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CRYONICS
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act
Never Say Die
by Graham Southorn
Focus Magazine
http://www.focusmag.co.uk
July 2003 page 70
Cryonics advocates have their bodies
frozen in the hope that they'll be woken in the
future. Graham Southorn asks if technology will ever
be up to the job.
0n an industrial park northeast of Detroit is an
anonymous-looking but wholly remarkable building.
Owned by the Cryonics Institute, it is home to 47
individuals who are true believers in the ultimate
triumph of technology: people who literally live in
hope. Or rather, they're people who lived in hope.
Now they're clinically dead, their bodies preserved
in giant fibreglass cryostats and stored at -196°C
in liquid nitrogen. It's only at such low
temperatures that the bodies are protected from the
biological activity that would cause them to decay.
And there they will stay until the day comes, they
hope, when future scientists revive them using some
unimaginably advanced technology.
At least, the technology was largely unimaginable
when the idea of cryonics burst onto the scientific
scene in the early 1960s. Since then, advances in
medicine, computing and electronics have whispered
promises of future breakthroughs into the ears of
these forwardlooking thinkers. Every now and then
they gather to see how the future is shaping up,
just as they did on 15 November 2002 at the Fifth
Conference on Extreme Life Extension in California.
There, experts met to discuss how biotechnology
could slow ageing, how organs could be cloned to
prolong human life, and how tiny robots could make
their way around the human body to repair damaged
cells. Putting on the conference was Alcor, the main
rival to the Cryonics Institute when it comes to
freezing people and preserving them for the future.
It was the president of the Cryonics Institute,
Robert Ettinger. who first propelled the idea into
the mainstream. Back in 1964 Ettinger was a physics
teacher in Michigan and his book, The Prospect of
Immortality, opened many peoples' eyes to the
possibilities. Widely read at the time and since, it
can now be downloaded for free from the Institute's
website. It wasn't until 1976 that the Cryonics
Institute was founded to put these ideas into
practice and today it houses the bodies of 47
patients, as it calls them. Among them are
Ettinger's mother, Rhea, and his first wife Elaine.
The Cryonics Institute and Alcor, which is based in
Arizona, are ostensibly similar organisations. Both
claim that they don't operate for a profit, or much
of one anyway. Instead, the majority of their income
is spent on the upkeep of their facilities,
developing new clinical procedures, and
forward-looking research. But their services and
prices differ markedly. Alcor charges $120,000
(£75,000) to store a whole body, along with a
signing-up fee and an annual subscription of $398
(£245). In comparison, the Cryonics Institute asks
just $28,000 (£17,000) for whole-body suspension
because, it says, it owns its premises rather than
having to rent floor space.
Both companies are happy to freeze the four-legged
friends of patients alongside them but Alcor is
alone in preserving severed heads. Working on the
theory that science will one day be able to
regenerate all tissues except those in the brain,
this $50,000 (£31,000) service will, they believe,
preserve your essential character if not your bodily
appearance.The Cryonics Institute, on the other
hand, doesn't freeze heads on the grounds of good
taste. As Ettinger says on its website: "It's
nigh-on impossible to go to the family of someone
who has just passed away, and explain that the head
of their loved one is going to be cut off and frozen
in a tank."
It's crucial for that visit to the family to happen
as soon as possible after death to avoid damage that
would otherwise leave little to preserve. In the US,
the cryonics companies operate emergency response
teams that fly out to a patient in the event of
their sudden death. In the UK, a team of
paramedically-trained volunteers coordinated by
Cryonics Europe, an organisation linked to the
Cryonics Institute, is on standby duty. Its job is
to reach members at death's door in order to carry
out the first stage of the freezing process.
That first stage involves removing the blood and
replacing it with a solution containing glycerol. a
cryoprotectant fluid. This acts like antifreeze to
minimise the damage caused by freezing. Chrissie de
Rivaz, chair of Cryonics Europe, explains that
circulation and breathing must be artificially
restored. "Once death is legally pronounced the
patient has to be cooled down as quickly as
possible. A machine keeps the heart going to
circulate the cryoprotectant while the body is
cooled down to dry ice temperature, -79°C. At that
temperature the actual shipment to the States can be
carried out, where it's cooled down to -196°C."
Freezing, though, is the easy part. There are around
100 patients kept in cold storage today, but there's
a good reason why none have yet been revived. Quite
simply, nobody knows how.
But for the advocates of cryonics, there are plenty
of reasons to be optimistic, not least of which is
the fact that nature has already managed a similar
trick. In Canada, woodland frogs have evolved the
ability to survive the country's harsh winters.
Scientists have successfully placed the frogs in
freezers, where they can detect no heartbeat, and
thawed them out later. The frogs were none the worse
for wear. Medicine, too, uses techniques of
freezing. Some human tissues are frozen for use in
later operations, and fertilised embryos are stored
for female fertility treatment.
But scientists who work in the field of cryobiology
- the study of body tissues at low temperature say
that freezing individual cells is a far cry from
preserving an entire human body. The process is only
understood in a select few types of t cell, explains
Professor John Armitage, a researcher in tissue
biology and transplantation at the University of
Bristol. "With test tube babies you are talking
about a fertilised embryo that perhaps consists of
just eight cells, and there are still some types of
cell we can't freeze successfully."
The fact that nature got there first doesn't help
the human body freezers. "The point is that these
animals have evolved this way. Liquid nitrogen is
-196°C but the Canadian frogs only encounter
temperatures of around -10°C or -15°C, and even then
not for extended periods. The frogs control exactly
where ice forms in their bodies, so it
preferentially forms in areas where it is not going
to cause damage, such as in the skin and outer
muscles rather than the major vital organs," he
says.
At present the damage caused by the ice is the
biggest barrier to successfully reviving a person in
cold storage. "The way in which ice forms inside
cells isn't well understood but it's not good if it
does get in. And there are many other mechanisms of
injury when you step up from individual cells to the
complex structure of tissue. There have been
successful transplant operations using cryopreserved
cornea, but we know that those cells are very badly
injured."
One hope of the cryonics camp is vitrification - a
process that causes water to solidify without
forming ice crystals. To achieve this, however, you
not only have to freeze a body rapidly but use a
cryoprotectant that's four times more concentrated
than the one required for basic freezing. At these
concentrations, the cryoprotectant is so toxic it
simply poisons tissue. "People have vitrified a
kidney, but on warming it up and removing the
cryoprotectant there's been no evidence of
function," says Armitage.
A bigger hope for those taking the big sleep is
nanotechnology: the promise of tiny machines that
will one day be able to manipulate individual atoms.
Nanotechnology hit the headlines in 1986 with the
publication of Engines of Creation by K Eric
Drexler of the Massachusetts Institute of
Technology. At last years Life Extension conference,
Drexler painted a rosy picture of a future in which
nanoscale machines would enter cells to proof-read
the DNA, remove waste materials, destroy pathogens
(disease-causing micro organisms) and rebuild bodies
and brains. If his vision ever comes true the
precious few who have been preserved in liquid
nitrogen could live to see another day.
Interview with Dr Yuri Pichugin,
head of research at the Cryonics Institute
How did you become a cryonics scientist?
I began my career as a scientist in the former
Soviet Union. I decided to become a cryonics
scientist after I left the Young Communist League in
1975. At that time, officials had very inaccurate
opinions about cryonics and so I wasn't able to
perform cryonics research there. But later I did
become a cryobiologist and worked fork years at the
Institute for Problems of Cryobiology and
Cryomedicine in Ukraine. In 1991 I emigrated to the
United States and became a scientist at the Cryonics
Institute.
Why did you want to work in cryonics, rather than
other fields of science?
I don't want to die, but rather to live as long as
possible. Although I am not a religious believer, I
accept the Christian ideal of eternal life. But in
contrast to the Christians, cryonicists like myself
would like to realise this ideal by real and
effective scientific methods, rather than
supernatural ones.
Is there a time limit after death within which
customers must be suspended?
Ideally, there is. The time limit depends upon the
temperature at which the bodies are kept following
death. It's best if the amount of time after death
does not exceed 24 hours, and the bod. kept at 0°C
until suspension.
What temperature are the bodies stored at?
Patients are kept at liquid nitrogen temperature,
-196`C
How long does it take to freeze a body and how do
you know if the process has been successful?
The Institute uses glycerol as a cryoprotectant with
slow cooling rates. A body is cooled for about two
days from 0°C to dry ice temperature (-79°C) and
another week from -79°C to -196°C (temperature of
liquid nitrogen). We can record the temperature of
the body using thermocouple thermometers, and if
these show-196°C, it means the process has been
successful. Perfusion with glycerol is the most
difficult part of the suspension process.
How long can bodies be kept in suspension?
In liquid nitrogen, they can probably be kept for
centuries at least.
How many people are kept in suspension at your
facilities?
At present, we have 47 patients in the cryostats.
Why don't you freeze heads, like some of your rival
organisations?
Our price for whole body suspension is already lower
than the price of others for heads, and we think
that freezing heads alone makes it more difficult
for families to agree to the process
What are the factors that influence the $28,000 cost
of the process?
The largest part is invested to provide income for
ongoing care for as long as is necessary.
It Is it likely that the cost will come down in the
long run?
Costs will tend to come town because of larger scale
operations, but may tend to ise because of more
omplicated procedures being developed, and because
of inflation. So far we have never had to raise
prices, and if the time comes when new procedures
are too expensive for current nembers, the older
procedures will stilt be available at the old
prices.
Will you be placed in suspension when you die and,
if so, what do you hope to achieve in a future life?
I hope to be placed in suspension when my body
ceases to function and a physician pronounces my
legal death. But a legal death is not absolute
death, because the human organism continues to be
alive at tissue and cell levels. I would like to
achieve everything I possibly can in my future life
- to become an infinite microcosm in the infinite
great macrocosm.
Scientific advances will need to be made before the
suspended people can be brought back to life. What
will be the biggest hurdle to overcome?
In general, in order of descending difficulty, we
need to: repair freezing damage, repair the results
of delay in cooling, repair damage done by old age,
and repair the immediate cause of death, such as
disease or trauma.
How long do you think it will be before you can
revive the customers in storage?
For those already in storage, the usual guesses
range from 40 to 200 years. They are not 'customers'
but member patients. CI is not a commercial firm,
but a nonprofit organisation run for its members.
Why do you think future societies will accept people
from the past?
The improved society of the future will not be like
present human societies. I hope that a superhuman
(God-like) civilisation will come into existence. A
superior society would necessarily be a
compassionate one. Such a new civilisation would try
to raise everybody from the dead and to give
everyone eternal life.
What do you say to scientists who believe that cells
are irreparably damaged by freezing?
Irreparable just means not capable of repair by
presently known means. There have been many
successes in reviving frozen specimens, including
some small mammalian organs such as the rat parath
and the rat uterus. Large systems are more
difficult; of course. But science is always making
progress. And so are we.
Has the technology behind cryonics improved and
evolved?
The science and technology behind cryonics has
improved and evolved but not enough to allow for the
successful reanimation of frozen patients.
Britons Who Have Signed Up
Ordinary people who don't want
to miss out on life in the future.
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Alan Sinclair
I'm now 65
and I think life is far too short. I have no
desire to die. If the time ever came when I
was fed up with life then I wouldn't go in
for suspension. If it becomes possible to
bring us back then we would be revived as
young and active people and not as 80 or 100
year-olds.
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Mark Walker
I am a big
fan of gadgets and I feel that I am missing
out on the technologies that are going to be
around in the future. It's going to be mind
blowing what sort of stuff you'll be able to
do in the future, thanks to developments in
computers and electronics, and to be part of
the new technology as well, in cryonics, I
think is an opportunity not to be missed.
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Chrissie de Rivaz
I don't
particularly like the idea of being dead
anyway, and with cryonics there's a small
chance of death not being the end. There are
still an awful lot of things I would love to
do, and future technology could improve our
learning capabilities. If I came back I
would like to learn more about science and
learn how to speak more languages.
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Famous Cryonics Supporters
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Ted Williams
The most
famous cryonics patient was a baseball great
who played for the Boston Red Sox in the
1940s. When he died In July 2002, the 83
year-old Williams was first treated in
Florida and then flown to Alcor HQ, where
his body is kept frozen. His daughter
threatened, but later dropped, legal
proceedings against the controversial
treatment.
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Ray Kurzweil
Kurzweil
made his fortune designing the first machine
that converted printed text into speech for
the blind, and later developed computer
scanning software. He was diagnosed with
type 2 diabetes at the age of 35 but beat
the disease by concocting his own special
diet.
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Marvin Minsky
Known for
his pioneering work in artificial
intelligence, Minsky is a scientific advisor
to Alcor as well as being signed up for the
big freeze himself. In recent years, the
professor has been endeavouring to give
machines the power of commonsense reasoning
at the Massachusetts Institute of
Technology. |
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