Convalescent plasma lowers COVID-19 death risk; exposure to common cold
may limit disease severity
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 [August 06, 2020]
By Nancy Lapid
(Reuters) - The following is a brief
roundup of some of the latest scientific studies on the novel
coronavirus and efforts to find treatments and vaccines for COVID-19,
the illness caused by the virus.
Convalescent plasma lowers COVID-19 death risk
Infusions of antibody-rich blood plasma from people who have recovered
from the new coronavirus, known as convalescent plasma, can lower the
risk of death for hospitalized COVID-19 patients, according to a pooled
analysis of data from eight earlier studies of more than 700
hospitalized patients around the world. Researchers found that mortality
rates were roughly 13% in patients who received convalescent plasma
versus about 25% for those who did not get the treatment. Convalescent
plasma was shown to be safe in an earlier study of 5,000 hospitalized
adults with severe or life-threatening COVID-19. In that study, fewer
than 1% of patients had any serious adverse effects in the first four
hours after transfusion. The current study could not account for
differences in factors such as how sick patients were, how much plasma
they received, how long they were sick before the received it, and how
long doctors followed them afterward. "Given the safety of plasma
administration in COVID-19 patients, the results ... provide
encouragement for its continued used as a therapy," the researchers
write in a report published ahead of peer review. (https://bit.ly/2Dq1BNp)
Exposure to common colds may impact COVID-19 severity
In patients with COVID-19, the immune system's T cells learn to
recognize and target the new coronavirus. But some people who were never
infected with the virus nonetheless have T cells that also recognize it.
Researchers had suspected that in these individuals, past exposure to
other coronaviruses, such as those that cause the common cold, had
somehow primed their T cells to recognize and attack this new
coronavirus (SARS-CoV-2), and new research appears to confirm that. In
studies of human blood samples collected well before the new coronavirus
was discovered, researchers found T cells that were equally reactive
against the new virus and four types of common cold coronaviruses. The
strongest T cell responses to the new coronavirus were associated with
the spike protein the virus uses to enter human cells. "We knew there
was pre-existing reactivity, and this study provides very strong direct
molecular evidence that memory T cells can 'see' sequences that are very
similar between common cold coronaviruses and SARS-CoV-2," coauthor
Alessandro Sette of the La Jolla Institute for Immunology said in a
statement. It is plausible to think that previous exposure to common
cold viruses might contribute to variations in COVID-19 severity,
researchers said on Tuesday in the journal Science.
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Severe COVID-19 may be less deadly in children
Children with COVID-19 rarely become critically ill, and when they
do, they tend to have better outcomes than adults, based on early
data from an ongoing study. The Critical Coronavirus and Kids
Epidemiology (CAKE) study involves 65 pediatric intensive care units
in 18 countries. In a paper published on Wednesday in the journal
Pediatrics, the study team reported on the first 17 children with
severe COVID-19 from 10 hospitals in Chile, Colombia, Italy, Spain
and the United States. Most required respiratory support, with
nearly half needing to be put on ventilators. Symptoms were varied,
with fever, cough and gastrointestinal issues common. Overall, one
child died, four developed inflammation of the heart and three
remain hospitalized. The investigators hope to have more data soon
that will provide additional information on the care and outcomes of
these patients, which may become more important as schools reopen
around the world. As of now, CAKE has enrolled almost 100 critically
ill children "and we are projecting perhaps 100 more by the end of
2020," Dr. Sebastian Gonzalez-Dambrauskas, with the Latin American
Pediatric Collaborative Network, told Reuters.
(Reporting by Nancy Lapid and Megan Brooks; Editing by Bill Berkrot)
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