Experimental chewing gum reduces Omicron in saliva; sexual dysfunction,
hair loss among long COVID symptoms
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 [July 27, 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.
Experimental chewing gum reduces Omicron particles in saliva
An experimental chewing gum that "traps" SARS-CoV-2 particles in saliva
holds promise for curbing transmission of new variants of the virus,
according to new data, as researchers prepare to launch the first human
trial.
The gum contains copies of the ACE2 protein found on cell surfaces,
which the coronavirus uses to break into cells and infect them. In
test-tube experiments using saliva from individuals infected with the
Delta or Omicron variants, the virus particles attached themselves to
the ACE2 "receptors" in the chewing gum and the viral load fell to
undetectable levels, researchers reported in Biomaterials. In the
clinical trial, COVID-19 patients will each chew four ACE2 gum tablets
each day for four days. The "viral trap" ACE2 proteins in the gum are
carried within engineered lettuce cells. A second experimental chewing
gum made with bean powder instead of lettuce cells not only traps
SARS-CoV-2 particles in lab experiments but also influenza strains,
other coronaviruses that cause common colds, and potentially other oral
viruses such as human papillomavirus and herpesvirus, according to the
paper.
"Because nasal transmission is negligible when compared to oral
transmission... chewing ACE2 gum and swallowing ACE2 protein should
minimize infection, protect COVID-19 patients and prevent transmission,"
said research leader Dr. Henry Daniell of the School of Dental Medicine
at the University of Pennsylvania.
Long COVID symptoms include sexual dysfunction, hair loss
Add loss of hair and libido to the symptoms associated with long COVID,
UK researchers warn.
They compared nearly half a million people who recovered from SARS-CoV-2
infections before the middle of April 2021, without having been
hospitalized, with nearly two million uninfected people of similar age,
gender and health status. Overall, 62 persistent symptoms were
significantly associated with SARS-CoV-2 infection after 12 weeks, the
researchers reported on Monday in Nature Medicine. Among the most common
were shortness of breath, smell distortions, chest pain and fever, but
the study also identified memory problems, inability to perform familiar
movements or commands, bowel incontinence, erectile dysfunction,
hallucinations, and limb swelling as being more common in people with
long COVID. Compared to the uninfected group, those in the infected
group were nearly four times more likely to report hair loss and more
than twice as likely to report ejaculation difficulty or reduced libido.
The odds of developing long COVID were higher in younger people,
females, and racial minorities, the researchers found.
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Test tubes labelled "COVID-19 Omicron variant test positive" are
seen in this illustration picture taken January 15, 2022.
REUTERS/Dado Ruvic/Illustration/File Photo
 "This research validates what
patients have been telling clinicians and policy makers throughout
the pandemic, that the symptoms of long COVID are extremely broad
and cannot be fully accounted for by other factors such as lifestyle
risk factors or chronic health conditions," study leader Dr. Shamil
Haroon of the University of Birmingham said in a statement.
Faster PCR equipment being designed for local
settings
New technology for performing the gold-standard test for SARS-CoV-2
infection weighs just 2 pounds (0.9 kg) and gives results in 23
minutes rather than the usual 24 hours, according to researchers.
PCR, or polymerase chain reaction, testing is rarely done at
point-of-care settings like doctors' offices or pharmacies, because
the traditional equipment is bulky and expensive and requires
trained operators. PCR involves thermal cycling, a process of
heating and cooling that creates the conditions necessary for
identifying genetic material from the virus in the sample. The new
prototype employs smaller optical components and a new way to heat
the sample: so-called plasmonic thermocycling, which uses infrared
radiation of metallic nanoparticles to generate heat from inside the
vial instead of using standard heating methods from the outside.
"The method could rapidly detect SARS-CoV-2 RNA from human saliva
and nasal specimens with 100% sensitivity and 100% specificity, as
well as two distinct SARS-CoV-2 variants," the researchers reported
on Monday in Nature Nanotechnology.
The smaller, faster devices "should really move the needle on
delivering rapid and accurate molecular clinical diagnostics in
decentralized settings," said study coauthor Mark Fasciano of
biotech startup Rover Diagnostics, which is developing the
technology in collaboration with researchers at Columbia University.
"Thermal cycling... can now be sped up and clinicians and patients
alike won't have to wait so long for results."
Click for a Reuters Global COVID-19 Tracker and for a Reuters
COVID-19 Vaccination Tracker.
(Reporting Nancy Lapid; Editing by Bill Berkrot)
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