Global News Podcast - The Happy Pod: My friends made me a new hand
Episode Date: March 7, 2026Lois, 14, and her classmates used a 3D printer to create her new hand as part of a school project. Now they want to make prosthetic limbs for other people who need them, using the same method. Also: W...e find out how a new drug is transforming the lives of children with a severe form of epilepsy. A trial found it significantly reduced their seizures and also helped with overall development and movement.We meet two Turkish students using AI to help locate people trapped under rubble after earthquakes. They hope their invention will help rescuers reach survivors more quickly.Plus the teams working to save seagrass meadows, which are vital in tackling climate change. And the Harajuku dog walking man - who's become famous for leading dozens of small dogs around Tokyo.Our weekly collection of inspiring, uplifting and happy news from around the world.Photo: Nature School Presenter: Holly Gibbs. Music composed by Iona Hampson
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Does Benjamin Netanyahu have everything to gain from the war with Iran
and Donald Trump a lot more to lose?
With elections in both the US and Israel this year,
how risky is the decision to go to war?
This is the Global Story podcast
and we've been speaking to the BBC's international editor, Jeremy Bowen,
about whether Netanyahu and Trump's visions for Iran align.
Listen to the global story on
BBC.com wherever you get your podcasts.
This is the Happy Pod from the BBC World Service.
I'm Holly Gibbs and in this edition...
It felt really special and, like, good to me, like, because showing my friends, like,
this is what it feels like to make one and feel like what it feels like to have a prosthetic hand.
The teenager whose classmates helped make her new prosthetic hand.
How a new drug is to do.
transforming the lives of children with a severe form of epilepsy.
He's able to enjoy life like any other child, which is, it's everything and more to me.
He has this vivacious lust for life.
The students using AI to help rescue people trapped after earthquakes.
We are very focused and we want to make it so that it can be used or deployed in actual, like,
rubble zones, because we want to have that impact.
Plus, the scientists saving a plant that's crucial in tackling climate change.
We start in New South Wales, Australia,
where a group of teenagers have been working together to make a new hand for one of their classmates.
14-year-old Lois Agnello was born without part of her left hand.
During a lesson about empathy and technology,
she asked her teacher whether the class could use their 3D printer
to make an improved version of her prosthetic.
The idea has now grown into a passion project, with the students wanting to make more for people who need them.
I spoke to Lois and her teacher Lloyd Godson and started by asking Lloyd about the project.
So it actually started out as just a normal technology lesson.
And we were looking at how designers have to put themselves in other people's shoes
to understand how the people feel when they're designing a product.
So we're talking about empathy.
And Lois said, I've got this really cool video.
I'd like to show the class.
She brought up the ABC video of her receiving her firsthand,
and she was six years old from Matt Boutel.
And the class watched this,
and there was probably about five or six members of the class
who were just completely taken by this video.
And it was quite an emotional thing to see, too,
see Lois as a young girl.
After the class finished, they said,
hey, we've got a 3D printer.
Can we not try making one ourselves?
and Lois formed a group of about 10 people that were about her age,
like 13, 14 years old.
And we reached out to Matt at 3D hands.
And yeah, it was amazing.
Lois, can you tell me why you wanted to make a hand with your classmates?
It just like came to me and I'm like, hey Lloyd, can we make a hand?
And he's like, yeah, sure, let's do it.
It felt really special and, like, good to me, like, because...
It's just showing my friends, like, this is what it feels like to make one and feel like what it feels like to have a prosthetic hand and all that.
I think for you, Lois, too, you were saying that you were quite surprised that your friends wanted to help you.
Like, you were saying how it felt really nice that...
They actually cared.
They actually cared enough to want to learn how to do this and make one for you.
And Lois, can you tell me what your favourite part of the process was?
My favorite part was probably actually getting the people to join, like, the project and stuff,
seeing people like asking me, can I join this?
It looks so fun, like, and I'm like, yeah, sure.
It was amazing watching all these young people being so intrinsically motivated to do something.
It wasn't something that I set as a lesson.
It wasn't something that they had to do for school.
It was something that just grew out of a lesson that we taught on empathy
and then the students just ran with this idea
and it kind of consumed us for the next six months.
Lois, how did you feel using your hand for the first time?
I shocked that we actually did it and proud.
I was like, I felt like I was in a dream.
I was like, this is crazy.
It's actually working.
I'm crazy.
It's like I was going psycho.
And Lloyd, what do you think that the students got out of this?
Oh, I think, you know, they got to understand that just these small steps can make such a huge impact.
So like their projects gone nationwide, it's gone global.
They've, you know, directly impacted one of their peers and saw the difference it can make in someone's life just by taking, you know, half hour out of your day twice a week.
They're able to have such a huge impact.
now coming back to school this year, one of the first things the kids did were come up to me
and said, can we run Design for Change again? Can we start our weekly meetings? And we've made a hand
and now the next step for us is to try printing and arms. The students are really keen to do more of
this, basically. I mean, and this is why Matt does what he does. He said that the first time he made a
hand for someone, he got a video back from the recipient. And he realized when he saw that video that
this is what he wanted to do now because the kid in the video that had received one of the
hands was just so happy and he put a smile on this kid's face and that made him feel really good.
And I think this is what the students are experiencing now.
Would I be right, Loew?
Yeah.
But yeah, the kids have just had that sensation, that feeling of we've done this thing.
We've made Lois feel really good.
That feels really good.
We want to do that again.
And so I think that's why they're keen to now make an arm and find more people that they can print
hands for and really get that sense of satisfaction of helping people in the world.
Lois, why is it important that we all embrace our differences?
Because if like everyone was the same, it'd be like a bunch of robots on us.
We'd want everyone to be different.
Everyone is good at what they do and I think they shouldn't change that.
Just be you.
Yeah, be you.
Yeah, that's good.
And my final question is to you, Lois.
Do you want to do something like this when you're old?
I would love to be an engineer, but also my dream ever since I've been a kid has been, I wanted to always be a pastry chef, like a French pastry chef.
I think also being an engineer would be good, but I'm trying to decide.
Lois Agnello and Lloyd Godson.
Next to a drug that's transforming the lives of children with a severe form of epilepsy.
He was having hundreds, up to thousands of.
of seizures in a day. From the moment we had, we started on the trial, seizure lens, we went
from minutes to seconds. So that enabled us to start living our lives. That's Lauren Truelove,
whose son Freddie was one of the first to receive the new treatment for Dravet syndrome,
which also causes developmental delays and problems with movement and communication. The small
trial in the US and the UK showed that patients had up to 90% fewer seizures and the drug. And the
drug was safe for children and adolescents.
Freddie, who's now eight, had been having seizures since he was six months old.
Lauren says the change has been incredible.
He's climbed mountains.
We can go out walking with the dogs, walk around the lakes, and he's even been skiing.
He's going to school.
He's reading.
He's able to enjoy life like any other child, which is, it's everything and more to me.
When Freddie was diagnosed, it was really difficult.
to know what that future looked like and we thought we had everything taken away from us and
I think now with the alertness and the development that he's gone through in the past four years
he's able to enjoy everything about life he loves being with his friends he loves being at school
he has this vivacious lust for life the trial has enabled him to find his own feet and his own
path and his own mind and that really is quite something.
The new drug is injected into the spine and travels to the brain to manage the underlying
cause of the condition, which in most cases is a faulty gene.
My colleague Tim Frank spoke to Professor Helen Cross, one of the lead researchers from
University College London.
Epilepsy is a symptom, so there are many, many different causes of epilepsy.
And Draves syndrome is a particular early onset epilepsy.
I say early on set in the first year of life.
And then they subsequently get very frequent seizures,
frequent admissions to hospital,
and get developmental slowing.
So in the longer term, they have a lot of other problems
which include learning difficulty,
walking difficulty, feeding difficulty,
and behaviour problems.
And these seizures that you're talking about,
I mean, they can be really quite severe, can't they?
They can.
They have different types of seizure,
but also then they can be very frequent.
and also they can be quite prolonged needing emergency treatment to stop them.
Tell me then about this drug. How does it work?
We know that Dravet syndrome has a genetic basis,
and more than 90% of those with Dravee syndrome have a particular abnormality.
What our traditional treatments have done have only treated seizures.
They have not looked at the underlying cause of the problem.
What the Rueva Nerson does is by injecting it into the liquid around the brain,
it increases the production of protein from the normal gene.
All the dravee have one abnormal copy and one normal copy.
It doesn't do anything to the abnormal copy of the gene.
It's increasing protein production from the normal copy.
And so with that, we're hoping to tackle all the problems,
not just the seizures, but the other neurodevelopmental and walking problems as well.
Can I ask about how you trial a drug such as things,
in children. Are there particular challenges for trialing a drug such as this?
It is always challenging to do clinical trials in children, but actually we have to think of it
that this is the safest way to evaluate drugs in the fact that the children are very
carefully monitored throughout the trial. I mean, it's challenging. We have to make sure that
the families are very aware of the risks and the possible benefits, but they are very carefully
monitored. This sample was, correct me if I'm wrong, it was relatively
relatively small. So where are you going to take this next to just, I guess, check on its efficacy and
also its safety? So this was a small trial, but it was also variable in whether children had
one dose or multiple doses and it was open. We knew that they'd all had the dose of drug.
The next, the double blind phase is that children are recruited and randomized to whether they
receive the drug or they have what we call a sham procedure so they don't have injection of the drug.
and then they are monitored.
And eventually those who don't get the medication
will get the medication.
So they will at some point get it.
So we need to recruit around 170 patients worldwide.
Right.
Before we came to you,
we heard a little clip from Lauren,
the mother of Freddie True Love,
eight years old,
whose life she says has just been transformed for the better.
I mean, I'm sure it's exciting the science that you're involved in,
but it just must be glorious to see the effect.
this is having? I mean, it is early days, but it is tremendous to see benefits. This is in a really
complicated, very difficult epilepsy syndrome where, you know, the diagnosis is really devastating
for the families because they don't see any progress in their children at all. So to see a real hope
that we could do something about that cause, do something not only about the seizures, but the
neurodevelopment is incredibly exciting. And that's just something I never thought I would be embarking on
when I started my career.
Professor Helen Cross.
Coming up on this podcast, we meet a Japanese man who's become famous for walking dogs.
This is the happiest day of my life.
I finally get to see the hairy-tricky dog walking men.
I just met a real-life Pokemon trainer.
22 dogs he's walking.
If you live in Tokyo, you already know this legend.
We'll hear more from that man about a dog later.
This is not the future we were promised.
Like, how about that for a tagline?
show. From the BBC, this is the interface, the show that explores how tech is rewiring your
week and your world. This isn't about quarterly earnings or about tech reviews. It's about what
technology is actually doing to your work and your politics, your everyday life. And all the
bizarre ways people are using the internet. Listen on BBC.com or wherever you get your podcasts.
When major earthquake strike, quickly finding those trapped under the rubble can save countless lives.
Two Turkish students have found a way to use AI to speed up the process by alerting rescuers to any signs of life.
Adil Ida and Ada Kanchal's invention is called Rescube,
and by winning a competition at their university in London, the pair have funding to develop it further.
I caught up with Adil and Ada and started by asking them how it works.
You place those sensors on a collapsed building, and then we have an AI model that we have trained
over the summer to understand the complex medium of a rubble site.
The signal is processed through that model, and then as a result, it tells you if there is
anyone trapped, if there are any survivors, and then the next step we want to work on is
to be able to locate these people.
A very, very simple version of it is like an app on your phone, and let's say your phone
has a microphone and basically the sensor that we use is a microphone but for signals or waves
traveling through like physical media which is like rocks or like concrete rather than just air
and what we do is basically pick up those and then using our app take out extracts
noises that are created by humans that are under the rubble to be able to say or there is someone
here or not why did you want to create this device we've always grown up with the fact that
there has been earthquakes and there will be earthquakes.
And after the 2023 earthquake, there has been a very big amount of losses in terms of
both lives and a lot of buildings have collapsed as well.
But also, one of the provinces that has been affected the most is actually where my dad is from,
where I visit every summer and where I have most of my family at.
Yeah, it's really hard to grasp, I think, like the notion of like growing up with earthquakes
when you're not coming from a country that doesn't have them like that much.
But I think like people who are coming from like earthquake prone zones will understand that you just grow up knowing that earthquakes can happen.
And you have that fear inside of you as if like it's like innate because like you grow up hearing these stories even since like you're a kid.
You hear about your grandpa.
You hear about your dad.
Everyone like almost every generation has experienced like a big earthquake at least in Turkey I can say.
So like you hear about these stories.
about the losses they had, so you grow up knowing and fearing them.
And what's been the reaction of your families who must be very proud that you have taken,
like you say, their experience and turned it into something really, really positive?
My family, my dad's side, who are from Hatai, has been really supportive and they're really
proud about what we're, even not about what we have achieved, but what we are trying to achieve.
They have been very supportive and very motivated about the cause as well, obviously.
So, well, that brings me on my next question, which is, what is next for Rescube?
We're right now, like, trying to expand our reach.
We're right now in the process of, like, making our hardware better.
And we're also looking to focus on our models and our software side over this summer.
And we're working on it, like, all the time, like, during school, after school, every weekend.
It's just like we're very focused and we want to make it so that it can be used or deployed
or at least like people can start using it in like pilot test and actual like rubble zones
because we want to have that impact.
The only reason we're doing this is to be able to help in the process.
So we just want to have that as soon as possible.
On a personal level, how does it feel to be working on something that is going to help people?
It's incredibly exciting.
Anytime we sit down to work or do something, it doesn't feel like work,
but rather a personal motivation that we're chasing.
It's very enjoyable and I'm willing to put in a lot of efforts
and do sacrifices if necessary to bring it into a level
where it can actually be deployed for earthquakes and hopefully save lives.
Adil Ida and Arda Kanchal.
Seagrass meadows are one of the world's most valuable underwater habitats.
As well as providing food and shelter to thousands of species,
the plants play a vital role in tackling climate change
by absorbing carbon dioxide.
But seagrass is also under threat from global warming,
with most species unable to tolerate water above 25 degrees Celsius.
Now, though, scientists have discovered
that some plants are evolving to survive at higher temperatures.
Ben Wyatt has been finding out more.
Given the recent snow,
storms, it's an icy path that leads to the Paul Sabane's coastal ecology centre in the
Asatee National Park of Maryland.
Hey, is Stephen?
Nice to meet to see.
How's going?
The team here are preparing to take me across the lagoon of the Sinepuxan Bay,
so we can get up close to the seagrass meadows they've been working so hard to restore.
While the boat thaws outside in the midday sun, I sit down with leader of the seagrass
project, Professor Stephen J. Tomasetti, of the University of Maryland.
eastern shore to learn more about its focus.
We're as a team working on eel grass.
It's the foundational seagrass species of the U.S. East Coast, essentially.
We can find it anywhere from North Carolina up through Canada.
But here in Maryland, we're near to the southern edge of its range.
They're not the flashy coral reefs, but they serve a lot of the same function.
This is Katie Tanner, a PhD student working on the project under Stephen's guidance.
These vegetated ecosystems provide the physical structure for a lot of biodiversity.
We have seahorses. I've seen sharks out in the eelgrass meadows.
It's a lot of shellfish, but also a lot of culturally important fish species.
All in all, it's a very useful plant to have around, only it's fast disappearing.
Stevens' team turned to genetic science for help.
My name is Stephanie Kamel, and I'm a professor in the Department of Biology and Marine Biology
at University of North Carolina, Wilmington,
and I'm the genomics lead on this project.
So in some meadows, challenged by higher temperatures,
a small number of plants have been mutating or changing genomically.
When we're talking about genomic change,
at the very basic level, we're asking,
have there been changes to that DNA sequence?
Does that change enable me to be taller, live longer,
be more heat resistance?
So when I go out and sample seagrasses,
I sequenced the genome.
and I will find change has occurred in a gene that regulates heat shock.
By comparing the DNA of the variants with that of normal eelgrass,
Stephanie is able to isolate the exact genes associated with heat resistance.
The team using Stephanie's data can now focus their attention
on harvesting just the seeds that contain heat-resistant genes
before replanting them in dying meadows.
It was this technique that Katie used to seed her new eelgrass meadows last year.
year. Around March, when all the pollination has occurred and seeds are developing, we then go out and we
pluck these reproductive shoots. They kind of look like green beans and then hold on to them until
they're ready to germinate to grow. Then it's just a matter of moving them to where they need to be.
So our hand in the genetics is very low tech. It's really just moving seeds around at the right time.
And to find out how those meadows were coming along, it was time to put on some waders.
Oh, yeah.
It's coming up to my hips.
And this water is at zero degrees Celsius.
So just praying there are no leaks in the waders.
The eel grass, what kind of depth does that normally grow in?
Anywhere from like a couple inches to six feet maybe?
The water today is too murky to see the sprouting grass.
But Katie hopes the meadow will not only have regrown,
but will then also flourish in the hot temperatures of the summer.
If it does the team of that bit closer to securing the future of eel grass meadows in Maryland.
The effort here is costing $300,000 over five years,
but for Stephanie, it's taxpayer money well spent.
We need to take a much more active role in managing our ecosystems.
We're really not sitting back.
We're like, okay, we're going to try these things.
Because of the absence of that is we're just going to, what,
just let sea grass loss continue.
I mean, we can't let that happen.
Professor Stephanie Camel, ending that report from Ben Wyatt.
And for more on this story, just search for people fixing the world
wherever you get your BBC podcasts.
We end in Tokyo with a man who is not your average dog walker.
If you've been to the city's famous Harajuku district,
there's a good chance you might have seen
and taken a photo of a man who spent years walking up to 30.
32 small dogs around the area every day.
Will Leonardo went along to find out more about this social media sensation.
This is the happiest day of my life.
I finally get to see the hairy tricky dog walking man.
I just met a real-life Pokemon trainer.
22 dogs he's walking.
If you live in Tokyo, you already know this legend.
For anyone coming to Tokyo, one of the first things you might notice
is the fact that there's so many little dogs everywhere
and they're all so well turned out.
many of them wearing little coats, especially because it's the middle of winter here now.
And they all look like they get groomed more than the human owners.
One of the people that's most famous for walking their dogs around the city centre of Tokyo is Nobuaki Moribet.
He is known as the Harajuku Dog Walker.
He's often seen interacting with tourists and local people.
Well, he runs a groomer salon on a quiet street in central West Tokyo,
and I've come down to have a quick chat with him.
You've picked a very famous area to walk around,
which is full of a lot of tourists, people go there to shop.
I'm just wondering if that was maybe a deliberate choice
or something that just kind of happened naturally.
When I started walking these dogs,
I was suddenly inspired to take this route,
and that's it really.
And then, before I realized, there were lots of tourists,
people from all over the world,
taking photos of my dogs getting on well,
which really made me joyful.
But originally the walks were during COVID in 2020,
when there was absolutely no one around.
I think from a foreign perspective,
dogs in Tokyo tend to be very small.
They're very well-groomed.
Why do you think that is?
Compared to the rest of the world,
Tokyo is known for its small dogs.
I think that's because people's homes are smaller.
Most dog owners live in apartments.
And globally, there aren't that many people like me
who walk large numbers of small dogs.
That's why I think I've stood out.
The most popular breed here is the poodle, and most of them get a cut once a month,
which is why I think Tokyo dogs look especially stylish.
Nobuaki's told me to meet him in a corner of Yoogi Park,
which if you've been to Tokyo, you might know,
is next to the Big Meiji Shrine,
and just up against Harajuku, where he's going to continue his four-hour walk.
He's told me to meet him a bit into his walk,
partly because he says he doesn't want me around while the dogs do their business.
Moribeza.
He's not yet.
How many dogs do you have today?
22.
Boston Terrier, fission freeze.
He's now completely encircled by people taking birtho.
Hallelujah.
You're going to get the lights turn green.
Well, every other person is turning around to take a photo
of Norbuaki as he glides past in the center of his sea of dogs.
Let's talk to some of them and see what they made of the spectacle.
They're very well behaved.
They are very well behaved, don't they?
They don't seem to bark at all.
I don't quite know how much done that?
I just, what happens when they go to the toilet, do you know?
I hear that he gets that done in the first hour of the walk.
I've seen before, so I used to come to Tokyo, but I walk this street, 100% I see him.
I actually find it quite inspirational.
Back home, we don't have anything like that.
They all seem happy.
They're not fighting each other.
We've been in China and then.
come to Japan, but everyone's got dogs.
In other countries, those who walk lots of dogs
tend to focus on larger breeds,
and big dogs are easier to handle.
They move around in a more precise way.
What's the kind of interactions you've had
that's stuck in your memory the most?
Every day is interesting, and every day there's different people.
The fact they all enjoy themselves so much
makes me feel great.
And some even remember me.
They say, oh, I saw you a year ago before showing me a photo.
I'm very happy that I've stuck in people's memory.
I really hope I'm making everyone feel peace and love.
Nobuaki Morabe, ending that report from Will Leonardo.
And that's all from the Happy Pod for now.
We'd love to hear from you.
As ever, the address is global podcast at BBC.co.uk.
This edition was produced by Rachel Bulkeley.
The editor is Karen Martin.
I'm Holly Gibbs.
Until next time, goodbye.
This is not the future we were promised.
Like, how about that for a tagline for the show?
From the BBC, this is the interface,
the show that explores how tech is rewiring your week and your world.
This isn't about quarterly earnings or about tech reviews.
It's about what technology is actually doing to your work and your politics, your everyday life.
And all the bizarre ways people are using the internet.
Listen on BBC.com or wherever you get your podcasts.