The fiber optic sensor concurrently measures hydrogen peroxide and pH in solution,
and consists of a single optical fiber, the tip of which was
functionalized with a reactive fluorescent coating.
Researchers from the Australian Research Council's Centre for Nanoscale
BioPhotonics (CNBP) and the University of Adelaide believe the sensor
has the potential to be used across a range of biological applications,
but that it is particularly well suited to the IVF industry.
"Unregulated production of hydrogen peroxide by an embryo, as well as
fluctuating levels of pH, can indicate embryonic stress, impacting
embryo development," said doctoral student Malcom Purdey. "Our
state-of-the-art sensor is a single strand of optical fiber that is
completely noninvasive. It could be placed right next to the embryo,
causing no disruption to its development, monitoring critical stages of
the IVF process."
Current clinical examinations of such embryos are solely visually based,
the researchers said, and even recent prototype sensors require a
complicated setup involving multiple fibers, detectors and light
sources.
The single-fiber dual sensor could monitor multiple embryonic parameters
objectively with a single piece of technology, allowing better
understanding of the dynamic processes taking place at earliest stage of
life.
The sensor also has the potential for broader application as well.
"Hydrogen peroxide is an indicator of cell stress and possible illness,"
Purdey said. "In the future, our sensor could be used inside of the
body, to examine cells in the arteries to look for evidence of vascular
disease. It could also be used to aid cancer detection, too."
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