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Five School of Microbiology projects were funded under the SFI led COVID-19 Rapid Response Research and Innovation Programme.

30 Sep 2020

The Minister for Further and Higher Education, Research, Innovation and Science, Simon Harris, TD, announced today an investment of 鈧�5.5 million in 41 projects under the SFI led COVID-19 Rapid Response Research and Innovation Programme. Funding is focused on supporting projects which respond to the immediate and pressing needs of society arising from the pandemic.

鈥榃astewater 鈥� a key to tracking the COVID-19 at a whole-community level鈥�

A project led by Dr Niall O鈥橪eary in the School of Microbiology, UCC will explore the possibility of testing local wastewater and environmental sewage for the presence of the COVID-19 virus as a way to monitor prevalence in communities. The SARS-CoV-2 virus that causes COVID-19 can be present in the guts and faeces of infected people at high levels before they have noticeable symptoms of the disease. Currently it is estimated that 1 in 6 adults who are infected with the COVID-19 virus can have mild or no symptoms and yet pass the virus on to others. Such individuals may not be referred for diagnostic testing and their infection/transmission can go undetected. However, there is evidence that the virus can be present in the faeces of infected individuals from an early stage, whether or not they go on to develop COVID-19 symptoms. Thus testing for the virus in the wastewater network may help to increase our ability to rapidly detect emerging COVID-19 presence in a community. Testing sewage also offers a way to screen communities rather than individuals, widening the testing net.

Microbial clues to illness risk in COVID-19

The microbes that live in and on our body (microbiome) can have an impact on our immune responses and susceptibility to disease, so what roles do they play in COVID-19 infection? Professors Paul O鈥橳oole and Colin Hill School of Microbiology and APC Microbiome Ireland (APC) will analyse nose, throat, saliva and faecal samples from donors to see if they can find host microbiome states that are linked with developing severe illness in COVID-19. The research aims to develop a test that can predict an individual鈥檚 risk and allow clinicians to manage it accordingly. Such a test may also identify who needs priority for vaccination when a vaccine becomes available.

COVID-19, immune reactions and the gut connection

Patients with COVID-19 can become severely ill if their immune system over-reacts and damages their organs and tissues. This 鈥榗ytokine storm鈥� can be fatal. Preliminary research suggests that the gut microbiome might be involved 鈥� if gut bacteria cross the gut wall into the body, this could make the immune response even more severe.  Professor Liam O鈥橫ahony School of Microbiology and APC will look in blood serum from COVID-19 patients for early signs or markers that inflammation is starting to run out of control. He will also investigate whether gut bacteria could play a part in triggering this response. If the project can find signs in blood from COVID-19 patients that they are starting to mount an inappropriate immune response, it could give clinicians more opportunity to intervene. A link between the immune over-reaction and gut bacteria could identify new ways to select patients at risk and find new ways to protect them.

Using saliva to diagnose and monitor COVID-19

At present, if you go for a test to see if you have the COVID-19 virus, you will likely have a swab taken from the back of your nose and throat. It鈥檚 an uncomfortable procedure, and the person taking the sample needs to be trained in how to collect the swabs, and needs to be wearing PPE.  The team (Dr John MacSharry, School of Microbiology and APC; Dr Corrina Sadlier (Cork 深夜亚洲福利久久 Hospital), Dr Kate Reddington (NUI Galway) and Dr Sinead Corr (Trinity College Dublin) is exploring a less invasive approach to testing for the presence of the virus in saliva (spittle). By testing saliva samples from patients, whose nose and throat swabs have tested positive for the presence of the virus, the researchers will evaluate tests to detect the virus in saliva, and will track levels of the virus in saliva over time.  It is hoped this project will develop less invasive tests that would allow people provide saliva they collect at home and send them in for analysis, reducing the personnel and personal and protective equipment needed for testing. Saliva samples could also be pooled for rapid screening of groups. This will support local and national public health responses by detecting clusters of transmission as they arise, and it will help to contain future secondary outbreaks.

Sniffing out the COVID-19 virus in the air

As we learn to live with COVID-19, we need to monitor the presence of the virus in order to slow its spread. This project will monitor air in crowded places for signs of the SARS-CoV-2 virus in airborne particles breathed out by infected people. The team, lead by Professor Michael Prentice, School of Microbiology and APC with Dr Mair茅ad Harding, Dr Stig Hellebust, Professor Colin Hill, School of Microbiology and APC, Professor John Wenger, Dr Liam Fanning, UCC, Dr David O鈥機onnor, Technological 深夜亚洲福利久久 Dublin and Dr Gareth Griffiths, 深夜亚洲福利久久 of Aberystwyth, UK,  will collect air samples for laboratory testing for the SARS-CoV-2 virus, and at the same time use monitors which take detailed measurements of airborne particles in real time.   By monitoring the air for the COVID-19 virus, the research will give an idea of how much virus is circulating at any time, without the need to test individuals. The team will also learn the particle characteristics of indoor environments which carry most risk of transmission. Knowing this, they could provide an early warning system for conditions where people are at higher risk of being exposed. The same underlying technology could be applied to other airborne viruses.

Announcing the awards Minister Harris, said: 鈥淩esearch, development and innovation will play a significant role in tackling the COVID-19 pandemic. The 41 projects announced today are part of a national drive to find solutions to the challenges we face now, and to help us prepare to live in a changing environment that requires new thinking and innovative approaches. I would like to congratulate all of the researchers receiving funding today and thank them for their efforts in Ireland鈥檚 collective response to COVID-19.鈥�

The COVID-19 Rapid Response Research, Development and Innovation programme was established by SFI, Enterprise Ireland, IDA Ireland, the Health Research Board and Irish Research Council.

Today鈥檚 announcement builds on SFI鈥檚 previous investment of 鈧�8 million across 17 COVID-19 research and innovation projects.  All of the projects funded have been internationally peer reviewed at the assessment stage.