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Wired For Miracles
Epilepsy. ADD. Depression. PMS. Insomnia. What do all these conditions have
in common? They're being treated with a new form of high-tech brain biofeedback.
So open your radical science horizons. Here, a report on the cresting edge
of the brainwave. By Jim Robbins
W I R E D for Miracles?
Jake's birth was a long shot. Three months premature,
he weighed just
a pound, and his early birth took a heavy neurological toll. When he was
four,
he entered his parents' room one evening, drooling and unable to speak.
As they watched, horrified, one side of his body went into seizure and he
lost
consciousness. Jake's seizures often happened at night, and his parents
kept an overnight bag packed for trips to the hospital emergency room, where
he received injections of Valium. He often had petit mal seizures during
the
day. He was also diagnosed with cerebral palsy, which diminished his fine
and
gross motor skills. His learning disabilities included attention deficit
disorder
and hyperactivity. He had speech problems and ground his teeth constantly.
His
sleep was troubled and he often woke up ten or eleven times in a night.
Like many children with epilepsy, Jake took
two heavy-duty anti-seizure medications: Depakote and Tegretol. Both are
depressants, and both have serious side effects. As a result, the boy was
logy and often tired. "We felt that Jake was losing his personality," says
his mother. "He was zoned out."
I had known Jake since his birth; the incredible
story of his survival had
made him something of a celebrity in our town of Helena, Montana. Two years
ago, I was in Santa Fe doing a piece on the use of different technologies
to
enhance brain performance; while I was there, I heard about a new technique
performance; while I was there, I heard about a new technique for the treatment
of epilepsy -- a natural treatment called electroencephalographic (EEG)
biofeedback,
or neurofeedback, that often reduced or eliminated the need for drugs. I
was
skeptical, but I mentioned it to Jake's mother at a Christmas party. They
drove three hundred miles to Jackson, Wyoming; for a week at the local hospital,
Jake underwent two hour-long sessions a day on a computerized biofeedback
program.
Within just a few days, Jake's condition had
improved. "His teeth-grinding
and sleep problems disappeared," says his mother. "We could carry
on a conversation for the first time ever. He wanted to cut and draw and
zip
and button. He could never do any of that." Unprompted, friends and relatives
remarked that Jake seemed more centered.
Later, Jake repeated the protocol for another
week. The results were similar.
Jake's pediatric neurologist, Don Wight - who had been extremely skeptical
- examined the boy. When he was done, he concluded that he had found a
new and exciting way to supplement his practice: "There was a qualitative
and quantitative improvement in the way he was functioning," says Wight.
"It was very real."
Jake's parents bought one of the machines and
donated it to the local
hospital, where Wight is using it in his practice. "For most people, taking
one kind of medication to control seizures is a pretty good deal," he says.
"I would like to use neurofeedback with people who are on two medicines,
on ghigh doses, or whose seizures are not being controlled." And Jake?
Though he may need to continue neurofeedback training for the rest of his
life,
the quality of that life will most likely be forever be changed.
Neurofeedback is a new type of computerized
biofeedback that has begun to wend its way into the health care system with
dramatic effects. It's a far cry
from the old kind of biofeedback that was developed in the 1960's and used
primarily for relaxation and to treat stress, incontinence, and pain. For
some
applications - epilepsy, attention deficit disorder, and closed head injuries
- a number of studies and much anecdotal evidence suggest neurofeedback
is effective. Other research suggests it may help treat chronic substance
abuse
and post-traumatic stress disorder. For other conditions, such as Tourette's
syndrome, sleep disorders, depression, and autism, individual case studies
are
glowing, but few, in any, controlled studies have been conducted. "The
phenomenon is robust," insists Siegfried Othmer, Ph.D., physicist and founder
of EEG Spectrum, one of a handful of companies in the U.S. that sell biofeedback
equipment. Othmer and his wife Sue fell into the biofeedback business in
1987, when treatment caused a miraculous change in their son, who, like
Jake, suffered from life-threatening epileptic seizures.
After seeing Jake's transformation up close,
and talking to others who
had used neurofeedback, my curiosity was piqued. What could it do for a
relatively healthy 42-year-old with the usual assortment of mid-life problems:
occasional fatigue, a little mild depression, intermittent problems with
sleep? When I started work on this article, I also started a series of training
sessions.
The results were surprising. But first, a look at just what neurofeedback
is - a potential method for changing what drugs and therapy sometimes can't
- and at the window it may provide on the greatest mystery of all, the human
brain.
MUSIC of the Brain
Neurofeedback is part hero and part orphan these
days. Despite some powerful
research that testifies to its impact, it is only peripherally concerned
with
what has become the hot topic in neuroscience: neurotransmitters. Far less
fashionable than Prozac or Paxil, neurofeedback seems to work by intervening
in the realm of frequency. Frequency is the rate at which electrical charges
move through brain cells. The human brain is measured by four basic frequency
ranges: In delta, the sleep state, signals are moving through clusters of
neurons very slowly, just 4 cycles per second, or hertz (Hz). Just above
that is theta, around 4 to 8 Hz, a deeply relaxed state. Next is alpha,
a slightly less relaxed state, at 8 to 13 Hz. The most rapid brain waves
are beta, and they reflect normal
waking consciousness. However, there's a range of beta, from low beta, which
is a relaxed but alert state of 12 to 15 Hz, to mid-range beta, around 15
to 19 Hz, up to an excited, hyper state of high-beta - as high as 35 Hz.
Even though our measures of frequency (through
EEG) are relatively crude, they
seem to provide a window into excitability within the brain. Researchers
believe
that problems crop up when the operating speed of someone's brain is either
too low (underarousal) or too high (overarousal). As Othmer puts it, "some
people can't find the gas pedal while some people can't take their foot
off it." There is speculation that arousal levels may be a major component
in a whole host of disorders - and their prevalence may be the key to neurofeedback's
sometimes miraculous effect. The goal? To stabilize the brain, to render
it
more robuse, so that it does not tip easily into overarousal or underarousal.
Viewing the human mind this way, through the
prism of neurofeedback, harkens
back to a theory of arousal that was popular in the 1950's. This approach
essentially cuts across the spectrum of psychological diagnostic categories
with just two physiological measures: stability and arousal. According to
this
theory, optimal idling speed for the human brain is about 14 Hz. If the
brain's
major activity is a speed lower than that - 8 to 13 Hz - a person
can feel tired and might seek stimulation through coffee or stimulating
behavior.
They might suffer from depression, ADD, and mild dissociative disorder.
Overarousal, on the other hand, means a person has trouble unwinding and
might seek out several glasses of wine at the end of the day, to modulate
their arousal level. Or they might need Valium. Anxiety attacks, hypervigilance,
stress, and obsessive behavior are all symptoms of overarousal.
HOOKED UP to Happiness
Neurofeedback sessions are surprisingly fun
and simple: they're like playing
computer games where every move is made by the mink. The technology utilized
in neurofeedback, however, is fairly sophisticated, and unit prices can
run
from $3,000 to $9,000. Brain waves must be mapped and analyzed for deviations
from the norm. If there is, for instance, too much theta - which often
occurs in brain trauma, as well as in depression - and not enough beta,
the practitioner will set parameters for a slightly healthier brain wave
map. A session may consist of playing some kind of computer game - in
which a smiling Pacman gobbles up enemy blobs or a balloon tries to float
up to the sky - while the patient's brain waves are continuously monitored.
Each time the brain waves find their way into the optimal state set by
the practitioner, the patient is rewarded with positive feedback: Pacman
eats his enemy or a pleasant tone sounds. After anywhere from five to
fifty sessions, the brain seems able to find the optimal state on its
own.
One of the ingenious aspects of neurofeedback
is that it is perfectly tailored
to each individual. Training is always set to be challenging and exciting
but
not too difficult, so that patients can move slowly and steadily into
their
optimal brain states.
BIOFEEDBACK'S Bold Beginnings
In the 1960's neurofeedback was a revolutionary
way to look at the mind
and its capabilities, and it coincided with other, more dubiously regarded
revolutions. Neurofeedback was adopted by people interested in mind expansion,
often in the forms of LSD and meditation, and its association with Eastern
mystics and parapsychology earned it a crackpot reputation with the mainstream
scientific community. But when I actually went and looked at the early
research, I was astonished at some of the remarkable studies. One of the
crucial pioneers of neurofeedback was Barry Sterman, Ph.D., professor
of neurobiology and biobehavioral psychiatry at the UCLA School of Medicine,
who was the first to experiment with a kind of beta wave called sensory
motor rhythm (SMR), in the 12 to 15 Hz range of beta, and was able to
actually treat epilepsy.
Sterman's original work in the 1970's was
on cats. Using implants
and EEG equipment in a study funded by the National Institutes of Health,
he
found that cats could be trained to control their brain waves. He then
discovered
that swings and irritability to short-term memory loss, confusion, headaches,
nausea, and blurred vision. There are no drugs to treat closed head injury;
any recovery usually occurs on its own within two years. Psychologist
Steven
Stockdale, Ph.D., director of the Neuro-Health Center in Colorado Springs,
is
one of several practitioners using neurofeedback for mild closed head
injury.
In an ongoing three-year study of sixty patients already past the two-year
recovery mark yet still suffering from symptoms, he has found that "about
80% of
the people we work with learn to do the feedback. In those patients, there
is
a 75% reduction in symptoms. They just clear up."
The technique may even help in post-traumatic
stress disorder. New York City
psychiatrist Daniel Kuhn, M.D., treats veterans of the Israeli war of 1973.
Even if PTST is resolved with standard psychotherapy, there are residual
cognitive problems. "You can't talk people out of these. Nothing works as
well
to clear them up as EEG neurofeedback," says Kuhn.
Feeding My Head
Beta training was where I started my journey
with neurofeedback. I was curious
about the technology, especially after I heard talk of the Clean Windshield
Effect. Bernadette Pedersen, an EEG technician from the local hospital,
came
and helped me hook up the first few times. Though the equipment - two computers,
a neuroamplifier, and some EEG electrodes - is relatively easy to use, one
does need training, and, for therapeutic uses, a trained doctor or psychologist
is necessary. For a half hour or so, I watched a game: white lines formed
in the middle of the highway and a beep sounded when I produced the right
brain waves. About an hour after that, it was as if someone had flipped
a switch. The world looked sharp and crystalline, its colors richer. My
thinking was sharper and I had a quiet kind of energy. It lasted a couple
of hours.
After five of six sessions, the God-just-painted-the-world
effect dissipated,
but I noticed other changes. I felt calmer and more centered. I felt more
secure
in social situations. Particularly important to me was that my mornings
were
much more productive. I always drink coffee and drag my tail until late
morning.
Lately I've been getting up, ready to go. By the fifteenth session, the
change was unmistakable. As of this writing, it has lasted about a month.
I was also interested in trying another kind
of training, known as the alpha-theta
protocol. The technique is very different from the work in beta. It takes
place
in the lower registers of the brain's frequencies. The first EEG-produced
study of the effectiveness of the alpha-theta protocol on substance abusers
was begun in 1982 by Eugene Peniston, a researcher at the Sam Rayburn Memorial
Veterans' Center in Bonham, Texas. He treated ten severe alcoholics with
traditional counseling only, and ten more with the added element of the
alpha-theta training on a neurofeedback instrument. Peniston hypothesized
that alcoholics drink because they cannot get into alpha states naturally,
and therefore cannot produce self-soothing neurotransmitters on their own.
Peniston claims an unheard-of 80% success rate with the group who used the
neurofeedback - compared to a ceiling of 20% to 30% for traditional therapies.
However, because of his small sample size, more studies are needed to buttress
his claims. There have been other impressive small studies since then, but
again, the cure rate seems improbably high. We won't know the actual impact
of this therapy until larger samples are studied. Alfonso Bermea, M.A.,
of the Life Sciences Institute in Shawnee, Kansas, who has also used this
technique says, "With conventional therapy a lot of people take a white-knuckle
approach. They say, ‘Dammit, I'm not going to drink.' With neurofeedback,
people no longer have the desire to drink. They're no longer fighting the
urge."
Alpha-theta training had a pleasant, if not
revolutionary, effect on me when
I tried it. I laid down on a mattress in my office, and Bernadette hooked
me
up. Eyes closed, I started to relax. On the EEG Spectrum machine I was using,
a stream began to babble as alpha was produced. Then, as I sank deeper,
a series of alpha bings sounded. As theta came into play, I heard a roaring
ocean and the deep, resonant bongs of a Tibetan bowl. These sounds held
me on the edge of sleep for nearly half an hour. It's an interesting place,
that twilight zone
between sleep and wakefulness. During that time, my mind produced a host
of intriguing, dreamlike images, but none of them, in my few sessions, was
revelatory.
Feeding the Future
Neurofeedback may be of help in the treatment
of a host of problems besides
epilepsy, ADD, closed head injuries, and addiction. Its applications are
being
explored, but all of them have yet to be subjected to controlled studies.
EEG
Spectrum has treated more than two thousand people clinically in the past
ten
years - some for such problems as Tourette's syndrome, PMS, depression,
teeth
grinding, migraines, insomnia, strokes, menopause, and chronic pain.
Los Angeles writer Margaret Sachs underwent neurofeedback training for
symptoms of menopause after she saw its dramatic effect on her daughter's
ADD. "I was waking up in the middle of the night totally drenched with
sweat," she syas. "And then I started waking up at three or four and I
couldn't go back to sleep, as if I was on speed." A congenital heart murmur
began acting up, causing a rapid and irregular heartbeat. Dramatic mood
swings erupted, and her period
became irregular. After twenty sessions, she claims, every single symptomsubsided.
"I felt grounded in a way I never had before," the 47-year-old says. "When
I got in a situation that normally threw me for a loop, I not only stayed
calm, but I thought of all the things I should have thought of, instead
of thinking of them later. I felt so in control of myself. It was a wonderful
feeling."
A few months later, her family moved, and the situation was stressful
for a while. The good feeling left her. It took a few refresher sessions
to bring it back.
Not surprisingly, there are critics of neurofeedback. Joel Lubar questions
claims
that neurofeedback can be used to treat problems such as PMS or migraine.
"That's speculative," he says. "There need to be studies done for those
applications." Many practitioners worry that too much sloppy optimism
will damage the reputation of EEG neurofeedback in the same way that unproved
claims did to biofeedback in the 1960's.
Much of the criticism has come in the arena of ADD. "There's a tremendous
placebo effect in a situation like this," says Russell Barkley, director
of psychology and professor of psychiatry and neurology at the University
of Massachusetts. He is the author of a book about the treatment of ADD,
entitled Defiant Children: Management of Difficult Children. He has not
studied the use of neurofeedback, but he has reviewed some of the studies,
and he points out that the use of "high technology in a medical environment
has a high placebo effect. And some children improve with maturation alone."
On the other hand, "we don't have any studies
that say it's bad for you. I don't think it will do harm. Basically, it's
‘buyer beware.'" Claims that neurofeedback can alter brain physiology,
says Dr. Barkley, are "totally unfounded and unethical."
Indeed, all we can definitively say about
neurofeedback at this point is that it provides access to our internal
processes and, in ways we do not fully understand, sometimes allows us
to regulate them.
The claims that some practitioners make about
neurofeedback do alarm certain
researchers, but Susan and Siegfried Othmer are unrepentant. Fifteen years
ago,
their son Brian was one of the first to be treated for severs epileptic
seizures
and behavioral disorders. They saw dramatic positive changes in his personality
as well as in his physiological problems, and, says Susan, "we knew right
away this was something we had to be involved with. We found out that it's
not considered scientific to be enthusiastic. We're sorry, but we're
parents. We need to get this out there."
The Othmers now have three hundred or so affiliates
who have built a common
body of knowledge, sharing information at conferences and over the Internet.
There are several other companies that manufacture the equipment, including
American Biotec in Ossining, New York.
The word about EEG has spread. Othmer estimates
the handful of practitioners
ten years ago has grown to fifteen hundred worldwide, perhaps for good reason.
Barry Sterman believes there is no doubt that physiological changes take
place,
and claims there are several careful studies to prove it. According to Joel
Lubar, neurofeedback "increases the blood flow into the brain. Blood flow,
metabolism, and high frequency electrical activity all work together." Increased
blood flow may help the brain reset itself in a normal range. And Don Wight,
Jake's pediatric neurologist, says the impact of neurofeedback is not a
placebo effect. "You would know," he says. "If the kids come off medicine,
and stay off it, and can function, you would know. It's real."If
neurofeedback works so well, why is it virtually unknown? One reason may
be that neurofeedback fits no prevailing medical model. Nearly all research
on the brain is in the language of neurotransmitters and psychotropic drugs,
and not in that of frequency or of mental exercise. Science likes its medicine
to fit within the governing conceptual framework.Othmer
blames "panacea paranoia." Something that works so well can't possibly be
real. There are also some real drawbacks: it's expensive, it's
time-consuming, and it must be conducted by trained personnel. But
beyond this, there is a problem with the therapeutic potential of neurofeedback
that is something of a philosophical riddle. If the brain can be trained
to deal with depression physiologically, does a patient short-circuit the
important processes of recognizing, comprehending, and coming to grips with
a deep psychological problem? And - to pose an entirely new question - does
that matter?
For many people who have tried it, any debate
about neurofeedback is moot. As Jake's mother puts it: "It's nothing short
of a miracle for us."
Jim Robbins is a writer in Helena, Montana,
whose work has appeared in the
New York Times and Smithsonian. He is currently at work on a new book
about
neurofeedback.
| Source: |
Newsweek |
| Author: |
Jim Robbins |
| Date: |
06/19/2000 |
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