In this talk, I'm going to give you
the single most important lesson
my colleagues and I have learned
from looking at 83,000 brain scans.
But first, let me put
the lesson into context.
I am in the middle of seven children.
Growing up, my father called me a maverick
which to him was not a good thing.
(Laughter)
In 1972, the army called my number,
and I was trained as an infantry medic
where my love of medicine was born.
But since I truly hated the idea
of being shot at or sleeping in the mud,
I got myself retrained
as an X-ray technician
and developed a passion
for medical imaging.
As our professors used to say:
"How do you know, unless you look?"
In 1979, when I was
a second-year medical student,
someone in my family
became seriously suicidal,
and I took her to see
a wonderful psychiatrist.
Over time, I realized
if he helped her, which he did,
it would not only save her life,
but it would also help her children
and even her future grandchildren,
as they would be shaped by someone
who is happier and more stable.
I fell in love with psychiatry
because I realized it had the potential
to change generations of people.
In 1991, I went to my first lecture
on brain SPECT imaging.
SPECT is a nuclear medicine study
that looks at the blood flow and activity,
it looks at how your brain works.
SPECT was presented
as a tool to help psychiatrists
get more information
to help their patients.
In that one lecture,
my two professional loves,
medical imaging and psychiatry,
came together, and quite honestly,
revolutionized my life.
Over the next 22 years,
my colleagues and I would build
the world's largest database
of brain scans related to behavior
on patients from 93 countries.
SPECT basically tells us
three things about the brain:
good activity, too little, or too much.
Here's a set of healthy SPECT scans.
The image on the left shows
the outside surface of the brain,
and a healthy scan shows full,
even, symmetrical activity.
The color is not important,
it's the shape that matters.
In the image on the right,
red equals the areas of high activity,
and in a healthy brain, they're typically
in the back part of the brain.
Here's a healthy scan compared
to someone who had two strokes.
You can see the holes of activity.
Here's what Alzheimer's looks like,
where the back half
of the brain is deteriorating.
Did you know that Alzheimer's disease
actually starts in the brain
30 to 50 years before
you have any symptoms?
Here's a scan
of a traumatic brain injury.
Your brain is soft,
and your skull is really hard.
Or drug abuse.
The real reason not to use drugs -
they damage your brain.
Obsessive–compulsive disorder
where the front part of the brain
typically works too hard,
so that people cannot
turn off their thoughts.
An epilepsy where we frequently
see areas of increased activity.
In 1992, I went to an all-day conference
on brain SPECT imaging,
it was amazing and mirrored
our own early experience
using SPECT in psychiatry.
But at that same meeting,
researchers started to complain loudly
that clinical psychiatrists like me
should not be doing scans,
that they were only for their research.
Being the maverick
and having clinical experience,
I thought that was a really dumb idea.
(Laughter)
Without imaging,
psychiatrists then and even now
make diagnosis like they did in 1840,
when Abraham Lincoln was depressed,
by talking to people and looking
for symptom clusters.
Imaging was showing us
there was a better way.
Did you know that psychiatrists
are the only medical specialists
that virtually never look
at the organ they treat?
Think about it!
Cardiologists look, neurologists look,
orthopedic doctors look,
virtually every other
medical specialties look -
psychiatrists guess.
Before imaging,
I always felt like I was throwing
darts in the dark at my patients
and had hurt some of them
which horrified me.
There is a reason
that most psychiatric medications
have black box warnings.
Give them to the wrong person,
and you can precipitate a disaster.
Early on, our imaging work
taught us many important lessons,
such as illnesses, like ADHD,
anxiety, depression, and addictions,
are not simple or single
disorders in the brain,
they all have multiple types.
For example, here are two patients
who have been diagnosed
with major depression,
that had virtually the same symptoms,
yet radically different brains.
One had really low activity in the brain,
the other one had really high activity.
How would you ever know what to do
for them, unless you actually looked?
Treatment needs to be tailored
to individual brains,
not clusters of symptoms.
Our imaging work also taught us
that mild traumatic brain injury
was a major cause of psychiatric illness
that ruin people's lives,
and virtually no one knew about it
because they would see psychiatrists
for things like temper problems,
anxiety, depression, and insomnia,
and they would never look,
so they would never know.
Here's a scan of a 15-year-old boy
who felt down a flight of stairs
at the age of three.
Even though he was unconscious
for only a few minutes,
there was nothing mild
about the enduring effect
that injury had on this boy's life.
When I met him at the age of 15,
he had just been kicked out
of his third residential
treatment program for violence.
He needed a brain rehabilitation program,
not just more medication
thrown at him in the dark,
or behavioral therapy which,
if you think about it, is really cruel.
To put him on a behavioral therapy program
when behavior is really an expression
of the problem, it's not the problem.
Researchers have found
that undiagnosed brain injuries
are a major cause of homelessness,
drug and alcohol abuse, depression,
panic attacks, ADHD, and suicide.
We are in for a pending disaster
with the hundreds
and thousands of soldiers
coming back from Iraq and Afganistan,
and virtually no one is looking
at the function of their brain.
As we continued our work with SPECT,
the criticism grew louder,
but so did the lessons.
Judges and defense attorneys sought
our help to understand criminal behavior.
Today, we have scanned
over 500 convicted felons
including 90 murderers.
Our work taught us
that people who do bad things
often have troubled brains.
That was not a surprise.
But what did surprise us
was that many of these brains
could be rehabilitated.
So here's a radical idea.
What if we evaluated
and treated troubled brains
rather than simply warehousing them
in toxic, stressful environments?
In my experience, we could save
tremendous amounts of money
by making these people more functional,
so when they left prison, they could work,
support their families and pay taxes.
Dostoyevsky once said:
"A society should be judged
not by how well it treats
its outstanding citizens,
but by how it treats its criminals."
Instead of just crime and punishment,
we should be thinking
about crime evaluation and treatment.
(Applause)
So after 22 years and 83,000 scans,
the single most important lesson
my colleagues and I have learned
is that you can literally
change people's brains.
And when you do, you change their life.
You are not stuck with the brain you have,
you can make it better,
and we can prove it.
My colleagues and I performed
the first and largest study
on active and retired NFL players,
showing high levels of damage
in these players at the time
when the NFL said they didn't know
if playing football caused
long-term brain damage.
The fact was they didn't want to know.
That was not a surprise.
I think, if you get the most thoughtful
9-year-olds together,
and you talk about the brain is soft,
about the consistency of soft butter,
it's housed in a really hard skull
that has many sharp, bony ridges,
you know, 28 out of 30
nine-year-olds would go:
"Probably a bad idea for your life."
(Laughter)
But what really got us excited
was the second part of the study
where we put players
on a brain-smart program
and demonstrated
that 80% of them could improve
in the areas of blood flow,
memory, and mood,
that you are not stuck
with the brain you have,
you can make it better
on a brain-smart program.
How exciting is that?
I am so excited.
Reversing brain damage
is a very exciting new frontier,
but the implications
are really much wider.
Here is this scan
of a teenage girl who has ADHD,
who was cutting herself, failing
in school, and fighting with her parents.
When we improved her brain,
she went from D's and F's to A's and B's,
and was much more emotionally stable.
Here is the scan of Nancy.
Nancy had been diagnosed with dementia,
and her doctor told her husband
that he should find a home for her
because within a year,
she would not know his name.
But on an intensive,
brain-rehabilitation program,
Nancy's brain was better,
as was her memory,
and four years later,
Nancy still knows her husband's name.
Or my favorite story
to illustrate this point: Andrew,
a 9-year-old boy who attacked
a little girl on the baseball field
for no particular reason,
and at the time,
was drawing pictures of himself
hanging from a tree
and shooting other children.
Andrew was Columbine, Aurora,
and Sandy Hook waiting to happen.
Most psychiatrists
would have medicated Andrew,
as they did Eric Harris
and the other mass shooters
before they committed their awful crimes,
but SPECT imaging taught me
that I had to look at his brain
and not throw darts in the dark at him
to understand what he needed.
His SPECT scan showed
a cyst, the size of a golf ball,
occupying the space
of his left temple lobe.
No amount of medication or therapy
would have helped Andrew.
When the cyst was removed,
his behavior completely
went back to normal,
and he became the sweet, loving boy
he always wanted to be.
Now 18 years later,
Andrew, who is my nephew,
owns his own home,
is employed and pays taxes.
(Laughter)
Because someone bothered
to look at his brain,
he has been a better son,
and will be a better husband,
father, and grandfather.
When you have the privilege
of changing someone's brain,
you not only change his or her life
but you have the opportunity
to change generations to come.
I'm Dr. Daniel Amen. Thank you.
(Applause)