Scientists have, for the first time, designed and successfully tested a small skin patch that detected malaria proteins in live mice and could replace the traditional blood diagnostic test.
Drawing blood and testing it is standard practise for many medical diagnostics. As a less painful alternative, scientists are developing skin patches that could one day replace the syringe.
In the The American Chemical Society (ACS)'s journal Analytical Chemistry, a team of researchers report they have designed and successfully tested, for the first time, a small skin patch that detected malaria proteins in live mice.
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Simon R Corrie and colleagues note that while blood is rich with molecular clues that tell a story about a person's health, withdrawing it is often painful.
It also requires trained personnel and expensive lab equipment and facilities for analysis. These factors don't lend themselves to patient compliance or accessibility in resource-limited places.
Scientists have been trying to address these hurdles by developing diagnostic patches that are covered on one side with thousands of microscopic, hollow needles that can sample fluid in the skin.
But so far, these devices have only been able to test for one compound at a time. However, many diseases can be diagnosed more reliably by detecting multiple bio-markers. Corrie's team wanted to design a new patch that could meet this need.
The researchers optimised their device so it could capture two bio-markers for the malaria parasite, Plasmodium falciparum, which kills more than 1 million people every year.
To test it, they injected malaria proteins into the bloodstream of live mice and applied the patch to their skin. The patch successfully captured the proteins in the skin tissue.
Such devices, they conclude, could be used in the future to diagnose malaria and other infectious diseases in a less painful way.