By Heidi de Marco
August 16, 2019
When
Sam Mazaheri was 9, he was diagnosed with Type 1 diabetes. That means Sam’s
body makes little or no insulin, a hormone that turns food into energy.
“All of
a sudden I had to manage everything he was going to take, including the
insulin,” said Sam’s mom, Nasim Mazaheri.
It was
frightening, she said, and it felt like bringing home a newborn all over again.
“If I
give him too much, it can actually kill him, or if I don’t give him enough, it
will eventually kill him.”
Nasim
and Ali Mazaheri, Sam’s dad, didn’t sleep much, scared of the worst-case
scenario.
Type 1
diabetes is a lifelong condition that can be managed with medication. But
without insulin, the body can no longer move glucose from the blood into the
cells and, eventually, will stop working. More than 1 million people in the
U.S. have been diagnosed with Type 1 diabetes, according to a 2017 report from
the Centers for Disease Control and Prevention.
The
Mazaheris, who live in Irvine, Calif., say adjusting to their new normal was
tough for the whole family.
Sam,
now 14, began wearing an insulin pump attached to his stomach. The pump is a
computerized device that is programmed to deliver small doses of the hormone.
He also had a separate glucose monitor on the back of his arm that beeped when
his insulin levels needed attention.
Sam had
to learn to count carbs and pay close attention to his food intake so he could
calculate how much insulin he needed at mealtimes — a lot for a 9-year-old to
manage.
Plus,
Sam was tethered to his parents. The first few months, they needed to stay
close to track his glucose levels and make the appropriate corrections.
“I was
checking on him constantly throughout the night,” Nasim said.
Sam was
a sound sleeper and wouldn’t hear the beeping of the low-insulin alerts in the
middle of the night. Worried, Nasim eventually moved into Sam’s room and slept
in the bed with him.
Frustrated
and fed up, Sam’s dad ― who works at Microsoft ― decided he could use his tech
skills to make his son’s life more manageable.
Ali
discovered an online community of people also looking for ways to live better
with diabetes. After scouring Twitter and networking with others in the tech
industry, he stumbled onto something called “looping.”
Using
instructions freely available online, do-it-yourselfers ― who belong to what’s
known as the “open-source community” ― close the loop between an insulin pump
and a continuous glucose monitor. It creates a new system that connects the two
separate devices, allowing them to talk to each other with the help of a
transmitter, and deliver insulin to the body automatically. They call that
“looping.”
The
system sends commands based on frequent glucose readings, adjusting Sam’s
insulin throughout the day.
Looping
works only on older-model insulin pumps because the wireless technology is
different on newer pumps. So Ali scoured the internet and found a few on
Craigslist for about $600 each.
“There
was a black market,” he said.
Ali and
Nasim are able to monitor Sam’s glucose levels using their smartphones and
smartwatches, no matter where he is.
That
first time he tried it out on Sam, Ali said, there was one more sleepless
night.
The
closed-loop concept began with people who were frustrated that there aren’t
more ready-made, commercial options. And some people have rallied around the
hashtag #WeAreNotWaiting to express their impatience for better health-data
innovations to manage their diabetes.
Looping
advocate Dana Lewis, who lives
near Seattle, says she knows of about 1,500people
experimenting with looping to control their diabetes.
In
2015, Lewis was one of the first to provide open-source code to others online.
Now people go to her website, OpenAPS, for
step-by-step instructions.
The
Mazaheris have been looping for four years and Ali says they haven’t had any
issues.
But in
May, the Food and Drug Administration issued a warning.
“Use of
unauthorized devices could result in inaccurate glucose level readings or
unsafe insulin dosing, which can lead to injury requiring medical intervention
or death,” it said.
An FDA
spokesperson said the warning was issued after the agency received a report
that a patient using an unauthorized device experienced an accidental insulin
overdose that required medical attention.
Endocrinologist
Dr. Irl Hirsch said several of his patients use looping systems to manage their
diabetes.
“To
date, the patients I’ve cared for who are looping have done amazingly well,”
said Hirsch, who is with the Diabetes Institute at UW Medicine in Seattle.
But
Hirsch has his own warning.
“I tell
my patients who do this, it has to be at their own risk. There isn’t a pump
manufacturer that will take care of them if something goes wrong, and I can’t
be held responsible if there is a problem,” he said.
The FDA
also wants people to be aware that certain recalled devices are
susceptible to cybersecurity risks. The FDA said there are no documented cases,
but it’s possible that someone other than a patient could change a pump’s
settings wirelessly.
Those
warnings haven’t deterred Ali Mazaheri, who said looping allows Sam to be
independent and just be a kid.
There
is an FDA-approved medical device that
closes the loop between an insulin pump and blood sugar monitor, and similar
devices in the pipeline. But open-source users say they’ll continue to program
their own devices because that gives them more flexibility to personalize their
diabetes management.
Sam
starts high school in September. He’s an amazing tennis player and an avid
collector of Star Wars memorabilia. He also wears a SPI belt around his waist, a
fanny pack that holds his insulin pump, his phone and a credit-card-sized
device that transmits commands to the pump.
“Now
the pump won’t go off in the middle of the night as much as it did,” Sam said.
These
days, his blood sugar is almost always in a healthy range.
Heidi
de Marco: heidid@kff.org,
@Heidi_deMarco
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