Saturday, February 7, 2015

Smartphone accessory diagnoses HIV and syphilis in 15 minutes


A new smartphone accessory capable of diagnosing HIV and syphilis has been developed and successfully field-tested in Rwanda.

HIV testing document with a pen.
The smartphone accessory needs only a finger prick of blood and 15 minutes to detect three infectious disease markers.
Powered by the energy from a smartphone, the device can simultaneously detect three infectious disease markers from only a finger prick of blood. 
The test takes 15 minutes and is the first instance of a device being created capable of replicating all the electronic, mechanical and optical functions of a lab-based blood test.
HIV and syphilis are most common in parts of the developing world, where access to health care may be more limited. 
The creation of a cheap and portable method of diagnosis that does not rely on laboratory facilities could be truly groundbreaking.
Coupling microfluidics with recent advances in consumer electronics can make certain lab-based diagnostics accessible to almost any population with access to smartphones. This kind of capability can transform how health care services are delivered around the world.
Infected women can pass HIV and syphilis on to their unborn children during pregnancy, which can lead to stillbirth or birth defects. Early identification of these diseases can reduce the spread of infection and prevent or slow the rate of these diseases' most harmful symptoms.
Some of the benefits of the new accessory, commonly referred to as a dongle:
"By increasing detection of syphilis infections, we might be able to reduce deaths by 10-fold. And for large-scale screening where the dongle's high sensitivity with few false negatives is critical, we might be able to scale up HIV testing at the community level with immediate antiretroviral therapy that could nearly stop HIV transmissions and approach elimination of this devastating disease."
The dongle is both lightweight and small enough to fit into one hand. It runs assays on disposable plastic cassettes that contain reagents - the substances required for chemical analysis.
Specific care was made to ensure that the dongle has low power consumption. Power and data are transmitted to the accessory through the standard audio jack of a smartphone, and a power-consuming electrical pump was replaced with a "one-push vacuum" to mechanically move the pre-loaded reagents on the cassettes.

Vast majority of patients involved in the pilot would recommend the device

The researchers estimate that the completed dongle will carry a manufacturing cost of $34, significantly lower than the $18,450 cost of the equipment runs typical of this form of diagnostic testing.
Health care workers in Rwanda piloted the dongle, testing the blood obtained from 96 patients seen at disease transmission prevention centers, voluntary counseling or testing centers. The work is published in Science Translational Medicine.
Thirty minutes of training were provided on how to use the dongle, including user-friendly resources to guide the health care workers through the process of using the device and recording its results.
The researchers report that 97% of the patients tested with the dongle said they would recommend it on account of its ability to diagnose multiple diseases, fast turn-around times and how simple it was to use.
The research developers are really excited about the next steps in bringing this product to the market in developing countries. And they are equally excited about exploring how this technology can benefit patients and consumers back home.
This innovative new device could help bring diagnostic testing out of the laboratories and straight to the poorest and most vulnerable people across the world - a truly exciting prospect.
Last year,another team of research developers reported on a smartphone device that can perform blood tests, potentially improving the quality of life for people being treated for the prevention of blood clots.
References:
Columbia Engineering news release, accessed 4 February 2015.

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