Kawasaki-like disease affecting children IS caused by the coronavirus and can only be diagnosed by antibody tests, scientists confirm

Exclusive: Kawasaki-like disease affecting children is caused by coronavirus. Symptoms emerge several weeks after infection with SARS-CoV-2. Children do not test positive using lab-based PCR tests used to spot COVID-19. But they have already developed antibodies to the SARS-CoV-2 virus and therefore can be diagnosed with infection using antibody tests  

Scientists have found the first clear evidence that infection with coronavirus causes the Kawasaki-like inflammatory condition affecting children. 

A study of eight children admitted to a Birmingham hospital with the condition reveals they were infected with the SARS-CoV-2 virus several weeks before showing symptoms. 

All of the children tested negative in the traditional lab-based test used to diagnose COVID-19 in adults.

However, a custom-built antibody test revealed the young patients had been infected with the coronavirus and produced antibodies to fight off the pathogen.  

Doctors who treated the children say antibody tests are the only way to accurately identify the presence of the virus in children suffering with the hyperinflammatory condition, which can be fatal.

It remains unknown why the syndrome develops weeks after infection, but scientists believe it may be due to a severe overreaction from the body’s own immune system. 

This ‘immune-mediated pathology’ causes the immune system to go haywire and can cause damage to the body’s own cells.

A similar phenomenon has been seen in adults, and it can be fatal to the sickest patients. 

The syndrome affecting children has been tentatively called PIMS-TS, for ‘paediatric inflammatory multisystem syndrome temporally associated with SARS-CoV-2’. 

However, the British scientists say the condition’s definition is incorrect as it is not ‘temporally associated’ with the pandemic but is instead ‘triggered by SARS-CoV-2 infection’. 

The Kawasaki-like condition is a form of toxic shock syndrome which causes the body’s immune system to attack its own organs

WHAT DO WE KNOW ABOUT THE SYNDROME? 

WHAT SYMPTOMS DOES IT CAUSE? 

The majority of the children being hospitalised with the condition have suffered from a high fever for a number of days, severe abdominal pain and diarrhoea.

Some develop a rash and red eyes or red lips, while a very small group go into shock, in which the heart is affected and they may get cold hands and feet and have rapid breathing. 

The symptoms are similar to those caused by Kawasaki disease, a rare but treatable condition that affects around eight in every 100,000 children each year in the UK. 

WHEN DID OFFICIALS FIRST START TO SEE CASES?

The NHS sent an alert to doctors on April 27, warning them to look out for signs of the syndrome. 

At the time they said cases had been appearing in tiny numbers in London for about three weeks. Since then they have spread further across the country and between 75 and 100 children are known to have been infected. 

IS IT CAUSED BY SARS-COV-2, THE CORONAVIRUS?

Doctors are almost certain the illness is being caused by the coronavirus but they haven’t yet been able to prove it. 

Cases began appearing as the UK’s coronavirus outbreak hit its peak and similar conditions have been reported in China and Italy during the pandemic.

However, not all children with the Kawasaki-like syndrome test positive for the virus. Swab testing has suggested some of the children have not been infected with COVID-19 at the time they were ill.

But all patients have tested positive for antibodies, doctors said, meaning they have had the coronavirus in the past.

They said this suggests it is a ‘post-infectious phenomenon’ which is caused by a delayed overreaction of the immune system, which may happen weeks or even up to a month after the child was infected with COVID-19. 

IS IT TREATABLE? 

Yes. All but one of the children who have been diagnosed with the syndrome have survived. The only child known to have died with it, a 14-year-old boy, died of a stroke that was triggered by the life support machine he was on.

Doctors are currently treating the condition by using medications to calm down the immune system and dampen the overreaction.

Dr Liz Whittaker, a paediatrician at Imperial College Healthcare in London, said the sickest children are usually very ill for four to five days and begin to recover a couple of days after starting treatment.

A team of scientists led by Dr Alex Richter and Professor Adam Cunningham of the University of Birmingham studied eight young patients who were admitted to hospital between April 28 and May 8. 

Lab tests — which are used to identify COVID-19 and also to screen healthcare workers — came back negative for all eight individuals. 

These tests, called PCR tests, are extremely reliable and are ‘the nearest to a gold standard for determining active infection’.

Professor Adam Cunningham, who led on the research alongside Dr Alex Richter and Dr Barney Scholefield, told MailOnline: ‘The PCR picks up the presence of the virus itself, so the virus needs to be present at the site in the throat where the sample (usually a throat swab is taken). 

‘If you clear the infection then there will not be virus there to detect. 

‘In response to infections, we often make antibodies, and these are usually detectable from 14 days after the first time you are infected. 

‘These antibody responses often persist in the body for months and often many years afterwards.’

The average age of the children admitted to hospital was nine years old and five of the patients were boys. 

Seven of the patients showed symptoms of both hyperinflammation and Kawasaki disease.

One of the patients was expressing symptoms of hyperinflammation as well as some signs of toxic shock syndrome.  

The mysterious and dangerous condition is being described by top medical professionals as very rare and symptoms can include fever, abdominal pain, rashes and red lips and eyes.

A very small group go into shock, in which the heart is affected, and they may get cold hands and feet and have rapid breathing.   

Of the eight children treated in Birmingham and studied as part of this landmark research, all patients had fever and at least one gastrointestinal symptom such as abdominal pain, vomiting and diarrhoea.

Six of the patients required admission into paediatric intensive care due to heart-related issues and low blood pressure brought on by the disease.

All showed positive signs after treatment and have since been discharged from ICU.

Due to the reports in the media and claims from leading advisers and prominent politicians that this condition may be linked to the coronavirus pandemic, the researchers took blood samples for analysis from all eight children.  

They then developed an custom antibody test with the help of researchers at the University of Southampton.

The test involves making an artificial copy of a key protein on the surface of the coronavirus which looks like a spike.

This unique ‘spike’ is a key identifier of the killer virus and was first revealed in detail by Professor Max Crispin of the University of Southampton.

He modelled the protein’s surface spikes and this has allowed his team to produce an almost exact copy of the spike.  

In the Birmingham hospital, this artificially created version of the protein spike was mixed with blood samples from the patients. 

The researchers saw that some antibodies in the blood of the children bound to the spike, in the same way they would if the virus itself was invading.  

In the tests, researchers looked to see which of three different immunoglobulins (the technical name for an antibody) – IgG, IgA and IgM – locked onto the imitation virus. 

A positive IgM reading in the tests indicates a recent infection whereas a positive reading for IgG and IgA shows an older infection, the scientists say.

The children in the Birmingham hospital had no IgM antibodies but did have IgG and IgA antibodies, showing that they were infected with SARS-CoV-2 several weeks previously.

This time delay is the reason the PCR test did not detect the infection, the researchers say. 

Originally Publish at: https://www.dailymail.co.uk/

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