Pandemic stress may disrupt ovaries; blood test may improve immunity
assessment
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 [June 14, 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.
Pandemic stress may subtly impact ovaries
Pandemic stresses have been linked with disruptions in ovulation for
many women without obvious changes to menstrual cycles, according to a
new study.
Nearly 66% of 112 women studied during the pandemic had ovulation
disturbances, compared to only 10% of 301 women studied 13 years
earlier, researchers reported on Sunday at ENDO 2022, the annual meeting
of the Endocrine Society. Ovulation, or the release of an egg from an
ovary, generally occurs about two weeks before the start of the
menstrual period. Disturbances seen during the pandemic included the egg
being released before the uterus is ready for pregnancy to occur, and no
egg being released at all. The women in both studies were ages 19 to 35
and were not using hormonal contraceptives. Menstrual diaries kept by
participants showed significantly more anxiety, depression, frustration,
negative moods, perceived outside stresses, sleep problems, and
headaches during the pandemic.
"By comparing the two studies, and especially their daily diaries, we
can infer that the SARS-CoV2 pandemic life disruptions cause silent
ovulatory disturbances within mostly regular menstrual cycles," study
leader Dr. Jerilynn Prior of the University of British Columbia in
Vancouver said in a statement. Over time, persistent ovulatory
disturbances can increase women's risks for infertility, bone loss,
early heart attacks, and breast and endometrial cancers, the researchers
said.
New blood test could improve COVID-19 defenses assessment
A new blood test that measures immune-system T cells may yield more
accurate information about the body's ability to control the coronavirus
than tests that measure antibodies, researchers say.
Unlike antibodies, T cells do not prevent infection from occurring, "but
they protect from disease," said study co-author Dr. Antonio Bertoletti
of Duke-NUS Medical School in Singapore, in an email. They "recognize
the infected cells... and destroy them. T cells are also important for
the efficient maturation of B cells, (which) also help to produce
antibodies," he said.
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People line up for nucleic acid tests at a mobile testing booth,
following the coronavirus disease (COVID-19) outbreak, in Beijing,
China June 13, 2022. REUTERS/Tingshu Wang
Antibody levels often wane over time, while T cells
remain on the alert. In some people with weakened immune systems,
COVID-19 vaccines can induce T cell responses even if they do not
induce antibody responses. "Measuring T cell activation is critical
to assess the full extent of a person's immunity," said coauthor
Ernesto Guccione of The Tisch Cancer Institute at Mount Sinai in a
statement. Coronavirus variants like Omicron evade most of the
neutralizing ability of antibodies, but T cells are still able to
recognize the virus despite the mutations, he noted, making it even
more important to have tests that can measure T cells.
The new test is presently available only for research purposes but
is scalable to use broadly in the population, the researchers
reported on Monday in Nature Biotechnology.
Low risk of major health issues seen with mRNA vaccines
Both commercially available mRNA vaccines are safe, with low risks
of major adverse events, according to a large study that tracked
433,672 U.S. veterans for 38 weeks following vaccination.
Half the group had received Moderna's COVID vaccine and the other
half with similar characteristics and risk factors had received
Pfizer/BioNTech shots. "Small-magnitude differences between the two
vaccines were seen within 42 days of the first dose," researchers
reported on Monday in JAMA Internal Medicine. "Individuals receiving
the Moderna vaccine were slightly less likely - a difference of less
than two-tenths of one percent - to experience stroke, myocardial
infarction, other thromboembolic events, or kidney injury," said
coauthor Dr. Arin Madenci of Harvard T.H. Chan School of Public
Health. For example, among every 10,000 study subjects, there were
roughly 11 more strokes and 11 more heart attacks over the ensuing
months in Pfizer/BioNTech recipients than in Moderna recipients.
The study did not establish a causal link between the vaccines and
heart attacks, strokes and the other major adverse events. One
possibility, Madenci said, is that the differences his team observed
"may be explained by a lower effectiveness of the Pfizer vaccine in
preventing COVID-19" and the resulting after-effects in patients who
developed the disease.
(Reporting by Nancy Lapid; Editing by Bill Berkrot)
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