Hello, All.

I was catching up on my daily news today before seeing a client and I came
across this story; I think you'll find it interesting.

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From:
http://www.nytimes.com/2010/02/05/business/05diabetes.html

February 5, 2010
Insulin Study Could Lead to New Dosage Devices
By NATASHA SINGER

The results of a new study on managing juvenile diabetes may give hope to
millions of parents in this country and abroad who typically wake up
several times a night to make sure their children’s blood sugar levels
have not dropped into the danger zone.

And the research, published Friday in The Lancet, a British medical
journal, could help spur medical device companies to more quickly develop
technology based on the study’s underlying concept.

The study reported that a novel computer algorithm that analyzed
children’s glucose levels and recommended frequent adjustments in their
insulin doses was better at preventing very low glucose overnight than a
standard diabetes management system.

That standard system involved a continuous glucose monitor that operated
separately from a preprogrammed insulin pump — an approach now used by
many of the estimated three million people nationwide who have Type 1
diabetes. Type 1 diabetes, also known as juvenile diabetes, is a disease
that often develops early in life and is separate from Type 2 diabetes,
which often stems from obesity.

Very low glucose, called hypoglycemia, is a condition that poses risks for
people with either form of diabetes, potentially causing shakiness,
dizziness, seizures, coma or even death. But it is a particular concern
among children on insulin because their blood sugar levels tend to
fluctuate more widely, researchers said.

No children in the study who were treated with the computer-assisted system
experienced very low blood sugar overnight. But there were nine instances
of very low blood sugar among children who had the standard treatment,
according to the study, conducted by researchers in Britain at the
University of Cambridge.

“This is an important step in diabetes control because it shows that,
with this system, people can sleep safely with minimized risk of
hypoglycemia,” said Dr. Eric Renard, a professor of diabetology at
Montpellier University Hospital in Montpellier, France.

Dr. Renard, whose commentary accompanied the study in The Lancet, has been
a consultant and speaker for several makers of diabetic products, he said.

Industry analysts have estimated that 10 to 15 percent of Americans with
Type 1 diabetes — perhaps 400,000 of them — use either a continuous
glucose monitor or an insulin pump, or in some cases both.

Over the last decade, the makers of medical devices have developed
techniques that have widened diabetes management options beyond pricking
the finger several times a day to test blood glucose levels. Companies like
DexCom in San Diego now make small continuous glucose monitors whose
sensors can be embedded in the skin. And Animas, a division of Johnson
& Johnson, makes programmable pumps the size of a cellphone that
administer insulin doses through a tiny implantable catheter.

These new-generation devices represent a significant advance over older
products, said Aaron J. Kowalski, the assistant senior vice president of
glucose control research at the Juvenile Diabetes Research Foundation in
Manhattan, one of the largest nonprofit patient advocacy and research
groups for diabetes.

Even so, Dr. Kowalski said, using separate devices that are not designed to
work in concert poses limits to treatment, particularly overnight. If a
diabetic person’s blood sugar drops during the night and the glucose
monitor alarm goes off, for example, that person may not wake up and the
preprogrammed pump, operating separately, could continue to deliver
insulin, making the problem worse, Dr. Kowalski said. (His group was one of
the sponsors of the Lancet study.)

Researchers in Europe and the United States have been racing to develop a
fully automated system for Type 1 diabetes that would wirelessly connect an
external glucose monitor with an insulin delivery device. Based on
algorithms like the ones used in the Lancet study, the devices would
continually monitor glucose levels, calibrate insulin dosages and then
dispense insulin in real time — automating a delivery task performed by a
nurse in the study.

Researchers call such a hypothetical integrated system an “artificial
pancreas” because it would mimic the way a healthy pancreas works,
sensing glucose and dispensing insulin in the right dose at the right time.
The goal is a portable system that could be worn on a belt and would be no
larger than a cellphone.

Last month, as part of an effort called the Artificial Pancreas Project,
the Juvenile Diabetes Research Foundation announced an $8 million
partnership with Animas to develop a first-generation combined system.
Meanwhile the European Union has just started its own project, called
Artificial Pancreas at Home, which involves a grant of 10.5 million euros
to research teams across Europe to create a prototype combined device over
the next four years, Dr. Renard said.

The new study in The Lancet, proponents say, represents a proof-of-concept
milestone in the quest to develop such a system.

“The significance is in showing that the existing devices, which are
available commercially, can be combined to create the first version of an
artificial pancreas,” said Dr. Roman Hovorka, the lead author of the
study.

Dr. Hovorka, a principal research associate in pediatrics at Cambridge,
said he had been a consultant or speaker for several makers of diabetes
products.

Although the Lancet study was small — only 17 children completed the
entire protocol — it is significant because it demonstrated that a
computer algorithm could safely interpret glucose data and calculate
appropriate insulin doses for a pump, he said.

The study not only indicated that the algorithm system prevented very low
glucose overnight, Dr. Hovorka said, but it also indicated that the
experimental system was better able to keep blood glucose in an acceptable
range.

After midnight, about 80 percent of the measured glucose levels fell in a
target range in children treated with the computer-adjusted system —
compared to only 35 percent in the target range for those treated with a
standard preprogrammed pump system, according to the study.

Still, while the overall results were statistically significant, the study
was not large enough to attain statistical significance in each of its
separate arms. Those branches of the study examined how children fared
after eating meals or after exercising — factors which can affect glucose
levels.

And the experimental combined system itself was not fully automated. To
ensure that the experimental algorithm did not recommend unsafe doses, a
nurse read the computer-generated dosing suggestions and then adjusted the
patients’ insulin pumps.

Indeed, even if device makers are able to develop fully automated
prototypes of combination systems, they are likely to face regulatory
hurdles, analysts said, and would have to factor in product liability
concerns.

“This is something that companies have been striving to do for years, and
as computer chip technology evolves, it gets closer,” said Rick Wise, an
analyst at Leerink Swann, a health care investment bank. “But you have to
appreciate how exquisitely reliable an artificial pancreas would have to be
to read glucose correctly and dispense insulin correctly.”
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Later,
Sean

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