- TOKYO — Researchers from Tokyo Metropolitan University in Japan on
Saturday said they have found that the motion of unlabelled cells can be used
to tell whether they are cancerous or healthy.
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- They observed malignant fibrosarcoma cells and healthy
fibroblasts on a dish and found that tracking and analysis of their paths can
be used to differentiate them with up to 94 per cent accuracy.
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- Beyond diagnosis, their technique may also shed light on
cell motility related functions, like tissue healing, according to the study
published in the journal PLOS One.
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- The team of researchers, led by Professor Hiromi Miyoshi,
came up with a way of tracking cells using phase-contrast microscopy, one of
the most common ways of observing cells.
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- Phase-contrast microscopy is entirely label free, allowing
cells to move about on a petri dish closer to their native state, and is not
affected by the optical properties of the plastic petri dishes through which
cells are imaged.
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- Through innovative image analysis, they were able to extract
trajectories of many individual cells. They focused on properties of the paths
taken, like migration speed, and how curvy the paths were, all of which would
encode subtle differences in deformation and movement.
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- As a test, they compared healthy fibroblast cells, the key
component of animal tissue, and malignant fibrosarcoma cells, cancerous cells
which derive from fibrous connective tissue.
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- They were able to show that the cells migrated in subtly
different ways, as characterised by the “sum of turn angles” (how curvy the
paths were), the frequency of shallow turns, and how quickly they moved. In
fact, by combining both the sum of turn angles and how often they made shallow
turns, they could predict whether a cell was cancerous or not with an accuracy
of 94 per cent.