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Researchers are developing fast, accurate tests to detect viruses like SARS-COV-2

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Researchers at the University of Central Florida have developed a device that detects viruses such as SARS-COV-2 in the body more accurately and as quickly as the rapid detection tests commonly used today.


Optical sensors use nanotechnology to accurately identify viruses in seconds. Blood sample..Researchers say the device can tell if someone has it with 95% accuracy virusSignificant improvements to the current rapid testing, which experts warn, may be less accurate. Testing for the virus is important for early treatment and prevention of the spread of the virus.

The results are detailed in a new study in the journal Nano letter..

Researchers tested the device with a sample of dengue virus, a mosquito-borne pathogen that causes dengue fever and poses a threat to people in the tropics. However, this technology can be easily adapted to detect other viruses such as SARS-COV-2, says Debashis Chanda, a professor at UCF’s NanoScience Technology Center, co-author of the study. ..

“High-sensitivity optical sensors, along with the rapid manufacturing approach used in this task, can transform this promising technology with a high degree of specificity and accuracy for detection of any virus, including SARS-COV-2 and its mutations. I promise, “says Chanda. “Here we have demonstrated a reliable technique that combines a genetic code such as PCR with an optical system on a chip to accurately detect the virus directly from the blood.”

This device closely matches the accuracy of gold standard PCR-based tests, but with near-instantaneous results rather than days of reception. Its accuracy is significantly improved over the current rapid antigen test warned by the U.S. Food and Drug Administration and the Centers for Disease Control and Prevention, and is inaccurate if the viral load is low or if the test instructions are not followed correctly. Results may occur.

The device works with a gold nanoscale pattern that reflects the virus’s signature that is set to detect on blood samples. Different viruses can be detected by using different DNA sequences that selectively target a particular virus.

The key to device performance is the ability to detect viruses directly from blood samples without the need for sample preparation or purification. This speeds up testing and improves accuracy.

“Most of the biosensor demonstrations in the literature use buffers as a test matrix to contain targeted analytes,” says Chanda. “But these approaches are not practical in real-world applications. Complex body fluids containing target biomarkers, such as blood, are the main cause of sensing, while at the same time the main cause of protein contamination leading to sensor failure. Because it is the cause. “

Researchers have confirmed the effectiveness of the device in multiple tests using different viral concentration levels and solution environments, including the presence of non-target viral biomarkers.

Abraham Vázquez Guardard, a postdoc at Northwestern University who was the lead author of the study and worked as a postdoctoral student in Chanda’s lab, said he was excited about the possibility.

“There was a previous demonstration of optical biosensing with human serum, but it requires offline complex and dedicated sample preparation by skilled personnel. This is a product not available in regular point of care applications.” Vazquez-Guardado says. “This study demonstrates for the first time an integrated device that separates plasma from blood and detects target viruses without pretreatment, with potential for practical use in the near future.”

According to Chanda, the next step in the study will include adapting the device to detect more viruses.


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For more information:
Abraham Vázquez-Guardado et al., DNA-modified plasmon sensor for detecting viral biomarkers directly from blood, Nano letter (2021). DOI: 10.1021 / acs.nanolett.1c01609

Quote: The researchers obtained SARS-COV-2 (2021, November 29, 2021) from https: //phys.org/news/2021-11-rapid-highly-accurate-viruses- on November 29, 2021. ) Develop fast and accurate tests to detect viruses like. sars-cov-.html

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Researchers are developing fast, accurate tests to detect viruses like SARS-COV-2

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