New Ultrasound Insulin
Patch Could Eliminate Needles
ARLINGTON, Va., Nov. 11, 2002 - Bioengineers at Pennsylvania State
University have developed an ultrasound insulin delivery system that can be
worn as a patch on the body.
Currently, diabetics must either inject insulin via hypodermic needles or
use a mini-pump with a needle or a soft tube inserted just under the skin.
The new ultrasound patch offers a less painful and noninvasive alternative
because it doesn't break the skin.
Similar drug delivery devices on the market use a probe about 8 inches long
and weigh more than 2 pounds. The new ultrasound patch operates in the same
frequency range as the large commercially available devices, but the entire
system is about the size and weight of a matchbook and would allow patients
greater mobility while receiving insulin.
The key to the new ultrasound patch is a "cymbal" transducer. A
prototype patch uses four cymbal transducers, which consist of a thin
disk of piezoelectric ceramic material sandwiched between titanium end caps
shaped like cymbals.
The transducers produce ultrasonic waves that open microscopic channels in
the skin. A thin reservoir of insulin is placed in front of the cymbal
transducers, and when a current is applied, the ultrasonic waves, which are
just above the level of human hearing, push the medication through the
channels in the skin and into the blood stream.
Live rat experiments, the results of which were presented last month at the
IEEE 2002 Ultrasonics Symposium in Munich, Germany, have shown that the
ultrasound patch delivers therapeutically effective doses of insulin.
Preliminary results also showed that the patch may be far more efficient
than first thought, said Nadine Smith, Ph.D., a project leader and assistant
professor of bioengineering at Penn State. Researchers have been able to
reduce the exposure time--already down from 60 minutes to only 20
minutes--while still delivering the same amount of insulin.
"We are hopeful that, eventually, we may be able to tune the system so that
one to five minutes of exposure may be enough" to deliver an effective dose
of insulin, Smith said.
Besides insulin, some pain relievers, asthma drugs, hormones, medications
used to treat AIDS and other drugs that cannot be taken by mouth might be
delivered via the new ultrasound patch, Smith said. The insulin patch could
be used to treat both Type I and Type II diabetes. Eventually the device
could be paired with similar ultrasound glucose monitoring devices currently
under development.
Research describing the new prototype in detail was published in the October
issue of the IEEE Transactions on Ultrasonics, Ferroelectrics and
Frequency Control. A paper has been accepted for publication in an
upcoming issue of Ultrasound in Medicine and Biology. One of the
co-authors, bioengineering professor K. Kirk Shung, recently completed a
3-year, Special Opportunity grant from the foundation to develop research
and education in medical ultrasonic transducer engineering at Penn State.
The Whitaker Foundation is also supporting Smith in a research project using
ultrasound to treat prostate cancer and disease.
Nadine Smith, Penn State University
Mark Bowman, Whitaker Foundation
© All rights
Reserved.