Individuals with type 1 diabetes
must inject themselves with the required dose of insulin daily to manage their
condition. In the future, injections may no longer be necessary; scientists are
developing a viable way of delivering insulin in pill form.
Researchers have developed a pill for the
oral delivery of insulin, and they hope that it will eventually be made
available to patients.
Type 1 diabetes is a less widespread
form of the disease that, unlike type 2 diabetes, is often hereditary and
non-preventable.
In type 1 diabetes, the immune system
wrongly attacks and damages the cells of the pancreas that produce insulin, a hormone that is key to regulating
blood sugar levels.
Unmanaged, type 1 diabetes could
cause many health problems due to the unregulated blood sugar levels.
To prevent complications and keep
the condition under control, people diagnosed with this type of diabetes must
receive daily doses of insulin delivered into the bloodstream through either
injections or insulin pumps.
But these methods are cumbersome,
and multiple daily injections are disruptive and unpleasant — especially to
individuals who may have needle phobia.
Administering insulin orally, in
pill form, would be a preferable alternative. But unfortunately, insulin
quickly deteriorates when coming into contact with gastric acid, or digestive
enzymes.
And, researchers have so far been
unsuccessful in their attempts to develop a coating that would safely carry
insulin beyond the obstacles of the digestive system and into the bloodstream.
Recently, however, a team of
specialists from the Harvard John A. Paulson School of Engineering and Applied
Sciences in Cambridge, MA, have come up with a pill that, they say, is able to
do this job.
"Once ingested, insulin must
navigate a challenging obstacle course before it can be effectively absorbed
into the bloodstream," says senior study author Samir Mitragotri.
Mitragotri and team describe their
research, and the insulin-delivering pill they developed, in an article now
published in the journal PNAS.
'Like a Swiss Army knife'
The researchers created a complex
pill coating, designed to shield the insulin from gastric acid and the enzymes
of the small intestine and also be able to penetrate the intestine's protective
barriers.
In this pill, insulin would be
inserted in an ionic liquid that contains choline and geranic acid, itself
encapsulated in enteric coating, which is resistant to gastric acid.
The enteric coating protects the
rest from the acidic environment of the stomach, only dissolving in the small
intestine. Here, the ionic liquid would resist the digestive enzymes, shielding
the insulin against them.
"When a protein molecule such
as insulin enters the intestine," says first author Amrita Banerjee,
"there are many enzymes whose function is to degrade the proteins into
smaller amino acids." However, she adds, "the ionic liquid-borne
insulin remains stable."
And the combination of choline and
geranic acid is then able to pierce both the mucus that lines the small
intestine, and the dense cellular wall of the intestine itself.
"Our
approach is like a Swiss Army knife, where one pill has tools for addressing
each of the obstacles that are encountered."
Samir Mitragotri
The scientists also note that the
pill is easily manufactured, that this process would be more cost-effective
than the other therapies, and that the pill is not readily perishable — it can
be safely kept for up to 2 months at room temperature — surviving longer than
some of the injectable insulin that is distributed at present.
'Remarkable results'
After so many instances of trial and
error when it came to finding a way of delivering insulin orally, other
specialists now praise the researchers involved with the new study for their
achievement.
"It has been the holy grail of
drug delivery to develop ways to give protein and peptide drugs like insulin by
mouth, instead of injection," explains Mark Prausnitz, Regents' Professor
and J. Erskine Love, Jr. Chair in Chemical and Biomolecular Engineering at
Georgia Institute of Technology in Atlanta.
"This study shows remarkable
results where insulin given by mouth in combination with an ionic liquid works
about as well as a conventional injection. The implications of this work to
medicine could be huge, if the findings can be translated into pills that safely
and effectively administer insulin and other peptide drugs to humans," he
adds.
Insulin delivered orally, the
researchers explain, would reach the blood in a way that is more similar to the
natural release of insulin by the pancreas. Also, this method may lessen the
adverse effects associated with receiving repeated insulin injections.
Mitragotri explains that the next
step from here will be to conduct further studies in animal models and make
sure that the pill they designed is completely safe for ingestions, though the
scientists are fully optimistic.
They say that choline and geranic
acid are already considered as safe compounds, and they hope that this will
help to smooth the path toward clinical trials in humans.
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