Drug That Calms 'Cytokine Storm' Linked to Lower Risk of Death Among COVID-19 Patients on Ventilators
Critically ill COVID-19 patients who received a single dose of a drug that calms an overreacting immune system were 45% less likely to die overall, compared with those who didn't receive the drug, according to a new University of Michigan study.
And they were more likely to be out of the hospital or off a ventilator one month after treatment, the research shows.
The lower risk of death in patients who received intravenous tocilizumab happened despite the fact that they also had twice the risk of developing an additional infection, on top of the novel coronavirus.
The study, published in the peer-reviewed journal Clinical Infectious Diseases after being available as a preprint last month, suggests a benefit from timely and targeted efforts to calm the "cytokine storm" caused by the immune system's overreaction to the coronavirus. Tocilizumab, originally designed for rheumatoid arthritis, has already been used to calm such storms in patients receiving advanced immunotherapy treatment for cancer.
The U-M researchers base their conclusions on a thorough look back at data from 154 critically ill patients treated at Michigan Medicine, U-M's academic medical center, during the first six weeks of the pandemic's arrival in Michigan from early March to late April. The analysis looked at patients' records through late May.
During that time, when little was known about what would help COVID-19 patients on ventilators, about half of the studied patients received tocilizumab and half did not. Most received it within the 24-hour period surrounding their intubation.
This created a natural opportunity to compare the two groups' outcomes in an observational study, though clinical trials are still needed to truly see if the drug provides a benefit, the researchers say.
Lead author Emily Somers, an epidemiologist who has studied both rheumatologic and immunologic diseases, says the research team went into their analysis uncertain whether they would find a benefit, a risk or no clear effect associated with tocilizumab in the patients with life-threatening COVID-19. But they knew it was a critically important question that they were uniquely positioned to answer at that point in the pandemic.
"One role of epidemiology is to rigorously evaluate real-world data on treatment effects, especially when evidence from clinical trials is not available," she said. "We kept trying to prove ourselves wrong as signals of benefit emerged in the data, both because of the immediate implications of these data and in part because of concern about the supply of the medication for other patients. But the difference in mortality despite the increase in secondary infection is quite pronounced, even after accounting for many other factors.”
Somers is an associate professor in the U-M Medical School’s Department of Internal Medicine and member of the U-M Institute for Healthcare Policy and Innovation. She co-leads the COVID-19 Rapid Response Registry, which is supported by the Michigan Institute for Clinical and Health Research.
The paper's co-first author is Gregory Eschenauer, a clinical pharmacist at Michigan Medicine and clinical associate professor at the U-M College of Pharmacy. He and senior author Jason Pogue are members of the Michigan Medicine Antimicrobial Stewardship Program.
The ASP group developed treatment guidelines provided to Michigan Medicine physicians in mid-March that identified tocilizumab as a potentially beneficial therapy for the most severely ill COVID-19 patients. Those guidelines also pointed out its risks and the lack of evidence for its use in COVID-19, and recommended a dose of 8 milligrams per kilogram.
This led some physicians to choose to use it, while others did not—setting the stage inadvertently for a natural comparison.
More Research Needed
Pogue, clinical professor at the U-M College of Pharmacy and an infectious disease pharmacist at Michigan Medicine, notes that more robust data released in June from a large randomized controlled trial in the United Kingdom has led him to recommend the steroid dexamethasone as the first choice to treat critically ill COVID-19 patients.
"For a retrospective, single-center study, our data are robust," Pogue said. "But at this time, due to the lack of randomized controlled trial data and the much higher cost, we recommend reserving tocilizumab for the treatment of select patients who decompensate while on or after receiving dexamethasone or in patients where the risks of adverse events from steroid therapy outweigh the potential benefits.
"Further studies of tocilizumab, which is more targeted than dexamethasone in addressing the hyperinflammatory process, could include combining these agents or comparing them head-to-head."
Pogue says that a single dose of tocilizumab is roughly 100 times more expensive than a course of dexamethasone. He also notes that another drug that aims to treat cytokine storm by targeting the interleukin-6 receptor—one called sarilumab—appears to have failed to improve outcomes in a clinical trial in COVID-19 patients including those on ventilators.
Michigan Medicine had been participating in the sarilumab study at the time the patients in the current study were treated, but not all patients qualified because of the timing of their admission or issues around testing for COVID-19. The current study does not include any patients who received sarilumab.
If the evidence around IL-6 targeting bears out in further studies, the researchers say that it will be important to select the dose and timing carefully to address the cytokine storm without interfering with IL-6's other roles in activating the body's response to infections and its processes for repairing tissue.
More About the Study
The majority of the patients were transferred to U-M from Detroit-area hospitals after diagnosis with COVID-19, and those who received tocilizumab were less likely overall to have been transferred while already on a ventilator.
By the end of the 28-day period after patients went on a ventilator, 18% of those who received tocilizumab had died, compared with 36% of those who had not. When adjusted for health characteristics, this represents a 45% reduction in mortality. Of those still in the hospital at the end of the study period, 82% of the tocilizumab patients had come off the ventilator, compared with 53% of those who didn't receive the drug.
In all, 54% of the tocilizumab patients had developed a secondary infection, mostly ventilator-associated pneumonia; 26% of those who didn't receive tocilizumab developed such infections. Such "superinfections" usually reduce the chance of survival for COVID-19 patients.
Hydroxychloroquine was included in the treatment guidelines for COVID-19 inpatients at Michigan Medicine for the first two-and-a-half weeks of the study period, before being removed as evidence of its lack of benefit and risks emerged. In all, it was used in one-quarter of the patients who received tocilizumab and one-fifth of those who didn't. Similar percentages of the two patient groups received steroids, though none received dexamethasone.
The patients in the two groups were similar in most ways except for a slightly higher average age in the non-tocilizumab group and lower rates of chronic obstructive pulmonary disease and chronic kidney disease among the tocilizumab patients.
The study was supported by the National Institutes of Health [UL1TR002240, 1K12HL133304]; the Centers for Disease Control and Prevention [U01IP000974]; and an American Society for Transplantation and Cellular Therapy New Investigator Award.
The COVID-19 Rapid Response Registry is supported by the Michigan Institute for Clinical and Health Research (MICHR), and uses the International Severe Acute Respiratory and Emerging Infection Consortium (ISARIC) Clinical Characterization Protocol to standardize the clinical characterization of patients with COVID-19 so their data can be studied.
In addition to Somers, Pogue, and Eschenauer, the study's authors are from several departments of the U-M Medical School, and from the U-M College of Pharmacy, School of Public Health, and MICHR. They are: Jonathan Troost, Jonathan Golob, Tejal Gandhi, Lu Wang, Nina Zhou, Lindsay Petty, Ji Hoon Baang, Nicholas Dillman, David Frame, Kevin Gregg, Dan Kaul, Jerod Nagel, Twisha Patel, Shiwei Zhou, Adam Lauring, David Hanauer, Emily Martin, Pratima Sharma, and Christopher Fung.