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  • LAURA LING: Matt Tilford was just 18-years-old

  • and two weeks away from graduation

  • when, on a camping trip with friends,

  • his truck sped off a cliff, falling 600 feet.

  • MATT TILFORD: The truck started to tumble,

  • and I wasn't wearing my seatbelt.

  • I was ejected as we were going down the hill.

  • LAURA LING: Do you remember going off

  • that cliff and landing?

  • MATT TILFORD: I was going in and out of consciousness,

  • and I didn't realize until I looked down.

  • And that's when I realized, it's like, oh man, I am paralyzed.

  • This is serious.

  • [SOMBER MUSIC]

  • LAURA LING: As someone who thrived in the outdoors

  • playing sports, Matt was suddenly confronted

  • with an entirely new reality.

  • MATT TILFORD: I was definitely freaking out.

  • I was thinking of my future, what I was going to do.

  • LAURA LING: He had to relearn the most basic tasks,

  • like how to get dressed, wash, move around.

  • MATT TILFORD: After my accident, I came home

  • and I was depressed.

  • I didn't want to leave home.

  • Watching my friends go off to college and start their life,

  • I felt left behind.

  • LAURA LING: Four years later, Matt

  • got a life-changing opportunity to test out

  • a new exoskeleton rehabilitation device being

  • designed by Ekso Bionics.

  • What was that like, to put on that exoskeleton suit?

  • How did that feel?

  • MATT TILFORD: It felt absolutely amazing to be

  • bearing my own weight, my legs holding myself up

  • within that device.

  • It was surreal.

  • LAURA LING: The suits help people with spinal cord

  • injuries, or those who have suffered a stroke,

  • stand and take steps, something many

  • are told they'll never be able to do again.

  • How does the technology work, and how does it

  • work with the body?

  • RUSS ANGOLD: Think of it as a wearable robot,

  • and it has four actuators that replace the user's muscles.

  • And then the user interacts with it

  • by actually shifting their weight,

  • just like you would go to take a step.

  • LAURA LING: The exoskeletons are accessible around the country

  • at hospitals for rehabilitative uses,

  • in hopes that one day the patient will no longer need

  • the suit to walk.

  • RUSS ANGOLD: By having that sort of interaction where they're

  • in control of the device, that keeps the signals coming down

  • from the brain, trying to walk.

  • At the same time, they're getting that therapy,

  • and their legs are going through a very natural gait.

  • So that signal's getting sent back up,

  • and that's really what you want is that collision of signals

  • to help with the neuroplasticity and to help

  • them regain that ability to walk without the device.

  • LAURA LING: Given the scope of Matt's injuries,

  • it's unlikely he'll ever walk without an exoskeleton,

  • but that doesn't mean the suit doesn't

  • have other major benefits.

  • MICHAEL GLOVER: It gives them that sense of independence back

  • a little bit.

  • There are other benefits just of being upright.

  • You might have improvements of your bowel and your bladder

  • function.

  • Some people have some pain stemming from their nerves

  • because they're just in that improper position.

  • That sometimes goes away with some folks.

  • LAURA LING: So this is the history of some of the things

  • that you've built over the years.

  • RUSS ANGOLD: Exactly right.

  • They go all the way back to 2006.

  • This was our [INAUDIBLE] exoskeleton.

  • This is a medical exoskeleton that has six actuators, so

  • powered ankles.

  • Some devices for powering your knees

  • for military applications.

  • And the last one's our industrial chassis prototype

  • for construction industrial workers.

  • LAURA LING: The history of the exoskeleton goes way back.

  • In 1890, Russian inventor Nicholas Yagn

  • patented the first exoskeleton powered by compressed gas bags

  • to assist with blocking, jumping, and running.

  • Whether it was ever built is unknown.

  • In the 1960s, General Electric and the US military

  • created the Hardiman suit using electricity and hydraulics,

  • but the device was so dangerous and uncontrollable it was never

  • powered on with a person inside.

  • Even more recent models in the early 2000s

  • were considered too heavy.

  • But around 2005, battery technology

  • became a game changer.

  • RUSS ANGOLD: We figured out how to do it efficiently.

  • We had the lightweight materials and structures,

  • and then we had the computing processing power,

  • which is a key one to actually bring it all together

  • and make it work.

  • LAURA LING: Other companies, such as suitX and ReWalk

  • Bionics, are designing suits for patients

  • to use in their everyday lives at a price

  • tag of around $70,000 per suit.

  • Ekso is also working on technology

  • that could potentially impact the over 17 million people

  • in the construction industry, who perform rigorous work

  • with heavy machinery.

  • RUSS ANGOLD: We now have a product out there that really

  • makes their tools weightless.

  • And that doesn't seem like much until you

  • try to operate a 35-pound tool all day long,

  • and it's just exhausting.

  • LAURA LING: It's true, though.

  • I mean I can't imagine doing that up and down

  • up and down all day long.

  • RUSS ANGOLD: Right, so now grab it.

  • There you go.

  • LAURA LING: Oh wow.

  • It is weightless.

  • That's amazing.

  • What do you think the potential is in this technology?

  • MICHAEL GLOVER: I'm not sure that I can see an end point.

  • I believe that there could be those pants one day,

  • that is your exopants that are so low profile that it

  • can support somebody.

  • LAURA LING: For now, Matt continues

  • to test Ekso Bionics technology and rediscover the ability

  • to do things he once thought would be impossible.

  • MATT TILFORD: I wanted to prove people that I was still

  • going to be OK.

  • I still going to be successful.

  • I learned how to still be active with sports.

  • I waveboarded and snowboarded, and once I did,

  • it was absolutely amazing.

  • LAURA LING: What does it feel like when

  • you're in the suit today?

  • MATT TILFORD: I think every time I go from sit to stand,

  • a smile comes on my face.

  • Just knowing that I'm at eye level with everyone else.

  • It's going to give people the opportunity

  • to do things that they weren't able to do before.

  • And it's cool to be at the forefront of it.

  • LAURA LING: On another episode of Seeker--

  • TRACE DOMINGUEZ: It's taken hundreds of years

  • to understand how Earth's magnetic field works.

  • But now that we do, scientists are

  • trying to find hints from Earth's history that

  • might reveal the future of this ever-changing invisible field

  • all around us.

  • LAURA LING: Thanks for watching, and be

  • sure to subscribe to Seeker.

  • [MUSIC PLAYING]

LAURA LING: Matt Tilford was just 18-years-old

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B1 中級 美國腔

仿生服是真的,它們正在改變日常生活 (Bionic Suits Are Real And They're Transforming Everyday Life)

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    Kana kawai 發佈於 2021 年 01 月 14 日
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