Gilead's remdesivir fails to show benefit in European trial; no fetus
risk seen with first trimester vaccination
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 [April 05, 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.
Two promising drugs for COVID-19 fail to deliver
Two drugs that looked like promising treatments for COVID-19 in
preliminary studies - remdesivir for hospitalized patients and camostat
for patients who are not seriously ill - failed to show a benefit in
those groups in randomized controlled trials, researchers reported in
two separate papers.
In five European countries, researchers studied 843 COVID-19 patients
who were hospitalized between March 2020 and January 2021 and who needed
oxygen or machines to help with breathing. Two week after patients had
received either Gilead Sciences' antiviral remdesivir - sold as Veklury
- plus standard of care or standard of care alone for up to 10 days,
there was no difference between the groups in signs of improvement,
investigators reported on Thursday.
In Japan between November 2020 and March 2021, researchers randomly
assigned 155 patients with mild or moderate COVID-19 to receive the
pancreatitis drug camostat mesylate from Ono Pharmaceutical Co or a
placebo for up to 14 days. Camostat blocks an enzyme that helps some
versions of the coronavirus infect cells - including the variants
circulating at the time of the study - but did not help patients get rid
of the virus in their airways any faster than placebo, the Japanese
researchers reported on Saturday. They said the results "highlight...
the necessity of conducting well-designed studies to confirm whether
preclinical findings translate into meaningful clinical efficacy." Both
studies were posted on medRxiv ahead of peer review.
COVID-19 vaccines in first trimester of pregnancy appear safe
COVID-19 vaccination during the first trimester of pregnancy does not
increase the risk for congenital defects in the fetus, preliminary data
suggest.
Researchers at Northwestern University Feinberg School of Medicine in
Chicago studied 1,149 women who received at least one dose of a vaccine
from Moderna, Pfizer/BioNTech or Johnson & Johnson between 30 days
before conception and 14 weeks into gestation, which is when the fetus
is most vulnerable to developing birth defects due to medications taken
by the mother. Compared to 2,007 pregnant women who either remained
unvaccinated or were vaccinated later, women vaccinated shortly before
or early in pregnancy were not at higher risk for having an abnormality
in the fetus detected by their doctors on an ultrasound exam, according
to a report published on Monday in JAMA Pediatrics.
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Gilead Sciences Inc pharmaceutical company is seen after they
announced a Phase 3 Trial of the investigational antiviral drug
Remdesivir in patients with severe coronavirus disease (COVID-19),
during the outbreak of the coronavirus disease (COVID-19), in
Oceanside, California, U.S., April 29, 2020. REUTERS/Mike Blake
The authors acknowledge that
examining a fetus with ultrasonography is not as reliable as
examining an infant, and because many of the women they studied are
still pregnant, real proof of vaccination safety in the first
trimester requires larger studies of newborns.
SARS-CoV-2 infects eye cells in test tubes
The coronavirus that causes COVID-19 can infect the
vision-processing cells of the eye and reproduce there, lab
experiments suggest.
Researchers used human cells in test tubes to grow a miniaturized,
simplified version of the retina - the nerve tissue at the back of
the eye that receives images and sends them as electric signals to
the brain. When the researchers exposed these "organoids" to
SARS-CoV-2, the virus infected a variety of retinal nerve cells that
perform different functions. Furthermore, the virus could make
copies of itself in those cells, the researchers reported in the
journal Stem Cell Reports. In the infected organoids, genes that
increase levels of inflammatory proteins associated with retinal
damage were more active, the researchers also found. They also found
that younger retinal cells were more vulnerable to the virus,
possibly because younger cells have more of the protein on their
surfaces that the virus uses as a gateway for entry.
Antibodies that block those gateways and make it harder for the
virus to infect cells appeared to protect the retinal organoids,
further experiments showed. The findings suggest that the persistent
syndrome known as long COVID may also include retinal problems,
researchers said.
(Reporting by Nancy Lapid; Editing by Bill Berkrot)
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