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Blood Test Could Track Immune Response to COVID-19

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A highly detailed analysis of the composition of immune cells in the blood of patients with COVID-19 reveals new aspects of how the SARS-CoV-2 coronavirus causes disease.

This could help doctors predict at an early stage who might need additional treatments or critical care, and could guide treatment strategies.

Researchers at the Francis Crick Institute, King’s College London and Guy's and St Thomas' NHS Foundation Trust, are looking at patients’ blood to see how the immune system responds to coronavirus and how the virus ‘throws a spanner’ into the immunological works.

Based on the detailed preliminary analysis of 60 COVID-19 patients at St Thomas’ Hospital, the team has identified an ‘immunological signature’ of the disease. Within this, a small set of factors, or clues, could be used to identify the patients most likely to do worse and require additional treatment.*

In their preliminary analysis, the team have identified two prominent clues - an overt dysregulation in a specific type of T cell that ordinarily eradicates virus-infected cells, and a dramatic loss of immune cells called basophils that can be involved in tissue repair.   

Project lead Adrian Hayday, who heads the Crick’s Immunosurveillance Laboratory and is Professor of Immunobiology at King’s College London, said: “The changes we’ve observed in the blood are not subtle and patients with these features seem more likely to experience severe disease, requiring intensive management.”

The team hopes that a blood test with this high level of resolution could be more broadly applied in hospitals to seek early indications of patient condition, and to effectively help prioritise treatments.**

This insight into how COVID-19 affects the body could also help inform studies looking to develop effective treatments and vaccines. For example, if scientists can uncover how the virus perturbs the workings of essential T cells, they could prioritise immune treatments and vaccines that promote those T cell activities.

Professor Hayday continued: “There’s a lot we still don’t know about this virus, but we have seen that it doesn’t simply discriminate according to age and underlying condition. Although in smaller numbers, younger, healthy individuals can also be struck down with severe symptoms.

“The dedication of scientists and medical professionals, drawn from many different countries, who have come together to tackle this issue is incredible, and the speed that they have been able to gather these results is unprecedented.

“We need to be at a point where clinical treatment decisions can be guided by the state-of-the-art knowledge of the immune system. Indeed, this is why we’re making our data rapidly and freely available so that it can be used across the world by those investigating new avenues for treatment.”

As part of the ongoing study called COVID-IP, patients at Guy’s and St Thomas' who have agreed to donate to an infectious disease biobank, provide regular blood samples during their treatment for COVID-19. These are processed in secure containment at Guy’s Hospital before the composition and properties of immune cells are analysed in the team’s laboratories at King’s College London and at the Crick.

The perturbation of specific types of T cells observed so far suggests that in some patients, the virus is skewing the immune response and simply knocking out one of the body’s most critical natural defences.

When patients can’t mount an effective T cell response, there aren’t enough immune cells to clear the body of virus-infected cells. And as this situation persists and worsens, the remaining immune cells can become misguided, themselves causing damage to the lungs and other vital organs.

Manu Shankar-Hari, Reader and Consultant in Intensive Care Medicine at King’s College London, consultant in intensive care medicine at Guy’s and St Thomas’ NHS Foundation Trust, and NIHR Clinician Scientist said: “We routinely measure white blood cell counts, including lymphocyte and basophil counts in all hospitalised patients. Clearly, our new COVID-IP study highlights the enormous potential to measure the status of very specific types of immune cell involved in fighting the virus.

“Moreover, the study’s identification of detailed T cell deficits offers strong support for an international clinical trial in which we provide patients with recombinant IL-7, a natural drug that promotes T cell function.  The trial has been designated an Urgent Public Health COVID-19 Trial by the Chief Medical Officer.”


*This article is based on research findings that are yet to be peer-reviewed. Results are therefore regarded as preliminary and should be interpreted as such. Find out about the role of the peer review process in research here. For further information, please contact the cited source.

**Lymphocyte and basophil counts are currently part of a patient’s tests during hospital treatment for COVID-19, but a more sensitive and granular method of analysis is needed to optimally inform treatment. The team hope their detailed analysis will give doctors a more accurate indication of what’s happening to the patients’ immune systems.

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.