Hunting molecules that signal pain

Hunting molecules that signal pain
Pain self-assessments are naturally subjective. An independent pain measure will help treatment. Credit: Jim De Ramos

A new microscope-based method for detecting a particular molecule in the spinal cord could help lead to an accurate and independent universal pain scale, research from Australia's Macquarie University suggests.

An accurate way of measuring pain is of critical importance because at present degrees of discomfort are generally assessed by asking a patient to estimate pain on a one-to-10 scale. The situation is even more acute in the treatment of babies, the very old and animals, where speech is absent.

Now, researchers led by Dr. Lindsay Parker may have come up with a solution.

"Even though pain can feel widespread in our bodies, the that actually make us feel it are hard to find and quantify," she says.

"By using a fluorescent chemical that has and a microscope adapted to see this chemical in the dimension of time instead of color, we were able to see genes involved in chronic pain-related inflammation with a much greater sensitivity than the ways we normally see molecules on a regular microscope."

These findings will help researchers identify hard-to-find molecules that correlate to levels of pain, providing for the first time a measure that does not depend on self-reporting or a clinician's best guess.

Dr. Parker and her colleagues—which include researchers from the University of Adelaide—hope that their work will lead to the development of the world's first simple lab-based test for determining levels of .

The most recent research is published in the Journal of Neuroinflammation.

More information: Lindsay M. Parker et al. Visualizing neuroinflammation with fluorescence and luminescent lanthanide-based in situ hybridization, Journal of Neuroinflammation (2019). DOI: 10.1186/s12974-019-1451-2

Journal information: Journal of Neuroinflammation
Citation: Hunting molecules that signal pain (2019, December 16) retrieved 20 May 2024 from
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