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Flashes of Light Offer Potential for Biomedical Diagnostics

Date:
February 15, 2017
Source:
Biophysical Society
Summary:
Researchers were intrigued that living organisms emit small amounts of light resulting during oxidative metabolism, when oxygen is used to create energy by breaking down carbohydrates. The researchers began to think about how detecting this light could have potential for biomedical diagnostics.
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A group of researchers from the Czech Republic were intrigued that living organisms emit small amounts of light resulting during oxidative metabolism, when oxygen is used to create energy by breaking down carbohydrates. The researchers began to think about how detecting this light could have potential for biomedical diagnostics.

At the Biophysical Society's 61st Annual Meeting, being held Feb. 11-15, 2017, in New Orleans, Louisiana, Michal Cifra, head of the Bioelectrodynamics research team at the Institute of Photonics and Electronics, The Czech Academy of Sciences, will present the group's work within this realm.

"Any organism in which oxidation takes place is a source of endogenous chemiluminescence [the light originates from within]," said Cifra. "Light is also produced during the course of normal oxidative chemical reactions in the organism -- like those that occur during breathing -- without external stimulation of light or the addition of external luminescent probes," Cifra said.

By using sensitive light detection systems, Cifra and colleagues are capturing these weak light signals. "The endogenous chemiluminescence of organisms can act as natural 'reporters' of oxidative metabolism and oxidative stress," he said.

The group's work is significant because it presents a unique approach for monitoring oxidative stress -- it also happens to be label-free and noninvasive, and runs almost in real time. Cifra pointed out that, additionally, "our technique has a rather low operation cost because it doesn't require the addition of external chemical probes."

While several studies of imaging chemiluminescence from organisms have previously been carried out, until now no quantified imaging of the oxidative processes in human skin had been performed.

An imbalance of redox regulation and oxidative stress in humans is related to neurodegenerative diseases -- such as Alzheimer's and Parkinson's -- and inflammatory diseases like arthritis, and also plays a role in cancer development.

Convenient monitoring of oxidative stress might enable, when combined with other methods, early-stage diagnostics and tracking of these diseases. "Our technique is a convenient method for monitoring oxidative stress," Cifra noted. "To fully unleash its power, we need to further improve its sensitivity, and then obtain calibration data on patients and subjects of different skin types, health conditions, etc."

The researchers' goal now is to "develop the means to physically modulate and amplify the processes leading to endogenous chemiluminescence," Cifra said. "Such physical modulation, via electric fields, will give us control of the phenomenon. Pulsed electric fields delivered through micro or nanostructured on-skin chips -- with optical antenna functionality -- are the way to go to increase the sensitivity of the method."

2858-Pos/B465 "Non-invasive label-free imaging of oxidative processes in human skin" is authored by Michael Poplova, Eduard P.A. Van Wijk and Michal Cifra. It will be presented in a session at 10:30-12:30 p.m. Central Time on Wednesday, Feb. 15, 2017 in Hall B-2 & C of the Ernest N. Morial Convention Center.


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Biophysical Society. "Flashes of Light Offer Potential for Biomedical Diagnostics." ScienceDaily. ScienceDaily, 15 February 2017. <www.sciencedaily.com/releases/2017/02/170215121414.htm>.
Biophysical Society. (2017, February 15). Flashes of Light Offer Potential for Biomedical Diagnostics. ScienceDaily. Retrieved May 28, 2017 from www.sciencedaily.com/releases/2017/02/170215121414.htm
Biophysical Society. "Flashes of Light Offer Potential for Biomedical Diagnostics." ScienceDaily. www.sciencedaily.com/releases/2017/02/170215121414.htm (accessed May 28, 2017).

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