London, Feb 20 (PTI) Scientists from the UK and India have discovered a disposable diagnostic technology that uses paper folding, akin to origami, to process complex biochemical tests that can help farmers develop very low-cost diagnostics to improve the health of livestock.Also Read - Prayagraj Rape And Murder Case: Police Arrest Boyfriend On Charges Of Killing BA Student For Suspecting Affair
In a paper published in the journal ACS Sensors, biomedical engineers, veterinary scientists and bacteriologists from Britain and India describe how the procedure helped farmers in India identify three separate reproductive infections in cattle. Also Read - Zee Opinion Poll For Uttar Pradesh's Rohilkhand: BJP Expected Clean Sweep For 4 Seats In Pilibhit District
The new technique provides a new method for identifying Brucella, Leptospira and bovine herpes virus-1 infections, which are particularly prevalent in India, along with many other countries in Asia, Africa and South America. All three infections can affect livestocks reproductive organs, reducing fertility and resulting in loss of milk production, with a significant impact on agricultural output. Also Read - Uttar Pradesh Schools Closed Till February 15 Amid COVID Surge, Online Classes to Continue
“These folded pieces of wax-printed paper, which can be made using a standard printer, may look simple, but the unique properties of folded paper give us a highly reproducible method to capture samples and prepare them for testing,” said Dr Zhugen Yang, biomedical engineering research fellow at the University of Glasgow and the lead author of the paper.
“The tests we conducted on farms showed excellent results, which were as good as similar reproductive disease tests conducted in laboratory conditions. Its a very encouraging result which shows future promise for veterinary medicine,” said Yang, who undertook field trips to India.
Reproductive infections are difficult for farmers to diagnose through simple observation during the early stages, meaning infection can spread quickly during breeding season. Once infected cattle are identified, they must be destroyed, leading to disruptions in milk supply and incurring significant costs for farmers.
While there are molecular diagnostics tests currently available for these infections, they are time-consuming, expensive and require skilled technicians to administer them, meaning the tests cannot be undertaken in areas far from specialised facilities.
The new diagnostic technology, developed by researchers from the University of Glasgow, uses a commercially-available printer, which coats the paper in patterns made from water-resistant wax. When the paper is folded – like in the Japanese origami technique – the sample fluid is directed into channels in the pattern.
The folded-paper device enables the DNA of the pathogens to be detected, thus providing the ability to diagnose infections.
The technology was tested during two field trips to Izzatnagar in Uttar Pradesh, where the diseases have a particularly high prevalence.
Professor Jonathan Cooper, the University of Glasgows Wolfson Chair of Bioengineering, said: “Being able to quickly and affordably identify the most common reproductive diseases in cattle could help support agriculture in low- to middle-income countries.” “It could be of particular benefit in India, which is now the worlds largest dairy producer, contributing around 125 billion litres each year. Were very pleased with these results, and keen to move forward in making this technology available for vets and farmers in Asia, Africa and South America.” The new paper, titled Rapid Veterinary Diagnosis of Bovine Reproductive Infectious Diseases from Semen using Paper-Origami DNA Microfluidics, involved the team from the University of Glasgow collaborating with partners in the Indian Veterinary Research Institute and the Animal and Plant Health Agency in the UK.
The research was supported by funding from the Biotechnology and Biological Sciences Research Council (BBSRC), the Indian Governments Department of Biotechnology, the Engineering and Physical Sciences Research Council (EPSRC), and the European Research Council (ERC).
This is published unedited from the PTI feed.