Smartphones can tell if you are pregnant: Study

Smartphones can tell if you are pregnant: Study
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Smartphones Can Tell If You Are Pregnant: Study. Researchers have developed a self-contained fibre optic sensor for smartphones that can be used in a wide variety of biomolecular tests, including those for detecting pregnancy or monitoring diabetes.

London: Researchers have developed a self-contained fibre optic sensor for smartphones that can be used in a wide variety of biomolecular tests, including those for detecting pregnancy or monitoring diabetes.

The readings of the sensor can run through an application on a smartphone which provide real-time results.

"When properly provisioned, the smartphone-user has the ability to monitor multiple types of body fluids, including: blood, urine, saliva, sweat or breath," said the researchers from University of Hanover, Germany.

The sensor uses the optical phenomenon of surface plasmon resonance (SPR) -- which occurs when light causes electrons on the surface of a thin film to jostle -- to detect the composition of a liquid or the presence of particular biomolecules or trace gases.

"We have the potential to develop small and robust lab-on-a-chip devices for smartphones. So, surface plasmon resonance sensors could become ubiquitous now," said study co-author Kort Bremer.

In case of medical applications, the sensor readings can be combined with the Global Positioning System (GPS) signal of a smartphone and users can then be guided to the next drug store, hospital or the ambulance.

Surface plasmon resonance is a phenomenon commonly used for biosensing, but typically requires bulky lab equipment involving both a light detector and light source.

Fortunately, smartphones already have both of these, allowing the minimalist, U-shaped device the researchers designed to consist solely of a 400-micrometer diameter core multimode fibre with a silver-coated sensing region.

In subsequent experiments, the sensitivity of the device was tested using various concentrations of glycerol, and the team confirmed it was on par with current equipment, at a fraction of the cost and size.

The results appeared in the journal Optics Express.

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