(click)
- [Woman] On Monday, June 5th, 2017,
I felt the worst headache of my life.
Like an ice pick driving through my skull.
(intense music playing)
A CAT scan revealed a bleed in the side
of my head the size of a softball.
The only option to stop the bleed was
to have a craniotomy to remove it.
Being completely out of
control is terrifying.
(intense music playing)
- [Doctor] It's difficult
to talk to patients
about brain surgery
because it's very abstract.
We're combining delivering difficult news
about a scary diagnosis
with the additional fear
of not knowing what to expect,
and not being able to understand
what it is I'm explaining to them.
When we show them a model,
when they fly inside their own brain,
they can see the structures.
They can see the tumor,
they can see the aneurysm.
- [Woman] This device creates
an experience for the patient
where nothing is unknown anymore.
(intense music playing)
(cars driving)
- [Surgeon] While it's certainly daunting
to think about somebody tinkering
around inside your head,
there's a whole bunch of
anxiety that comes with that.
Patients are looking for some hope.
They're looking for a way to
understand what's happening.
What's made brain surgery,
historically, pretty challenging
is surgeons have to look
at two dimensional imaging
and in their mind's eye,
create a three dimensional map
of how they might approach the operation.
We thought, you know what.
We can intervene here and
we can take MRI and CT scans
and fuse them together in our software
to create a virtual reconstruction
and change the practice of
medicine for the benefit
of the family, the surgeon
and the institution.
It is that person's anatomy VRalized.
The Intel processor really
allows our content to come alive.
- [Man] We've worked
with Surigcal Theater,
taking our latest desktop
and notebook processor technologies
so that we can very quickly
render those 3D environments
in the exam room and allow that patient
to have a real-time, immersive experience
while their providers in the room.
- [Provider] Hi there.
Good morning.
Good to see you again.
What you're looking at now,
this is a three dimensional
model of your brain.
You see the tumor there in green?
- [Patient] Yes.
- [Provider] Now, you're
getting something to see
that most patients never get to see.
(intense music playing)
- [Woman] I was totally panic-stricken.
I'm not a doctor so I couldn't understand
what they were trying to tell me
because I had never physically
seen a craniotomy before.
It's so hard to wrap your head around
what they're about to do.
(intense music playing)
When I put on the goggles,
my surgeon asked me if I was ready to fly.
In the moments where they
were telling me really terrifying things,
I also felt a little bit of peace
from the way it was being presented.
I was able to, in real-time,
see inside my brain.
I was physically there with them,
looking at exactly what they
were trying to communicate.
- [Another Doctor]
Before Surigcal Theater,
preparing for surgery was literally me
sitting over a cup of coffee,
kinda thinking okay I'm gonna do this
and then I remember that
the optic nerve is here.
But those preparations were kinda ad-lib.
Now, with 360 degree 3D reconstructions,
we're able to be inside that environment
which is as close to brain
surgery as we can actually get
without being there in the operating room.
(intense music playing)
The advantage that the virtual planning
and rehearsal brings to
our readiness for surgery
is the ability to simulate
multiple different approaches.
In a real patient, we don't
get to try that more than once.
We only get one shot at it.
In the virtual model, we can do two plans,
three plans, five plans, and
see which one is the best
for the individual patient.
- [Provider] Can you make
the bone look a little more
like bone, so it's not
translucent at first?
Now that I can see the frontal sinus,
I'm planning it you know--
- [Man] Different.
- [Provider] Yeah. Yeah.
(intense music playing)
Let's bring in the microscope.
- [Doctor] When we're
in the operating room
and we get to the time of surgery,
because we've done the
preoperative rehearsal,
it kinda feels like deja vu.
Like okay, I've been here before.
I know where the important
structures are gonna be.
(operating room noises)
- [Provider] Here we are.
We're coming up to the back
of the tumor right here.
This would be a good
place to do an overlay.
Make the tumor more translucent.
(intense music playing)
- [Woman] I was at the
hospital in the ICU for 10 days
and I had two angiograms, two MRIs,
two CAT scans and a craniotomoy.
I had a risk of having epileptic seizures
for the first of my life.
Not knowing that I'd ever be
able to drive a car again,
that I would ever be able to run again.
But I would say the biggest
testament to how everything went
is the fact that I'm sitting here today.
It was nothing short of a miracle.
- [Doctor] I think this technology
is absolutely groundbreaking.
(intense music playing)
I wouldn't use the word revolutionary.
I would say it's evolutionary.
(intense music playing)
I think virtual reality will
change the face of healthcare.
I think it some ways it already has.
(intense music playing)
This is just an expertise
that Intel possess
that has helped us advance in ways
we never thought possible.
People are demanding transparency.
I think people deserve to be spoken to
in a way that they can understand.
(intense music playing)
- [Woman] It made me grateful
for each and every moment
that we have.
We experience life in three dimension.
Why should our medical
care be any different?
(intense music playing)
