COVID-19 increases risks for cancer patients; common cold antibodies no
help vs coronavirus
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 [October 15, 2020]
By Nancy Lapid
(Reuters) - The following is a 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.
COVID-19 increases risks for cancer patients
Cancer patients face poorer outcomes if they become infected with the
new coronavirus, a new study shows. However, undergoing recent cancer
treatments did not make COVID-19 outcomes worse, so cancer therapies
should not be delayed, the research team advises in a report published
on Friday in the Journal of the National Cancer Institute. The study
involved nearly 23,000 patients with cancer who were tested for COVID-19
at U.S. Veterans Affairs health facilities nationwide. Roughly 1,800
(7.8%) had tested positive, with no effect of age on the likelihood of
infection. COVID-19 rates were higher in patients with blood cancers
(11%) than in those with solid tumors (8%). Compared to patients who
tested negative for the virus, COVID-19 patients had more
hospitalizations, needed more intensive care, and needed more help with
breathing. Death rates were 14% among cancer patients with COVID-19 and
3% in those without the virus. Across the country, African-American and
Hispanic cancer patients had higher rates of COVID-19 infection than
white cancer patients - 15%, 11% and 6%, respectively. They also had
higher rates of hospitalization. The real prevalence of COVID-19 among
cancer patients remains uncertain, the researchers point out, because
many have not been tested for the virus.
Common cold antibodies do not protect against COVID-19
Your immune system may be able to produce antibodies that recognize and
fight off the coronaviruses that cause common colds, but those
antibodies are not likely to protect against the coronavirus that causes
COVID-19, new research shows. At Rockefeller University in New York
City, scientists studied blood samples collected and stored before the
pandemic from people known to have had common colds in the past few
months. In test tube experiments, they found that each sample contained
antibodies that could recognize and neutralize, or disable, at least one
common cold coronavirus - and most could recognize multiple such
viruses. But none of the samples had antibodies that could recognize and
disable a virus that had been modified to look like the new coronavirus,
carrying the spike protein that helps it infect healthy cells. In a
report published ahead of peer review on Sunday on medRxiv, the
researchers say that while there may be rare individuals with common
cold antibodies that can also target the COVID-19 virus, their new data
suggest those antibodies are not going to have much of an effect for the
population as a whole.
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A 3D-printed coronavirus model is seen in front of the words
coronavirus disease (Covid-19) on display in this illustration taken
March 25, 2020. REUTERS/Dado Ruvic
COVID-19 neurological effects may reflect immune response
The new coronavirus might not be having major direct effects on the
brain despite neurological issues that have been widely reported.
Researchers examined brains of 43 COVID-19 patients who died in
intensive care units, nursing homes, regular hospital wards, or at
home.
They found coronavirus proteins in the brain stem, but "little
involvement" of the frontal lobe - the part of the brain important
for movement, language and higher level functioning.
They also saw increases in brain cells called astrocytes, signaling
destruction of other nearby cells. Because critical illness itself
can contribute to this finding, it is not clear that COVID-19 is the
direct cause. The presence of the virus was not associated with the
severity of brain tissue changes, researchers said.
All of the brains showed signs of "neuroimmune activation," meaning
the immune system had been activated to respond to the infection in
the brain. Patients' neurological symptoms might be due to the
body's immune response, rather than to direct central nervous system
damage from the virus, the authors reported in The Lancet Neurology.
"We have started to define the immune reaction to SARS-CoV-2 virus
in the brain," coauthor Markus Glatzel of University Medical Center
Hamburg-Eppendorf in German told Reuters. "We think that the
neuroimmune reaction may be a factor explaining some of the
neurological symptoms seen in COVID-19 patients."
(Reporting by Nancy Lapid; Editing by Bill Berkrot)
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