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Coronavirus nanoscience: the tiny technologies tackling a global pandemic

(Nanowerk News) The world-altering coronavirus behind the COVID-19 pandemic is thought to be just 60 nanometres to 120 nanometres in size (read more: Journal of Advanced Research, ). This is so mind bogglingly small that you could fit more than 400 of these virus particles into the width of a single hair on your head. In fact, coronaviruses are so small that we can抰 see them with normal microscopes and require much fancier electron microscopes to study them. How can we battle a foe so minuscule that we cannot see it?
One solution is to fight tiny with tiny. Nanotechnology relates to any technology that is or contains components that are between 1nm and 100nm in size. Nanomedicine that takes advantage of such tiny technology is used in everything from plasters that contain anti-bacterial nanoparticles of silver to complex diagnostic machines.
Nanotechnology also has an impressive record against viruses and has been used since the late 1880s to separate and identify them. More recently, nanomedicine has been used to develop treatments for flu, Zika and HIV. And now it抯 joining the fight against the COVID-19 virus, SARS-CoV-2.

Diagnosis

If you抮e suspected of having COVID, swabs from your throat or nose will be taken and tested by reverse transcription polyrase chain reaction (). This method checks if genetic material from the coronavirus is present in the sample.
Despite being highly accurate, the test can take up to three days to produce results, requires high-tech equipment only accessible in a lab, and can only tell if you have an active infection when the test is taken. But antibody tests, which check for the presence of coronavirus antibodies in your blood, can produce results immediately, wherever you抮e tested.
are formed when your body fights back against a virus. They are tiny proteins that search for and destroy invaders by hunting for the chemical markers of germs, called antigens. This means antibody tests can not only tell if you have coronavirus but if you have previously had it.
use nanoparticles of materials such as gold to capture any antibodies from a blood sample. These then slowly travel along a small piece of paper and stick to an antigen test line that only the coronavirus antibody will bond to. This makes the line visible and indicates that antibodies are present in the sample. These tests are and can give results within 15 minutes.
This video gives you some background about value of antibody tests, and specifically for SARS-CoV-2 antibodies. How does an anitbody test work? Have a look at this explanatory video to learn more.

Vaccines and treatment

A major turning point in the battle against coronavirus will be the development of a successful vaccine. Vaccines often contain an inactive form of a virus that acts as an antigen to train your immune system and enable it develop antibodies. That way, when it meets the real virus, your immune system is ready and able to resist infection.
But there are some limitations (read more: Frontiers in Immunology, ) in that typical vaccine material can prematurely break down in the bloodstream and does not always reach the target location, reducing the efficiency of a vaccine. One solution is to enclose the vaccine material inside a nanoshell by a process called encapsulation (read more: EXCLI Journal, ).
These shells are made from fats called lipids and can be , which is 50,000 times thinner than an egg shell. The nanoshells protect the inner vaccine from breaking down and can also be that target specific cells to make them more effective at delivering their cargo.
This can improve the immune response of elderly people to the vaccine (read more: ACS Nano, ). And critically, people typically need lower doses of these encapsulated vaccines to develop immunity, meaning you can more quickly produce enough to vaccinate an entire population (read more: Trends in Immunology, ).
Encapsulation can also improve viral treatments. A major contribution to the deaths of virus patients in intensive care is 揳cute respiratory distress syndrome? which occurs when the immune system produces an excessive response (read more: ACS Nano, ). Encapsulated vaccines can target specific areas of the body to deliver immunosuppressive drugs directly to targeted organs and helping regulate our immune system response.

Transmission reduction

It抯 hard to exaggerate the importance of wearing face masks and washing your hands to reducing the spread of COVID-19. But typical face coverings can have trouble stopping the most penetrating particles of respiratory droplets, and many can only be used once.
New fabrics made from nanofibres 100nm thick and coated in titanium oxide can catch droplets smaller than 1,000nm and so they can be destroyed by ultraviolet (UV) radiation from sunlight. Masks, gloves and other personal protective equipment (PPE) made from such fabrics can also be washed and reused, and are more breathable.
Close-up of intricately woven fibres
New fabrics made from coated nanofibres could produce better PPE. (Image: AnnaVel/Shutterstock)
Another important nanomaterial is graphene, which is formed from a single honeycomb layer of carbon atoms and is 200 times stronger than steel but lighter than paper. Fabrics laced with graphene can capture viruses and block them from passing through. PPE containing graphene could be more puncture, flame, UV and microbe resistant while also being light weight.
Graphene isn抰 reserved for fabrics either. Nanoparticles could be placed on surfaces in public places that might be particularly likely to facilitate transmission of the virus (read more: Current Research in Green and Sustainable Chemistry, ).
These technologies are just some of the ways nanoscience is contributing to the battle against COVID-19. While there is no one answer to a global pandemic, these tiny technologies certainly have the potential to be an important part of the solution.
Source: By , PhD Candidate in Chemistry, Cardiff University
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