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Study: Respiratory failure in COVID-19 usually not driven by cytokine storm

Findings indicate anti-inflammatory drugs likely to benefit only a fraction of people with severe disease

by Tamara BhandariNovember 13, 2020

Matt Miller

The turning point for people with COVID-19 typically comes in the second week of symptoms. As most people begin to recover, a few others find it increasingly difficult to breathe and wind up in the hospital. It has been theorized that those whose lungs begin to fail are victims of their own overactive immune systems.

A new study from Washington University School of Medicine in St. Louis and St. Jude Children’s Research Hospital in Memphis, Tenn., however, suggests that an out-of-control immune response is not the main problem for the vast majority of hospitalized COVID-19 patients. Only 4% of patients in the study had the sky-high levels of immune molecules that signify a so-called “cytokine storm.” The rest had inflammation, but not a remarkably high amount for people fighting infection. If anything, the COVID-19 patients had less inflammation than a comparable group of influenza patients.

The findings, published Nov. 13 in Science Advances, help explain why anti-inflammatory medications such as dexamethasone benefit only a fraction of people with severe COVID-19, and suggest that more research is needed to identify the causes of respiratory failure in COVID-19 patients.

“One of the very first papers published on COVID-19 patients in China reported high levels of cytokines in people in intensive care, what we might call a cytokine storm,” said co-senior author Philip Mudd, MD, PhD, an assistant professor of emergency medicine who sees patients at Barnes-Jewish Hospital. “We wanted to have a better idea of what this cytokine storm looked like, so we began looking for it in our patients, and we were very surprised when we didn’t find it. We found that cytokine storm does happen, but it’s relatively rare, even in the COVID-19 patients that go on to have respiratory failure and require a ventilator. But now this idea has gotten established that respiratory failure in COVID-19 is driven by cytokine storm, and lots of unproven anti-inflammatory treatments are being given to critically ill COVID-19 patients in an attempt to suppress the cytokine storm. That worries me because such treatments are unlikely to help most people with COVID-19.”

Before the pandemic, Mudd started investigating the immune response to influenza infection, using blood samples obtained, with consent, from flu patients who seek care in the Barnes-Jewish Hospital emergency department. In late March, as COVID-19 patients began filling the emergency department, Mudd and co-senior author Ali Ellebedy, PhD, an assistant professor of pathology and immunology and a fellow influenza expert, realized they could use the same approach to investigate how the immune response goes awry in severe cases of COVID-19.

The researchers analyzed immune cells and molecules in blood samples from 168 COVID-19 patients, 26 influenza patients and 16 healthy people. The samples were drawn from influenza patients in 2019 or 2020, and from COVID-19 patients and healthy controls this year. They also collected information about how each patient fared — whether a patient ended up needing intensive care or mechanical ventilation — and whether he or she survived. Along with Mudd and Ellebedy, the research team included co-senior author Paul Thomas, PhD, and co-first author Jeremy Crawford, PhD, both of St. Jude, among others.

The numbers of inflammatory cells in the blood of COVID-19 and influenza patients were about the same. Seven of the COVID-19 patients (4%) showed signs of a cytokine storm, with extremely high levels of cytokines even when compared to other severely ill patients. The majority of the COVID-19 patients with acute respiratory failure not only did not have a cytokine storm, they had less inflammation than influenza patients who were equally ill.

A few clinical trials have shown that some severely ill COVID-19 patients improve on steroid drugs such as dexamethasone that suppress inflammation. A meta-analysis published in September placed the percentage who benefit between 2% and 9%. Those results jibe with the findings of this study, Mudd said.

“It could be that the 4% of people who have cytokine storm are the ones who benefit from steroids in those clinical trials,” Mudd said. “I think our work helps explain why steroids help some people. But from our data, it doesn’t look like most COVID-19 patients have a deficiency of steroids. If you’re giving steroids to someone who already has a lot of steroids in their body, that might not be good for them.”

The key will be to find a way to identify the people at high risk for a cytokine storm when they first arrive at the hospital, so that steroid treatment can be appropriately targeted to the ones most likely to benefit and least likely to be harmed. The researchers ran a panel of routine lab tests — blood cell counts, measurements of common inflammatory markers — but could not find a signature of an impending cytokine storm. They are pursuing more in-depth analyses to find a way to predict who will develop a cytokine storm.

“The subjects in the cohort with the ‘true’ cytokine storm phenotype are such outliers immunologically compared to the others, it seems likely that there are significant differences in multiple immune pathways driving this phenotype,” Thomas said. “If we can identify features of those pathways that can be assessed quickly in a clinical setting, it could be useful for patient stratification.”

With cytokine storm largely ruled out, the cause of most cases of respiratory failure in COVID-19 patients remains unknown, Mudd said.

“In the population we studied, 24% died but only 4% had a cytokine storm,” Mudd said. “Most people who died of COVID-19 died without a cytokine storm. Severe flu is more inflammatory than severe COVID-19. So what’s causing their lungs to fail? We still don’t know. We’re trying to find out.”

Mudd PA, Crawford JC, Turner JS, Souquette A, Reynolds D, Bender D, Bosanquet JP, Anand NJ, Striker DA, Martin RS, Boon ACM, House SL, Remy KE, Hotchkiss RS, Presti RM, O’Halloran JA, Powderly WG, Thomas PG, Ellebedy AH. Distinct inflammatory profiles distinguish COVID-19 from influenza with limited contributions from cytokine storm. Science Advances. Nov. 13, 2020. DOI: 10.1126/sciadv.abe3024 

This work was supported by The Foundation for Barnes-Jewish Hospital; the National Institute of Allergy and Infectious Diseases of the National Institutes of Health (NIH), grant numbers R21 AI139813 and U01 AI141990; the Collaborative Influenza Vaccine Innovation Centers, contract number 75N93019C00051; National Institute of Allergy and Infectious Diseases Centers of Excellence for Influenza Research and Surveillance (CEIRS), contract number HHSN272201400008C; the St. Jude Center of Excellence for Influenza Research and Surveillance, contract number HHSN272201400006C; NIH, grant number R01AI121832; American Lebanese Syrian Associated Charities; and the National Center for Advancing Translational Sciences, grant number UL1TR002345 to the Washington University Institute of Clinical and Translational Sciences.

Washington University School of Medicine’s 1,500 faculty physicians also are the medical staff of Barnes-Jewish and St. Louis Children’s hospitals. The School of Medicine is a leader in medical research, teaching and patient care, ranking among the top 10 medical schools in the nation by U.S. News & World Report. Through its affiliations with Barnes-Jewish and St. Louis Children’s hospitals, the School of Medicine is linked to BJC HealthCare.

Tamara covers infectious diseases, molecular microbiology, neurology, neuroscience, surgery, the Institute for Informatics, the Division of Physician-Scientists and the MSTP program. She holds a double bachelor's degree in molecular biophysics & biochemistry and in sociology from Yale University, a master's in public health from the University of California, Berkeley, and a PhD in biomedical science from the University of California, San Diego. She joined WashU Medicine Marketing & Communications in 2016. She has received three Robert G. Fenley writing awards from the American Association of Medical Colleges: a bronze in 2020 for "Mind’s quality control center found in long-ignored brain area," a silver in 2022 for "Mice with hallucination-like behaviors reveal insight into psychotic illness," and a bronze in 2023 for "Race of people given Alzheimer’s blood tests may affect interpretation of results." Since January of 2024, Tamara has been writing under the name Tamara Schneider.