-
What if you could take a pill or a vaccine
-
and, just like getting over a cold,
-
you could heal your wounds faster.
-
Today, if we have
an operation or an accident,
-
we're in the hospital for weeks,
-
and often left with scars
and painful side effects
-
of our inability to regenerate
or regrow healthy, uninjured organs.
-
I work to create materials
-
that instruct our immune system to give us
the signals to grow new tissues.
-
Just like vaccines instruct
our body to fight disease,
-
we could instead instruct
our immune system
-
to build tissues
and more quickly heal wounds.
-
Now, regrowing body parts out of nowhere
might seem like magic,
-
but there are several organisms
that can achieve this feat.
-
Some lizards can regrow their tails,
-
the humble salamander
can completely regenerate their arm,
-
and even us mere humans
can regrow our liver
-
after losing more than half
of its original mass.
-
To make this magic
a bit closer to reality,
-
I'm investigating how our body
can heal wounds and build tissue
-
through instructions
from the immune system.
-
From a scrape on your knee
to that annoying sinus infection,
-
our immune system defends
our body from danger.
-
I'm an immunologist,
-
and by using what I know
about our body's defense system,
-
I was able to identify key players
-
in our fight to build back
our cuts and bruises.
-
When looking at materials
that are currently being tested
-
for their abilities to help regrow muscle,
-
our team noticed that after treating
an injured muscle with these materials,
-
there was a large number of immune cells
-
in that material
and the surrounding muscle.
-
So in this case,
-
instead of the immune cells rushing off
towards infection to fight bacteria,
-
they're rushing toward an injury.
-
I discovered a specific
type of immune cell,
-
the helper T cell,
-
was present inside
that material that I implanted
-
and absolutely critical for wound healing.
-
Now, just like when you were a kid
and you'd break your pencil
-
and try and tape it back together again,
-
we can heal,
-
but it might not be
in the most functional way,
-
and we'll get a scar.
-
So if we don't have these helper T cells,
-
instead of healthy muscle,
-
our muscle develops
fat cells inside of it,
-
and if there's fat in our muscle,
it isn't as strong.
-
Now, using our immune system,
-
our body could grow back
without these scars
-
and look like what it was
before we were even injured.
-
I'm working to create materials
-
that give us the signals
to build new tissue
-
by changing the immune response.
-
We know that any time
a material is implanted in our body,
-
the immune system will respond to it.
-
This ranges from pacemakers
to insulin pumps
-
to the materials that engineers are using
to try and build new tissue.
-
So when I place that material,
or scaffold, in the body,
-
the immune system creates
a small environment of cells and proteins
-
that can change the way
that our stem cells behave.
-
Now, just like the weather
affects our daily activities,
-
like going for a run
-
or staying inside and binge-watching
an entire TV show on Netflix,
-
the immune environment of a scaffold
-
affects the way that
our stem cells grow and develop.
-
If we have the wrong signals,
-
say the Netflix signals,
-
we get fat cells instead of muscle.
-
These scaffolds are made
of a variety of different things,
-
from plastics to naturally
derived materials,
-
nanofibers of varying thicknesses,
-
sponges that are more or less porous,
-
gels of different stiffnesses.
-
And researchers
can even make the materials
-
release different signals over time.
-
So in other words, we can orchestrate
this Broadway show of cells
-
by giving them the correct
stage, cues and props
-
that can be changed for different tissues,
-
just like a producer would change the set
-
for "Les Mis" versus
"Little Shop of Horrors."
-
I'm combining specific types of signals
-
that mimic how our body responds to injury
to help us regenerate.
-
In the future, we could see
a scar-proof band-aid,
-
a moldable muscle filler
or even a wound-healing vaccine.
-
Now, we aren't going to wake up tomorrow
and be able to heal like Wolverine.
-
Probably not next Tuesday, either.
-
But with these advances,
-
and working with our immune system
to help build tissue and heal wounds,
-
we could begin seeing
products on the market
-
that work with our body's defense system
to help us regenerate,
-
and maybe one day be able
to keep pace with a salamander.
-
Thank you.
-
(Applause)
closed TED
