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The onset of cancer usually begins as
a solitary tumor
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in a specific area of the body.
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If the tumor is not removed,
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cancer has the ability to
spread to nearby organs,
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as well as places far away
from the origin, such as the brain.
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So how does the cancer moves to new areas,
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and why are some organs more likely
to get infected than others?
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The process of cancer spreading across the
body is known as metastasis.
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It begins when cancer cells from initial
tumor invade nearby normal tissue.
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As the cells proliferate,
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they spread via one of the three
common routes of metastasis:
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transcoelomic, lymphatic,
or hematogenous spread.
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In transcoelomic spread, malignant cells
penetrate the covering surfaces
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of cavities in our body.
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These surfaces are known as
peritoneum,
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and serve as walls to segment
the body cavity.
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Malignant cells in ovarian cancer,
for example,
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spread through peritoneum,
which connects the ovary to the liver,
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resulting in metastasis on
the liver surface.
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Next, cancerous cells invade blood vessels
when they undergo hematogenous spread.
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As there are blood vessels almost
everywhere in the body,
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malignant cells utilize this to reach
more distant parts of the body.
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Finally, lymphatic spread occurs
when the cancer invades the lymph nodes,
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and travels to other parts of the body
via the lymphatic system.
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As this system drains many
parts of the body,
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it also provides a large network
for the cancer.
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In addition, the lymphatic vessels empty
into the blood circulation,
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allowing the malignant cells to undergo
hematogenous spread.
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Once at a new site, the cells once again
undergo proliferation,
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and form small tumors known as
micrometastases.
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These small tumors then grow
into full-fledged tumors,
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and complete the metastatic process.
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Different cancers hae been known to have
specific sites of metastisis.
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For example, prostate cancer commonly
metastisizes to the bone,
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while colon cancer metastisizes
to the liver.
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Various theories have been proposed to
explain the migration pattern
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of malignant cells.
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Of particular interest are
two conflicting theories.
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Steven Paget, an English surgeon,
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came up with the seed and soil
theory of metastasis.
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The seed and soil theory stated that
cancer cells die easily
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in the wrong microenvironment,
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hence they only metastasize to a location
with similar characteristics.
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However, James Ewing, the first professor
of pathology at Cornell University,
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challenged the seed and soil theory,
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and proposed that the site of metastasis
was determined by the location
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of the vascular and lymphatic channels
which drain the primary tumor.
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Patients with primary tumors that were
drained by vessels leading to the lung
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would eventually develop lung metastases.
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Today, we know that both theories contain
valuable truths.
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Yet the full stories of metastasis is much
more complicated
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than either of the two proposed theories.
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Factors like the cancer cell's properties,
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and the effectiveness of the immune system
in eliminating the cancer cells,
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also play a role in determining
success of metastasis.
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Unfortunately, many questions about
metastasis remain unanswered until today.
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Understanding the exact mechanism holds
an important key
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to finding a cure for
advanced stage cancers.
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By studying both the genetic and
environmental factors,
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which contribute to successful metastasis,
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we can pinpoint ways to shut down
the process.
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The war against cancer is
a constant struggle,
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and scientists are hard at work developing
new methods against metastasis.
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Of recent interest is immunotherapy,
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a modality which involves harnessing the
power of the immune system
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to destroy the migrating cells.
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This can be done in different ways,
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such as training immune cells to recognize
cancerous cells via vaccines.
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The growth and activity
of the immune cells
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can also be stimulated by injecting
man-made interleukins,
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chemicals which are usually secreted by
the immune cells of the body.
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These two treatments are only the
tip of the iceberg.
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With the collaborated research efforts of
governments, companies and scientists,
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perhaps the process of metastasis will
be stopped for good.
closed TED
