In the 1996 science-fiction film The Fantastic Voyage, a team of scientists and doctors are
shrunk to microscopic size and injected into the body of an injured man to 15 his life. The tiny
crew travels through the body’s dangerous environment to locate and repair the damaged part of the
man’s body. Eventually, the group manages to accomplish the mission and the man awakens, fully
cured. Such an idea, while fun, sounds extraordinary to many. But 16 if it were possible to
cure a disease like cancer, injecting tiny particles into a person that would not only find the cancer
but also destroy it without harming anything else in the body? Although it may sound like science
fiction, tools like this are now being developed and may in fact become common in the near future,
thanks to research in the field of nanotechnology.
Ted Sargent, a leading researcher in the field of nanotechnology, describes how using quantum
3
dots, particles that are a few nanometers in 17 , will help diagnose disease. The particles shine
brightly when exposed to UV light. These particles can be injected into the body and programmed to
bond only to a certain type of cell, for example, a particular cancer cell. Doctors can then use a
camera and look for the colored particles, 18 will help them determine where cancer cells are
growing in a person’s body. Using this technology, it will be possible to detect cancer at an earlier
stage. One of the advantages of detecting and treating cancer at an early stage is that the cells are less
likely to become resistant to drug treatment. In later stages, cancer cells often change and adapt to
certain drugs so rapidly that many medicines become ineffective.
Once a certain type of cancer is detected, nanotechnology will also radically improve the way it
is treated. Right now, most cancer treatments kill not only the cancerous cells but the 19 ones
as well, causing a number of side effects in people, such as hair loss, nausea, and intense pain.
Nanoparticles, on the other hand, will allow doctors to attack cancerous tumors without disturbing
healthy cells. The goal will be to deliver cancer-killing drugs, carried via the nanoparticles to the bad
cells only.
Unfortunately, even though nanoparticles have great medical potential, there are serious
concerns that these same materials could have negative environmental and health effects. In recent
studies, fish exposed to water containing large amounts of nanoparticles suffered brain damage, and
people are at 20 too. After exposing lab-grown human cells to water containing large amounts
of nanoparticles, researchers found that half the human cells died.
Because nanotechnology is so potentially useful, many scientists don’t think research into its
many uses should be stopped; learning more about nanotechnology should remain a priority. But
scientists do believe that governments should allocate more money for safety-related studies to make
21 that large concentrations of nanoparticles do not get into our food and water supplies and cause
serious problems. Meanwhile, research into the uses of nanotechnology in health and many 22
fields continues. “What’s amazing is how quickly this is evolving,” says chemist Vicki Colvin.
“Even ten years ago, a lot of these applications would have seemed pretty unrealistic.” Perhaps that
old movie, The Fantastic Voyage, isn’t so hard to believe after all.
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