behavior, concentration and other cognitive functions converge, to see if the
jolts reactivate those silenced circuits, added Ohio State’s Rezai.
“It’s like going through Grand Central Station and trying to affect
all the trains going in and coming out,” he said.
Lozano’s team found the first clue that it’s possible by implanting
six Alzheimer’s patients in Canada. After at least 12 months of continuous
stimulation, brain scans showed a sign of more activity in areas targeted by
Alzheimer’s. Suddenly, the neurons there began using more glucose, the
fuel for brain cells.
“It looked like a blackout before. We were able to turn the lights back
on in those areas,” Lozano said.
While most Alzheimer’s patients show clear declines in function every year,
one Canadian man who has had the implants for four years hasn’t deteriorated,
Lozano said, although he cautioned that there’s no way to know whether
that’s due to the DBS.
The evidence is preliminary and will take years of study to prove, but “this
is an exciting novel approach,” said Dr. Laurie Ryan of the National Institutes
of Health’s aging division, which is funding a follow-up study.
In research under way now:
• The Toronto researchers have teamed with four U.S. medical centers — Johns
Hopkins University, the University of Pennsylvania, University of Florida and
Arizona’s Banner Health System — to try DBS in a part of the brain
called the fornix, one of those memory hubs, in 40 patients. Half will have their
electrodes turned on two weeks after the operation and the rest in a year, an
attempt to spot any placebo effect from surgery.
• At Ohio State, Rezai is implanting the electrodes into a different spot,
the frontal lobes, that his own DBS work suggests could tap into cognition and
behavior pathways. That study will enroll 10 participants including Sanford.
Surgery back in October was Sanford’s first step. Then it was time to fine-tune
how the electrodes fire. She took problem-solving tests while neurologist Scharre
adjusted the voltage and frequency and watched her reactions.
Sanford was cheered to see her test scores climb a bit during those adjustments.
She said she knows there are no guarantees, but “if we can beat some of
this stuff, or at least get a leading edge on it, I’m in for the whole
deal.”
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