Re: Research into growing Artificial Liver [OT] -- Want Methadone Support??

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Date Posted: 16:13:32 04/25/02 Thu
Author: William
Author Host/IP: spider-wo024.proxy.aol.com / 205.188.200.29
Subject: Re: Research into growing Artificial Liver [OT]

This sounds like a way off albeit great news. Hopefully this will alleviate the need for such large numbers of oragan donors that are currently lacking. Haven't been here for a few days, so thought that I would drop a line.

What will they think of next? Artificial onions.

God bless all of you.

Respectfully:

William.

BBC:
Thursday, 25 April, 2002, 03:16 GMT 04:16 UK
Artificial liver 'could be grown'

The scientist who grew a human ear on the back of a mouse has suggested it
may one day be possible to "grow" a liver.
US researchers say the prospect of artificial livers has been brought closer
because they have worked out how to grow deep networks of blood vessels -
which has not been done before.

The potential new source of livers for transplants was welcomed by
campaigners as a way of closing the gap between the number of organs needed
and those available.

In the UK, there are only around 100 people waiting for a liver transplant,
but the British Liver Trust said many people died before they reached the
list.

However experts have warned the laboratory-based research is a long way from
working livers.

Copying

In 1997 Dr Jay Vacanti grew a human ear from cartilage cells the back of a
mouse, causing outrage among animal rights and pro-life groups.

Now Dr Vacanti, a transplant surgeon at Massachusetts General Hospital in
Boston and Jeffrey Borenstein, micro-engineering expert at the nearby Draper
Lab are looking at growing more complex tissues.

Scientists had believed it was not possible to grow anything more complex
than simple tissues, such as thin sections of knee cartilage and skin
because of problems growing the blood vessel networks.

To do this, they use a "frame" made of a biodegradable plastic.

This is immersed in a solution of the patient's cells, then in a nutrient
solution.

As the cells multiply and link together, the frame dissolves, leaving a
piece of cartilage which survives because oxygen and nutrients from
surrounding fluids feed into the cells.

But in thicker tissues, the nutrients are unable to get past the first few
cell layers and need an internal blood supply to survive.

The technique developed by the researchers involves copying the blood vessel
network of a real liver and using 3D computer modelling and machining to
mimic its construction.

To copy the structure, they injected a liquid plastic into the blood vessels
of a liver, wait for it to solidify and dissolve the liver tissue, leaving a
solid cast of the organ's blood vessels.

They can then take "measure up" and feed data into a computer to create a 3D
model of a liver's blood supply.

3D

This model is then "sliced up" on the computer into horizontal layers, which
can be used to make a silicon mould.

Biodegradable plastic is then poured into the mould to make enough slices
that can be sandwiched together using pressure and heat, to create a
scaffold for a whole liver.

The scaffold then has to be injected with at least seven types of cells that
make up the solid part of the liver.

A solution of endothelial cells, which normally line blood vessels, then has
to be pumped into the empty channels in the frame where they stick to the
walls.

These can then be grown in a nutrient to form a network of blood vessels
within the scaffold which again dissolves over a few months.

If each step of this process works, it would result in a functioning liver.

But blood vessel networks grown this way have so far been tested in rats,
with no leakage or obstruction of the blood flow.

Linda Griffith, a tissue engineer at MIT, said one of the main problems of
the idea would be getting all the right cell types to grow in the right
places.

She told New Scientist magazine, which sets out the research: "In just a
gram of liver, you have around 100 million cells and it'd be very hard to
position each and every one.

Larry Hench, a tissue engineer at Imperial College, London added:
"Currently, there's no way of keeping these implants sterile, and no one is
really looking at that."

"If we can't sort this problem out, we could be stuck with lab-based
solutions we can't use."

Nigel Hughes, chief executive of the British Liver Trust, told BBC News
Online: "We know that the demand for livers is going to outstrip supply.

"We hope to see all of this biotech science come to fruition."

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Re: 100 waiting in the UK. Something wrong with this number. -- sg, 17:00:16 04/25/02 Thu (Toronto-HSE-ppp3661732.sympatico.ca/65.95.149.105)

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