From the BBC:
“'I want to be a guinea pig to help others'”
John Roberts says he is happy to be a "guinea pig"
if he can help others. "There are people a lot worse off than me who have
lost limbs," says the grandfather from Gloucester, who recently had part
of his leg amputated. The 70-year-old is
part of a research project that could transform the lives of the thousands of
people in England alone who have had a lower limb removed. "No more
pain," he says of life after surgery. "I'm walking now, gardening, doing
everything more than I was doing all those years ago." In a laboratory at
Bath University, he pulls off his prosthetic, unpeeling three layers of socks
and the silicone liner he wears to keep the prosthetic from rubbing. John was
born prematurely with one leg longer than the other. Boots, callipers and an
operation all failed to relieve his pain and he recently took the last resort
of an amputation, which has improved his quality of life. Like all people in
his position - around 45,000 in England - he faces a long recovery process, as
the stump of his leg changes size and shape after the operation. The pain and
discomfort can lead to some patients abandoning their prosthetic limb
altogether and relying on a wheelchair. Scientists and engineers at Bath are
developing made-to-measure synthetic liners to aid the healing process, which
can be manufactured and fitted in less than a day. New technology developed by
scientists could help daily life for amputees It's going to make "a
massive difference", says John. "I'll be happier. As far as I'm
concerned, it'll make life easier." In a high-tech laboratory at Bath
University, John has his residual limb digitally scanned in 3D. Engineers at
Bath then convert the measurements into code and a machine makes a synthetic
liner based on his individual contours that fits like a "glove". John
Roberts is helping scientists improve the performance of prosthetics
How it works
• Researchers use a 3D scanner to get a detailed image of the
residual limb and to design a custom-fit liner
• The liner is cryogenically manufactured from a flexible
neoprene-like material (similar to that used in wetsuits)
• The liner is tested using sensors in the socket to check
there are no pressure points where the liner could cause skin damage
• The patient's gait and loading of joints are checked using
a motion-capture system.
It's evidence, says Dr Vimal Dhokia, of how engineering can
solve the problems of everyday life. With
personalised products you're meeting the precise needs of the individual
patient, creating a product that fits better and can help them heal better, the
reader in design engineering says. "They can move around better, they
don't have the issues you have with current products which require changing
continuously or, in John's case, requires a silicone liner and a number of
socks." We move from engineering to another laboratory where Dr Elena
Seminati puts sensors on John's limbs. This enables her to analyse his gait on
a computer and to check the prosthetic "slipper" fits him perfectly,
with no pressure points. "This liner will help John to have a better life,
a normal life," she says. For John,
one big advantage is the speed at which he would be able to put his prosthetic
leg on in an emergency. He is
particularly worried about getting out quickly if there were a fire in the
night. Now he is looking forward to getting on with his life. And he says if
this project can be used to benefit others down the line, he will be happy. "If
I've got to be a guinea pig, I'll be a guinea pig, I don't mind," he says.
"Because I always look at life - somebody's worse off than me."
^ This is very interesting. It always amazes me when modern
technology is used to improve the
everyday lives of ordinary people. ^
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.