Biomedicines,
Год журнала:
2023,
Номер
11(8), С. 2267 - 2267
Опубликована: Авг. 14, 2023
Physical
activity
has
been
demonstrated
to
have
a
significant
impact
on
gut
microbial
diversity
and
function.
Emerging
research
revealed
certain
aspects
of
the
complex
interactions
between
gut,
exercise,
microbiota,
neurodegenerative
diseases,
suggesting
that
changes
in
metabolic
function
may
an
onset
progression
neurological
conditions.
This
study
aimed
review
current
literature
from
several
databases
until
1
June
2023
(PubMed/MEDLINE,
Web
Science,
Google
Scholar)
interplay
physical
neurodegeneration.
We
summarized
roles
exercise
microbiota
neurodegeneration
identified
ways
which
these
are
all
connected.
The
gut–brain
axis
is
multifaceted
network
gained
considerable
attention
recent
years.
Research
indicates
plays
vital
shifts
during
physiological
or
pathophysiological
conditions
diseases;
therefore,
they
closely
related
maintaining
overall
health
well-being.
Similarly,
shown
positive
effects
brain
cognitive
function,
reduce/delay
severe
disorders.
Exercise
associated
with
various
neurochemical
changes,
including
alterations
cortisol
levels,
increased
production
endorphins,
endocannabinoids
like
anandamide,
as
well
higher
levels
serotonin
dopamine.
These
linked
mood
improvements,
enhanced
sleep
quality,
better
motor
control,
enhancements
resulting
exercise-induced
effects.
However,
further
clinical
necessary
evaluate
bacteria
taxa
along
age-
sex-based
differences.
International Journal of Sport Nutrition and Exercise Metabolism,
Год журнала:
2022,
Номер
32(5), С. 387 - 418
Опубликована: Авг. 13, 2022
Strenuous
exercise
is
synonymous
with
disturbing
gastrointestinal
integrity
and
function,
subsequently
prompting
systemic
immune
responses
exercise-associated
symptoms,
a
condition
established
as
"exercise-induced
syndrome."
When
stress
aligned
exacerbation
factors
(i.e.,
extrinsic
intrinsic)
are
of
substantial
magnitude,
these
perturbations
can
cause
performance
decrements
health
implications
clinical
significance.
This
potentially
explains
the
exponential
growth
in
exploratory,
mechanistic,
interventional
research
gastroenterology
to
understand,
accurately
measure
interpret,
prevent
or
attenuate
debilitating
consequences
exercise-induced
syndrome.
Considering
recent
advancement
research,
it
has
been
highlighted
that
published
literature
area
consistently
affected
by
experimental
limitations
may
affect
accuracy
translating
study
outcomes
into
practical
application/s
and/or
design
future
research.
perspective
methodological
review
attempts
highlight
concerns
provides
guidance
improve
validity,
reliability,
robustness
next
generation
These
include
participant
screening
description,
exertional
heat
load,
dietary
control,
hydration
status,
food
fluid
provisions,
circadian
variation,
biological
sex
differences,
comprehensive
assessment
markers
syndrome,
validity
symptoms
tool,
data
reporting
presentation.
Standardized
procedures
needed
for
accurate
interpretation
findings,
avoiding
misinterpreted
(e.g.,
pathological
relevance
response
magnitude)
overstated
conclusions
intervention
outcomes),
which
will
support
more
translation
safe
practice
guidelines.
Frontiers in Molecular Biosciences,
Год журнала:
2022,
Номер
8
Опубликована: Янв. 11, 2022
Together
with
environment
and
experience
(that
is
to
say,
diet
training),
the
biological
genetic
make-up
of
an
athlete
plays
a
major
role
in
exercise
physiology.
Sports
genomics
has
shown,
indeed,
that
some
DNA
single
nucleotide
polymorphisms
(SNPs)
can
be
associated
performance
level
(such
as
elite/world-class
athletic
status),
having
impact
on
physical
activity
behavior,
endurance,
strength,
power,
speed,
flexibility,
energetic
expenditure,
neuromuscular
coordination,
metabolic
cardio-respiratory
fitness,
among
others,
well
psychological
traits.
Athletic
phenotype
complex
depends
combination
different
traits
characteristics:
such,
it
requires
"complex
science,"
like
metadata
multi-OMICS
profiles.
Several
projects
trials
(like
ELITE,
GAMES,
Gene
SMART,
GENESIS,
POWERGENE)
are
aimed
at
discovering
genomics-based
biomarkers
adequate
predictive
power.
could
enable
optimize
maximize
performance,
predict
risk
sports-related
injuries.
Exercise
profound
proteome
too.
Proteomics
assess
both
from
qualitative
quantitative
point
view
modifications
induced
by
training.
Recently,
scholars
have
assessed
epigenetics
changes
athletes.
Summarizing,
omics
specialties
seem
converge
unique
approach,
termed
sportomics
or
athlomics
defined
"holistic
top-down,"
"non-hypothesis-driven
research
individual's
metabolite
during
sports
exercise"
(the
Athlome
Project
Consortium
Santorini
Declaration)
Not
only
includes
metabonomics/metabolomics,
but
relying
athlete's
passport
profile,
would
systematic
study
sports-induced
effects
any
(genome,
transcriptome,
proteome,
etc.).
However,
wealth
data
so
huge
massive
heterogenous
new
computational
algorithms
protocols
needed,
more
power
required
strategies
for
properly
effectively
combining
integrating
data.
Abstract
Background
A
growing
body
of
evidence
suggests
that
the
gut
microbiota
is
strongly
linked
to
general
human
health.
Microbiome-directed
interventions,
such
as
diet
and
exercise,
are
acknowledged
a
viable
achievable
strategy
for
preventing
disorders
improving
However,
due
significant
inter-individual
diversity
between
subjects,
lifestyle
recommendations
expected
have
distinct
highly
variable
impacts
microbiome
structure.
Results
Here,
through
large-scale
meta-analysis
including
1448
shotgun
metagenomics
samples
obtained
longitudinally
from
396
individuals
during
studies,
we
revealed
Bacteroides
stercoris
,
Prevotella
copri
vulgatus
biomarkers
microbiota’s
resistance
structural
changes,
aromatic
non-aromatic
amino
acid
biosynthesis
important
regulator
dynamics.
We
established
criteria
distinguishing
compositional
changes
normal
fluctuation
classified
based
on
their
level
response.
further
developed
machine
learning
model
predicting
“responders”
“non-responders”
independently
type
intervention
with
an
area
under
curve
up
0.86
in
external
validation
cohorts
different
ethnicities.
Conclusions
propose
here
microbiome-based
stratification
possible
identifying
plastic
or
resistant
microbial
structures.
Identifying
subjects
will
not
respond
generalized
therapeutic
interventions
targeting
restructuring
ensure
primary
end-points
clinical
studies
reached.
Biomedicines,
Год журнала:
2023,
Номер
11(8), С. 2267 - 2267
Опубликована: Авг. 14, 2023
Physical
activity
has
been
demonstrated
to
have
a
significant
impact
on
gut
microbial
diversity
and
function.
Emerging
research
revealed
certain
aspects
of
the
complex
interactions
between
gut,
exercise,
microbiota,
neurodegenerative
diseases,
suggesting
that
changes
in
metabolic
function
may
an
onset
progression
neurological
conditions.
This
study
aimed
review
current
literature
from
several
databases
until
1
June
2023
(PubMed/MEDLINE,
Web
Science,
Google
Scholar)
interplay
physical
neurodegeneration.
We
summarized
roles
exercise
microbiota
neurodegeneration
identified
ways
which
these
are
all
connected.
The
gut–brain
axis
is
multifaceted
network
gained
considerable
attention
recent
years.
Research
indicates
plays
vital
shifts
during
physiological
or
pathophysiological
conditions
diseases;
therefore,
they
closely
related
maintaining
overall
health
well-being.
Similarly,
shown
positive
effects
brain
cognitive
function,
reduce/delay
severe
disorders.
Exercise
associated
with
various
neurochemical
changes,
including
alterations
cortisol
levels,
increased
production
endorphins,
endocannabinoids
like
anandamide,
as
well
higher
levels
serotonin
dopamine.
These
linked
mood
improvements,
enhanced
sleep
quality,
better
motor
control,
enhancements
resulting
exercise-induced
effects.
However,
further
clinical
necessary
evaluate
bacteria
taxa
along
age-
sex-based
differences.
