Antibodies induced by mRNA shots improve for months; blood cells damaged
by COVID cause blood vessel problems
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 [February 19, 2022]
By Nancy Lapid
(Reuters) - The following is a summary of
some recent studies on COVID-19. They include research that warrants
further study to corroborate the findings and that has yet to be
certified by peer review.
Antibodies improve for months after mRNA vaccine
Antibodies induced by mRNA COVID-19 vaccines keep improving in quality
for at least six months while the immune system continues to "train" its
antibody-producing B cells, according to a new study.
After vaccination, some B cells become short-lived antibody-producing
cells, while others join "germinal centers" in lymph nodes -
essentially, a training camp where they mature and perfect their skills.
"Cells that successfully graduate (from germinal centers) can become
long-lived antibody-producing cells that live in our bone marrow or
'memory B cells' that are ready to engage if the person gets infected,"
explained Ali Ellebedy of Washington University in St. Louis. Animal
studies have suggested that so-called germinal center reactions last
only weeks. But analyses of blood, lymph node tissue and bone marrow
from volunteers who received the Pfizer/BioNTech vaccine showed germinal
center reactions induced by the shots lasted at least six months, with
antibodies becoming increasingly better at recognizing and attacking the
spike protein of the original version of SARS-CoV-2, Ellebedy's team
reported on Tuesday in Nature.
They did not test the mature antibodies' ability to neutralize variants,
but in theory, Ellebedy said, the antibodies should be better able to
recognize parts of the spike common to the variants and the original
strain. More research is needed to know whether this robust germinal
center response is unique to mRNA vaccines or if it is also induced by
more traditional vaccines.
Red blood cells damaged by COVID cause blood-vessel problems
Dysfunctional red blood cells contribute to the blood vessel injuries
common in severe COVID-19, according to laboratory studies that also may
suggest a way to treat the problem.
Many patients hospitalized for COVID-19 are thought to have damage to
the endothelial cells lining the blood vessels, which can lead to blood
clots, organ impairment, and other complications. New findings from the
blood of 17 moderately ill COVID-19 patients and 27 healthy volunteers
confirm "profound and persistent endothelial dysfunction" as an effect
of the coronavirus, researchers reported on Wednesday in the Journal of
the American College of Cardiology. Compared to the red blood cells in
healthy people, those from COVID-19 patients release fewer beneficial
nitric oxide molecules and more detrimental inflammation-causing
molecules, said Dr. Ali Mahdi of Karolinska University Hospital in
Stockholm. In combination with elevated levels of a certain enzyme, the
inflammatory molecules injure the blood-vessel lining, his team found.
As a result, the vessel cannot relax properly.
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A man wears protective mask as he rides past a propaganda banner
promoting prevention against the coronavirus disease (COVID-19) in
Hanoi, Vietnam April 3, 2020. REUTERS/Kham
 The dysfunction is reversed by drugs
that restore normal enzyme levels and limit production of the
harmful molecules, Mahdi said. Whether test-tube findings can be
replicated in people is not yet clear. The experiment was performed
on the original coronavirus, so it is also unclear whether red blood
cells are similarly affected in infections caused by variants of
SARS-CoV-2.
Global project helps low-income countries reuse N95 masks
An international group of physicists, engineers and physicians has
designed a cheap, easy-to-construct cabinet with ultraviolet-C
(UV-C) bulbs that has allowed health clinics in lower-income
countries to decontaminate and reuse over 900,000 protective N95
masks.
The prototype was constructed using a metal office storage cabinet
lined with household aluminum foil, with UV-C bulbs at the front and
back, consortium members reported on Wednesday in NEJM Catalyst.
"You simply load the masks on a rack, put them in the cabinet, shut
the doors and turn the device on to apply the right dose of UV-C to
inactivate the COVID-19 virus," said Dr. Nicole Starr, a surgery
trainee at the University of California, San Francisco who led the
effort. The process takes about 10 minutes. Once the group had a
workable design, they recruited members of local student chapters of
the optics society Optica to build the cabinets, sometimes working
with embassies to arrange for shipments of the necessary components.
Engineering teams in nine countries and hospitals in 12 countries
worked on the project.
"Overall, 21 cabinets were put into use in hospitals, and we
estimate that 930,000 N95s were decontaminated for reuse from July
2020 to January 2022," Starr said. Decontamination equipment
currently used in U.S. hospitals can cost $80,000 per unit,
according to the report. The team estimated that their cabinet can
be built for about $500 to $1,500 depending on location and can
process nearly 5,000 masks per day at maximum capacity.
(Reporting by Nancy Lapid; Editing by Bill Berkrot)
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