A smartphone-controlled, battery-operated diagnostic device that claims to detect Zika, dengue and chikungunya within 30 minutes has been developed by researchers including one of Indian origin.
The device costs only $100 and could enable care providers to test quickly for all three at the same time, preventing misdiagnoses.
Developed by the team at Sandia National Labs, part of the US Department of Energy, the device is based on the loop-mediated isothermal amplification (LAMP) diagnostic method which eliminates the need to process a biological sample such as blood or urine, before testing.
"In addition to creating an app that serves as a simple interface to operate the device, we were able to adapt smartphone camera sensors to replace traditional laboratory sample analysis tools, allowing for unprecedented mobility," said Aashish Priye, chemical engineer and lead author of the paper.
LAMP also eliminates the need for extra sample preparation before testing.
"We`ve demonstrated that the chemistry we`re using can amplify viral RNA directly from raw, unprocessed samples," said Sandia chemical engineer and project lead Robert Meagher.
Meagher and his team developed a technique known as quenching of unincorporated amplification signal reporters (QUASR), that involves tagging fragments of synthesised viral DNA called primers with fluorophores - molecules that emit bright light signals.
QUASR then causes samples containing viral DNA/RNA to appear bright, while negative reactions remain dark.
For the Zika project, Meagher`s team developed a novel algorithm that allows a smartphone sensor to act as a fluorimeter, detecting QUASR LAMP light signals if they appear.
LAMP works so simply that the user need only place the smartphone on top of the LAMP box and open an app. The app turns on the heater to initiate the LAMP reaction.
This smartphone-based image analysis offers much greater detection certainty than the lab technician`s naked eye, the authors said.
By enabling diagnosis in 30 minutes, Sandia`s prototype diagnostic tool could help clinicians make faster decisions about patient care and isolation, and rapidly alert public health authorities so they can take measures to prevent spread of the virus.
The same tool can also be adapted to detect other human or animal pathogens.
Zika, dengue and chikungunya are spread by the same mosquito type and have similar early symptoms, and are on the rise globally.
Zika virus has been linked to severe fetal abnormalities, including microcephaly and congenital blindness, as well as neurological disorders that can strike people at any age
The team at Sandia described the rapid-testing prototype in a paper published in the journal Scientific Reports.