R&D Digest
The monthly review of new technologies and medical device innovations.
Prosthetic Vein Valve Goes
with the Flow
Collaboration five years in the
making at the Georgia Institute
of Technology (Atlanta) has led to a
promising prosthetic vein valve. The
device may replace nonfunctioning
valves in patients suffering from
chronic venous insufficiency, a condition that occurs when veins can’t
pump blood back to the heart.
“Blood flows to the toes because of
gravity, but the body uses vein valves
to pump blood back to the heart,” said
David Ku, professor of mechanical engineering at Georgia Tech. “However,
sometimes a vein valve dissolves after a
clot. The loss of the valve leaflets allows
blood to flow the wrong way, causing
swelling in the legs and ankles.”
Current treatments for chronic venous insufficiency include anticoagulant therapy, compression hosiery, and
a valve transplant. Because it’s not
easy to find an appropriate valve in a
patient’s leg, a prosthetic valve could
be a more-effective alternative.
The prosthetic valve has a one-way
flap composed of a Georgia Tech–
patented material called
poly(vinyl alcohol) cryo-gel. The material provides
mechanical strength for
human tissue replacement,
it’s more flexible than
body tissue, and its attraction to water enables biocompatibility with natural
tissue.
After finding typical
valve-testing methods
inadequate, the researchers created their own test
techniques to examine
how the valves would perform long term. To make
the device as close to the
real thing as possible, they
devised tests that showed
that the valve could with- David Ku provides an up-close look at the valve.
stand high pressures (more
than 500 mm of mercury) without
leaking. They also made sure that the
prosthetic vein could open with a pressure gradient of 2.6 mm of mercury.
Laura-Lee Farrell, a former Georgia
GARY MEEK/GEORGIA TECH
Tech graduate student,
devised one method to
examine the possibility of blood clot formation inside the valve.
After 120 minutes of
blood flow, the valves
stayed open without clots. The results
demonstrated that the
valves had low flow
resistance and resistance to fatigue.
The team’s plan
is to test the valve’s
biocompatibility and
(Left to right) Georgia Tech professor David Ku, former performance in sheep.
graduate student and consultant Harris Bergman, and current Other members of the
graduate student Prem Midha test the valve for the forma- prosthetic valve team
tion of clots using a pump system. include Rudy Glea-
son, assistant professor of mechanical and biomechanical engineering at
Georgia Tech; Ross Milner, assistant
professor of surgery at Emory University (Atlanta); former Georgia Tech
graduate student Harris Bergman; and
current graduate students David Bark
and Prem Midha.
Their work has been funded by the
Wallace H. Coulter Foundation and
the National Collegiate Inventors and
Innovators Alliance.
—Maria Fontanazza
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