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 No trace of vaccines' mRNA seen in breast milk
No traces of mRNA vaccines end up in mothers' breast milk, a small
study suggests. The COVID-19 vaccines from Pfizer/BioNTech and
Moderna deliver a synthetic version of messenger RNA molecules,
designed to instruct cells to build replicas of the coronavirus
spike protein. The immune system then learns to recognize the spike
and produce antibodies to attack it, while the messenger RNA quickly
breaks down into inert pieces. While these beneficial antibodies may
pass from mothers to infants via breast milk, the milk does not
contain the mRNA itself, researchers found in their analyses of 13
breast milk samples from seven vaccinated women.
The World Health Organization recommends that breastfeeding mothers
be vaccinated against COVID-19 and does not advise stopping
breastfeeding afterward. Many mothers have declined vaccination or
discontinued breastfeeding due to concern that the vaccine may alter
breast milk. Writing in JAMA Pediatrics https://bit.ly/3xQ9QJn, the
authors of the new study said more data is needed to better estimate
the vaccines' effect on breastfeeding. But the new results
"strengthen current recommendations that the mRNA vaccines are safe
in lactation, and that lactating individuals who receive the COVID
vaccine should not stop breastfeeding," coauthor Dr. Stephanie Gaw
of the University of California, San Francisco, said in a statement.
Researchers find gene that helps identify COVID-19 cases
A gene called IFI27 that becomes activated early in COVID-19, even
when symptoms are absent, might help identify people most likely to
have contracted the virus after coming in contact with an infected
person, researchers said. Four hundred UK healthcare workers
completed weekly questionnaires about COVID-19 symptoms and provided
blood samples and nasal swabs for PCR testing for six months. In 41
workers diagnosed with COVID-19, IFI27 genes were "switched on" at
the time of their first positive PCR test, even in asymptomatic
individuals, according to a report in The Lancet Microbe https://bit.ly/3kMTcaf.
In some cases, IFI27 could predict infection one week before a
positive PCR test, said coauthor Joshua Rosenheim of University
College London.
Overall, testing for IFI27 correctly identified 84% of COVID-19
cases and correctly ruled it out in 95% of uninfected participants.
Blood biomarkers like IFI27 can signal other viruses as well, so PCR
is still the gold standard for diagnosing COVID-19.
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 "However, testing for blood
biomarkers is still valuable," Rosenheim said.
"IFI27 predicted infection despite the person
not having any symptoms and often before a
positive PCR test, so it could be used during
contact tracing." IFI27 tests in people who
recently came in contact with a confirmed
COVID-19 patient could allow for earlier
diagnosis and treatment and "might even permit
us to recommend self-isolation in a more
targeted manner."
Intranasal vaccine aims to block virus at point
of entry
 An experimental
intranasal COVID-19 vaccine now being tested for the first time in
humans showed promising results in monkeys, researchers will report
on Thursday at ASV 2021 https://bit.ly/3iuI9Qd, the annual meeting
of the American Society of Virology. The protection provided to the
primates by a single dose of the vaccine from Meissa Vaccines was
equivalent to the protection provided by currently authorized
vaccines, according to a news release from the company. Like
injected vaccines, the intranasal vaccine, which is administered via
drops or spray into the nose, stimulates the body to produce
antibodies that circulate in the blood. But the intranasal vaccine
also stimulates production of antibodies on mucosal surfaces that
line the airways, which is where the virus first makes contact and
enters the body, the research team reported in a paper seen by
Reuters and submitted for posting ahead of peer review on the
bioRxiv preprint server. The pilot study in
humans, which got underway in March, is expected to enroll 130
volunteers to evaluate the safety, tolerability and immune system
effects of various doses of the vaccine. Once it selects a safe dose
likely to be most effective against the virus, the company will need
to conduct larger and more rigorous trials. "We believe Meissa's
intranasal COVID-19 vaccine has the potential to be an important
part of the endgame solution to contain SARS-CoV-2," Roderick Tang,
chief scientific officer of Meissa Vaccines, said in a statement.
Click for a Reuters graphic https://tmsnrt.rs/3c7R3Bl on vaccines in
development.
(Reporting by Nancy Lapid and Megan Brooks; Editing by Bill Berkrot)
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