Should Canada be allowed to continue with genetic engineering without federal
guidelines?
In the past ten years there has been a rise in a relatively new science, a science
that raises alot of controversial questions with very few answers. This science is
called Genetic Engineering. In it's simplest terms it is the reordering of a genetic
DNA sequence. It is a very controversial science because it leads into moral and ethical
issues, as to what can be done with it and what cannot.
Canada is one of the few countries without nationwide, federally legislated
guidelines to deal with genetic engineering and experimenting.
Within the last six months (as of this paper being written) there was a baby born
in the Calgary hospital with a disease commonly referred to as Boy In The Bubble Disease.
The child would have become violently ill within two weeks of It's birth and would have
died before it reached one year old. However the parents of this child were told about a
highly unprecedented technique that could quite possibly change the baby's future of life
or death, they were warned that this method had not been tested on small children, but
only laboratory animals. The parents agreed to try it. They allowed Doctor Tom Bowen of
the Calgary children's hospital to remove blood from the child 4 hours. after birth, the
blood was then promptly flown to Los Angeles California where the blood testing was done
and a new gene introduced into the specimen blood. From there the blood was flown back
to Calgary and then reintroduced into the child's blood stream. Today child leads the
life of an average 6 month old.
Dr. Bowen states ?We have the potential to do alot of harm, and an incredible
amount of good. Let's harness the good, keep some control to it, and get our heads out
of the sand.?
Developments have come a long way since genetic engineering was first discovered.
Right now scientists are working on a bacteria that will break down crude oil and could
be used to master the giant marine oil slicks caused by tanker accidents. (Taking Sides:
Clashing views on controversial bioethical issues, 1989.) Another great thing they can
do is the farming of bacteria which can provide medicines such as; insulin, the human
growth hormone, the blood clotting agent, and the rare
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interferon for immunity. (Taking Sides, 1989)
One of the newer things that scientists have been working on only recently is a cure
for HIV or the AIDS virus, what basically would be done is, reintroduce the DNA sequence
that deals with the immune system. (New York Times,1993)
One thing that environmentalists have already tried to stop is, the testing of
bacillus causing ice crystals to form on the potato plant : the genetic lowering of it's
temperature threshold is to delay the seasonal onset of frost damage, with obvious
advantages to agriculture. (TAKING SIDES, 1989.)
But what would become of the bacteria and medicine? Would they emancipate from the
confines of their task, strike out on their own environmental and mutational careers, and
drastically disturb an ecological equilibrium unprepared for them? Is it permissible to
play such games of chance with the environment? (Taking Sides, 1989) When scientists
created these medicines, bacteria and genes they wanted to be able to allow themselves to
intervene with the experiments and let the old master take over again at any time and
command, ?In the closet/broom! broom! / As you were,? and there they would stand
motionless. ( ?The Sorcerer's Apprentice.? ) But at times things do not go quite as
planned and you get what is called the ?Malcolm Effect? which is basically this- no
matter how you calculate and try to figure something out you cannot totally predict what
will happen with it. (e.g.) There is pool table set up, on it is one ball and your
shooter, you calculate that if you knock the shooter with just the right force at the
side wall it will ricochet and land in the opposite pocket. However you do not
calculate the fact that the ball is not perfectly smooth and that the side of the table
is not exactly straight thus the ball just misses and does not go in the hole as you had
calculated that it would. (Jurassic Park, Michael Crichton)
The new developments that were stated earlier also have great downfalls, for example
the growth hormone is excellent for people who have the corresponding gene deficiency,
but what if someone wished to be taller because, as alot of people are told ?Tall Is
Beautiful? the gene then would be greatly desired. Unfortunately however if it burns
right down to the issue of money, the abuse of this for people who simply have familial
or ethnic shortness and who have the money will receive it, legally or otherwise.
What if they created a gene to prolong the biological clock, allowing women to have
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babies at a later age in life. Or maybe one that would prolong the sexual and
reproductive capacities into higher ages, for which male demand would be extremely keen.
Imagine it, and ask yourself whether it is good and wise, with respect to the individual
or the group, to meddle for ephameral-hedonistic reasons with the ways of nature, who
here has set her own times by the long trial of evolution. (Genethics: the ethics of
engineering life, 1988)
In answer to all this one might say that any drug, even the most beneficial,
prescription or otherwise, can be abused, thus the responsibility lies not with the
manufacturer, but with the patients and doctors with their responsibilities as
middle-men.
In Goethe's play Faust II, ( act 2 Scene ?Laboratory? ) Wagner chastises
Mephistopheles for thinking that he would create a man in the ?old fashioned? way, rather
than in a new and unattempted way. There is one line I would like to quote ?Yet in the
future we will laugh at chance? . Is it not chance that brings us to the joy of knowing
that if I were to give birth to a child I could not have one identical to it by natural
means? And is it not chance that surprises us with what is ever new and what has never
been? but if we were to replace chance with science we would assumedly calculate what
would be and we would never be surprised. Wouldn't that be a boring life? An extremely
boring world to live in? Isn't it chance that allows us our mistakes and our successes?
In my opinion I believe that there should be some staunch guidelines which would
protect us from scientists going to such an extreme. The guidelines should not however,
make the scientists feel as though they were under the leadership of a benevolent
dictator. They should allow the scientists the freedom to explore in the medical field
to save human lives and and cure diseases but not allow them to research for their own
personal gain. One thing that needs to be changed is the fact that cures and antidotes
can be patented, I believe that if this were to remain in effect scientists could
eventually patent their own super humans.
Bibliography
Levine, Carol Taking Sides: Clashing Views On Controversial Bioethical Issues.
Dushkin Publishing group, Inc. Guilford Conn., 1989.
Suzuki, David. Knudston, Peter Genethics: The ethics of Engineering life. New data
Enterprises, Toronto, Ont. 1988.
Bowen, Tom. Press Conference Dec. 1993
World book encylopedia, 1985 genetic engineering. vol. 8, G. p. 85
Dolan, Edward F. Matters of Life And Death Grolier Libraries, New York, N.Y. 1982
Medical Research Council of Canada. Vocabulary of Genetic Engineering. Canadian
Government publishing centre. Ottawa, Ont. 1990
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