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SCIENCE IN THE NEWS -March 26, 2002: Digest
VOICE ONE:
This is Sarah Long.
VOICE TWO:
And this is Bob Doughty1 with Science in the News, a VOA Special English program about recent developments
in science. Today, we tell about new kinds of drugs to fight the virus that causes AIDS. We tell about an
experiment to create nuclear fusion2 in the laboratory. And we tell about an operation to transplant a woman’
s
uterus.
((THEME))
VOICE ONE:
Researchers are testing powerful new drugs designed to fight H-I-V, the virus that causes AIDS. Experts hope
that the new drugs will help people who are not being helped by current medicines. Scientists reported about the
new drugs during a yearly AIDS meeting called the Conference on Retroviruses and Opportunistic Infections. It
was held last month in Seattle, Washington.
The Centers for Disease Control and Prevention says about nine-hundred-thousand
people in the United States are infected with the AIDS virus. That is an increase of
about fifty-thousand from Nineteen-Ninety-Eight. Experts say the increase is because
people with the disease are surviving longer.
VOICE TWO:
The C-D-C found that at least forty -two percent of people with H-I-V in the United
States either do not know they are infected or are not being treated. Another C-D-C study found that people who
delay treatment have much higher death rates.
Existing drugs have sharply reduced the number of deaths from AIDS. However, H-I-V can change into drug -
resistant forms. And the medicines to treat the disease can cause severe side effects.
Scientists say the new AIDS drugs do not cure H-I-V. However, they may offer help to people who are not being
helped by existing medicines.
VOICE ONE:
There are about fifteen drugs that are used to prevent H-I-V from reproducing in the body. Their goal is to slow
or stop the disease from progressing. The drugs work by attacking two of the three enzymes4 that the virus uses
inside a human cell. Some of the new medicines target the third enzyme3, called integrase. Integrase is the enzyme
that places H-I-V genes5 into the genes in human cells, making the infection permanent.
VOICE TWO:
Other new drugs try to prevent H-I-V from entering the cell. Researchers began studying these drugs during the
Nineteen-Nineties. At that time, they found that some people did not become infected with H-I-V, although they
were exposed to the virus several times. Some of these people had a different form of a protein on the surface of
their cells. In order to infect a cell, H-I-V must attach to this protein. But the virus can not attach to the different
form of this protein, so it can not enter the cells.
VOICE ONE:
Scientists at the AIDS conference also heard about the early success of new drugs designed to avoid resistance
problems. One of them is one of the most powerful anti-H-I-V drugs developed. Experts say the drug appears to
sharply suppress the amount of virus in the blood. They say it appears to work as well as five older drugs taken in
combination.
This drug would not be used alone, however. Most anti-AIDS drugs are taken in combinations of three or more to
be effective. Many anti -AIDS drugs seem to be extremely powerful at first. But they prove to be useless later as
the virus changes.
A few of the new anti-AIDS drugs discussed at the conference are expected to be approved soon by the United
States government. However, most of the drugs have just started being tested on people. Others are still being
developed.
((MUSIC BRIDGE))
VOICE TWO:
American scientists are studying an experiment that reportedly created nuclear fusion in a laboratory. The fusion
experiment was performed at the Oak Ridge6 National Laboratory in Tennessee. Experts say the work, if
successful, could someday provide almost unlimited7 supplies of low-cost energy.
However, some scientists are questioning the experiment. They note that another team of
scientists claimed to have produced fusion thirteen years ago. Yet no one else could ever
reproduce that result.
VOICE ONE:
Fusion is the process that makes the sun and other stars shine. Atoms of hydrogen are pressed
together and heated so intensely that they join or fuse together. This fusion forms a different element, helium. It
also releases a large burst of energy
–
the heat and light sent out by the sun.
Fusion energy already exists on Earth. It is the power of the hydrogen bomb. However, scientists have not been
able to produce this kind of energy in a safe, peaceful way.
Scientists have been working on the problem for almost fifty years. Generally, their work includes attempts to
build a copy of the intense pressure and heat of the sun. They believe such pressure and heat are needed for
fusion.
VOICE TWO:
The team of scientists at the Oak Ridge National Laboratory performed the latest experiment. Science magazine
published the findings.
The scientists sent sound waves into a small glass container that had the liquid chemical acetone. Acetone is a
chemical in which the normal hydrogen atoms are replaced with deuterium. Deuterium is a heavy form of
hydrogen that is capable of fusion reaction.
The scientists then shot neutrons8 into the container. The scientists say this caused small particles of gas in the
liquid to expand quickly. They say these bubbles then imploded9, creating bursts of light. This created high
pressure that caused deuterium atoms to fuse, releasing intense energy.
VOICE ONE:
An independent group of scientists examined the findings before they were published. Science magazine delayed
the publication when other scientists at Oak Ridge could not reproduce the experiment.
Science magazine published a commentary with the report. One scientist noted10 that the device used by the Oak
Ridge scientists could be a tool for studying nuclear fusion in the laboratory, if the findings are confirmed. He
added that scientists will
–
and should
–
question the findings until the experiment is reproduced by others.
((MUSIC BRIDGE))
VOICE TWO:
Doctors in Saudi Arabia have performed the first human uterus transplant operation. The doctors say the woman
who received the uterus had two monthly fertile periods after the operation. However, the uterus had to be
removed after three months. Doctors say the experiment shows that a uterus transplant operation is technically11
possible. Yet some experts say it is very risky12 and question its value.
VOICE ONE:
The uterus transplant operation was performed two years ago at the King Fahad Hospital and
Research Center in Jeddah, Saudi Arabia.
Doctors transplanted the uterus into a twenty-six year old Saudi woman. Doctors had removed
her uterus six years earlier because of uncontrolled bleeding after the birth of her first child.
The woman wanted to have another baby. The transplant organ came from a forty-six-year-old woman. She had a
condition that required the removal of her reproductive organs. However, her uterus was healthy.
VOICE TWO:
The younger woman took powerful drugs both before and after the operation so her body would not reject the
organ. The drugs suppressed her body’s natural defenses against disease. She also was given hormone13
injections to help the transplanted uterus develop normally.
The doctors say the uterus performed normally for ninety-nine days. Then tests showed that blood flow to the
organ had stopped. That forced doctors to remove it.
VOICE ONE:
The International Journal of Gynecology and Obstetrics described the experiment. A commentary published with
the report said the operation should be considered a success. Some American experts said the experiment offered
hope to women who want to have a baby and have been unable to do so.
Other experts question the idea of such a transplant operation. Most organ transplant operations are done to save
a patient ’s life. They argue that a uterus is not necessary for a woman’s survival. They also note that the anti-
rejection drugs that a woman must take have strong side effects. These might harm a developing fetus14.
((THEME))
VOICE TWO:
This Science in the News program was written by Cynthia Kirk and George Grow. It was produced by Nancy
Steinbach. This is Bob Doughty.
VOICE ONE:
And this is Sarah Long. Join us again next week for more news about science in Special English on the Voice of
America.
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1 doughty | |
adj.勇猛的,坚强的 | |
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2 fusion | |
n.溶化;熔解;熔化状态,熔和;熔接 | |
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3 enzyme | |
n.酵素,酶 | |
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4 enzymes | |
n. 酶,酵素 | |
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5 genes | |
n.基因( gene的名词复数 ) | |
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6 ridge | |
n.山脊;鼻梁;分水岭 | |
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7 unlimited | |
adj.无限的,不受控制的,无条件的 | |
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8 neutrons | |
n.中子( neutron的名词复数 ) | |
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9 imploded | |
v.(使)向心聚爆( implode的过去式和过去分词 ) | |
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10 noted | |
adj.著名的,知名的 | |
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11 technically | |
adv.专门地,技术上地 | |
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12 risky | |
adj.有风险的,冒险的 | |
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13 hormone | |
n.荷尔蒙,激素,内分泌 | |
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14 fetus | |
n.胎,胎儿 | |
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