CytoJournal,
Journal Year:
2025,
Volume and Issue:
22, P. 46 - 46
Published: April 25, 2025
Objective
Burns
refers
to
a
severe
form
of
trauma
that
often
leads
localized
and
systemic
inflammatory
responses,
oxidative
stress,
immune
dysfunction.
Patients
with
burns
are
highly
susceptible
the
development
postburn
sepsis,
condition
influenced
by
multiple
factors,
such
as
bacterial
infection
burn
wound,
alterations
in
status,
excessive
release
mediators.
This
study
aimed
investigate
mechanisms
which
hydrogen
gas
treatment
exerts
its
effects
on
focus
influence
wound
healing.
Material
Methods
work
employed
vitro
assays
Sprague–Dawley
(SD)
rat
skin
fibroblasts
(RSFs)
assess
serum
cell
proliferation
through
methylthiazolyldiphenyltetrazolium
bromide
apoptosis
flow
cytometry
Annexin
V-fluorescein
isothiocyanate/propidium
iodide
staining.
In
addition,
an
enzyme-linked
immunosorbent
assay
was
performed
quantify
cytokines
stress
markers
treated
serum.
Western
blotting
(WB)
analysis
conducted
signaling
pathway
modulation.
The
sepsis
models
SD
rats
were
segregated
into
three
experimental
groups:
healthy
normal
control
group,
+
(2%)
group.
Wound
healing
monitored,
contraction
rates
recorded
histological
assessments
using
hematoxylin
eosin
Masson’s
trichrome
staining
evaluate
tissue
repair
collagen
deposition.
Results
showed
reduced
fibroblast
increased
(
P
<
0.01),
mitigated
rescuing
viability
reducing
0.01).
Enzyme-linked
revealed
serum-induced
increases
levels
markers,
decreases
antioxidant
enzymes
reversed
0.05).
WB
suggested
gas’s
anti-inflammatory
proliferative
modulating
pathways
vivo
,
considerably
improved
healing,
accelerated
enhanced
Plasma
analyses
indicated
local
from
gas.
Conclusion
Hydrogen
demonstrates
potential
therapeutic
efficacy
management
promoting
These
findings
provide
scientific
evidence
supporting
adjunctive
strategy
for
sepsis.
Journal of Hematology & Oncology,
Journal Year:
2023,
Volume and Issue:
16(1)
Published: Nov. 30, 2023
Inflammation
is
a
fundamental
defensive
response
to
harmful
stimuli,
but
the
overactivation
of
inflammatory
responses
associated
with
most
human
diseases.
Reactive
oxygen
species
(ROS)
are
class
chemicals
that
generated
after
incomplete
reduction
molecular
oxygen.
At
moderate
levels,
ROS
function
as
critical
signaling
molecules
in
modulation
various
physiological
functions,
including
responses.
However,
at
excessive
exert
toxic
effects
and
directly
oxidize
biological
macromolecules,
such
proteins,
nucleic
acids
lipids,
further
exacerbating
development
causing
Therefore,
designing
manufacturing
biomaterials
scavenge
has
emerged
an
important
approach
for
restoring
homeostasis,
limiting
protecting
host
against
damage.
This
review
systematically
outlines
dynamic
balance
production
clearance
under
conditions.
We
focus
on
mechanisms
by
which
regulate
cell
proteins
how
these
affect
inflammation.
Furthermore,
we
discuss
use
potential
currently
available-biomaterials
ROS,
agents
were
engineered
reduce
levels
blocking
generation,
chemically
reacting
or
catalytically
accelerating
clearance,
treatment
Finally,
evaluate
challenges
prospects
controlled
material
design
scavenging
biomaterials.
Oxidative Medicine and Cellular Longevity,
Journal Year:
2021,
Volume and Issue:
2021(1)
Published: Jan. 1, 2021
COVID-19
is
a
widespread
global
pandemic
with
nearly
185
million
confirmed
cases
and
about
four
deaths.
It
caused
by
an
infection
the
severe
acute
respiratory
syndrome
coronavirus-2
(SARS-CoV-2),
which
primarily
affects
alveolar
type
II
pneumocytes.
The
induces
pathological
responses
including
increased
inflammation,
oxidative
stress,
apoptosis.
This
situation
results
in
impaired
gas
exchange,
hypoxia,
other
sequelae
that
lead
to
multisystem
organ
failure
death.
As
summarized
this
article,
many
interventions
therapeutics
have
been
proposed
investigated
combat
viral
infection-induced
inflammation
stress
contributes
etiology
pathogenesis
of
COVID-19.
However,
these
methods
not
significantly
improved
treatment
outcomes.
may
partly
be
attributable
their
inability
at
restoring
redox
inflammatory
homeostasis,
for
molecular
hydrogen
(H
Processes,
Journal Year:
2021,
Volume and Issue:
9(2), P. 308 - 308
Published: Feb. 6, 2021
Oxidative
stress
(OS)
and
neuroinflammatory
affect
many
neurological
disorders.
Despite
the
clinical
significance
of
oxidative
damage
in
disorders,
still,
no
effective
safe
treatment
methods
for
neuro
diseases
are
available.
With
this,
molecular
hydrogen
(H2)
has
been
recently
reported
as
an
antioxidant
anti-inflammatory
agent
to
treat
several
stress-related
diseases.
In
animal
human
trials,
routes
H2
administration
mainly
categorized
into
three
types:
gas
inhalation,
water
dissolving,
H2-dissolved
saline
injection.
This
review
explores
some
significant
progress
research
on
use
neurodegenerative
(NDs),
including
Alzheimer’s
disease,
Parkinson’s
neonatal
disorders
brain,
other
NDs
(retinal
ischemia
traumatic
brain
injury).
Even
though
most
problems
not
currently
curable,
these
studies
have
shown
therapeutic
potential
prevention,
treatment,
mitigation
administration.
Several
possible
H2-effectors,
cell
signaling
molecules
hormones,
which
prevent
OS
inflammation,
will
also
be
addressed.
However,
more
related
required
evaluate
direct
target
molecule.
Oxidative Medicine and Cellular Longevity,
Journal Year:
2022,
Volume and Issue:
2022, P. 1 - 17
Published: March 18, 2022
Ageing
is
a
physiological
process
of
progressive
decline
in
the
organism
function
over
time.
It
affects
every
organ
body
and
significant
risk
for
chronic
diseases.
Molecular
hydrogen
has
therapeutic
preventive
effects
on
various
organs.
antioxidative
properties
as
it
directly
neutralizes
hydroxyl
radicals
reduces
peroxynitrite
level.
also
activates
Nrf2
HO-1,
which
regulate
many
antioxidant
enzymes
proteasomes.
Through
its
effect,
maintains
genomic
stability,
mitigates
cellular
senescence,
takes
part
histone
modification,
telomere
maintenance,
proteostasis.
In
addition,
may
prevent
inflammation
nutrient-sensing
mTOR
system,
autophagy,
apoptosis,
mitochondria,
are
all
factors
related
to
ageing.
Hydrogen
can
be
used
prevention
treatment
ageing-related
diseases,
such
neurodegenerative
disorders,
cardiovascular
disease,
pulmonary
diabetes,
cancer.
This
paper
reviews
basic
research
recent
application
order
support
use
medicine
ageing
disease
therapy.
Antioxidants,
Journal Year:
2024,
Volume and Issue:
13(1), P. 90 - 90
Published: Jan. 11, 2024
Chronic
kidney
disease
(CKD),
which
is
globally
on
the
rise,
has
become
an
urgent
challenge
from
perspective
of
public
health,
given
its
risk
factors
such
as
end-stage
renal
failure,
cardiovascular
diseases,
and
infections.
The
pathophysiology
CKD,
including
dialysis
patients,
deeply
associated
with
enhanced
oxidative
stress
in
both
kidneys
entire
body.
Therefore,
introduction
a
safe
widely
applicable
antioxidant
therapy
expected
measure
against
CKD.
Electrolyzed
hydrogen
water
(EHW)
generated
through
electrolysis
been
confirmed
to
possess
chemical
capabilities.
In
Japan,
devices
producing
this
have
popular
for
household
drinking
water.
CKD
model
experiments
conducted
date,
EHW
shown
suppress
progression
damage
related
hypertension.
Furthermore,
clinical
studies
reported
that
systemic
patients
undergoing
treatment
using
suppressed,
leading
reduction
incidence
complications.
future,
considering
one
comprehensive
measures
holds
significant
importance.
medical
utility
believed
be
substantial,
further
investigation
warranted.
Journal of Advanced Research,
Journal Year:
2021,
Volume and Issue:
38, P. 261 - 274
Published: Sept. 1, 2021
Endogenous
gasotransmitters
are
small
gaseous
mediators
that
can
be
generated
endogenously
by
mammalian
organisms.
The
dysregulation
of
the
gasotransmitter
system
is
associated
with
numerous
disorders
ranging
from
inflammatory
diseases
to
cancers.
However,
relevance
these
endogenous
gasotransmitters,
prodrug
donors
and
inhibitors
in
dermatological
has
not
yet
been
thoroughly
reviewed
discussed.This
review
discusses
recent
progress
will
provide
perspectives
on
context
disorders.Endogenous
nitric
oxide
(NO),
carbon
monoxide
(CO)
hydrogen
sulfide
(H2S)
signaling
molecules
regulate
several
physiological
pathological
processes.
In
addition,
sulfur
dioxide
(SO₂),
methane
(CH4),
gas
(H2),
ammonia
(NH3),
(CO2)
also
may
take
part
These
inflammation,
vasodilation,
oxidative
stress,
offering
therapeutic
potential
attracting
interest
field
including
psoriasis,
atopic
dermatitis,
acne,
rosacea,
chronic
skin
ulcers.
development
effective
a
promising
alternative
treat
controllable
precise
delivery
future.
Journal of Translational Medicine,
Journal Year:
2022,
Volume and Issue:
20(1)
Published: Nov. 26, 2022
Sepsis-associated
encephalopathy
(SAE)
is
one
of
the
most
common
types
sepsis-related
organ
dysfunction
without
overt
central
nervous
system
(CNS)
infection.
It
associated
with
higher
mortality,
low
quality
life,
and
long-term
neurological
sequelae
in
suspected
patients.
At
present
there
no
specific
treatment
for
SAE
rather
than
supportive
therapy
judicious
use
antibiotics,
which
are
sometimes
adverse
effects.
Molecular
hydrogen
(H2)
has
been
reported
to
play
crucial
role
regulating
inflammatory
responses,
neuronal
injury,
apoptosis
mitochondrial
adult
models
SAE.
Here
we
report
protective
effect
hydrogen-rich
saline
juvenile
rat
model
its
possible
underling
mechanism(s).Rats
were
challenged
lipopolysaccharide
(LPS)
at
a
dose
8
mg/kg
injected
intraperitoneally
induce
sepsis
(HRS)
administered
1
h
following
LPS
induction
5
ml/kg.
Rats
divided
into:
sham,
sham
+
HRS,
HRS.
48
h,
rats
sacrificed
Nissl
staining
TUNEL
assay
apoptotic
cells
detection,
immunohistochemistry,
ELISA
protocol
cytokines
determination,
parameters,
electron
microscopy
western
blot
analysis
studied
examine
HRS
LPS-induced
septic
rats.Rats
treated
improved
improvement
rats'
survival
rate.
showed
decreased
TNF-α
IL-1β
increased
IL-10
expression
levels
HRS-treated
group.
Apoptotic
after
administration
rats.
The
numbers
GFAP
IBA-1positive
attenuated
group
when
compared
Subsequently,
IBA-1
immunoreactivity
treatment.
Mitochondrial
membrane
potential
detected
by
JC-1
dye
ATP
content
rats,
treatment,
while
release
ROS
was
reverted
ameliorating
dysfunction.
Further
transmission
number
mitochondria
synapses,
disrupted
ultrastructure
group,
synapses
number.These
data
demonstrated
that
can
improve
rate,
attenuate
neuroinflammation,
astrocyte
microglial
activation,
injury
model,
making
it
therapeutic
candidate
treating
paediatric
Pharmaceuticals,
Journal Year:
2023,
Volume and Issue:
16(5), P. 686 - 686
Published: May 2, 2023
The
predominant
route
of
administration
drugs
with
coenzyme
Q10
(CoQ10)
is
per
os.
bioavailability
CoQ10
about
2-3%.
Prolonged
use
to
achieve
pharmacological
effects
contributes
the
creation
elevated
concentrations
in
intestinal
lumen.
can
have
an
effect
on
gut
microbiota
and
levels
biomarkers
it
produces.
at
a
dose
30
mg/kg/day
was
administered
os
Wistar
rats
for
21
days.
(hydrogen,
methane,
short-chain
fatty
acids
(SCFA),
trimethylamine
(TMA))
taxonomic
composition
were
measured
twice:
before
end
experiment.
Hydrogen
methane
using
fasting
lactulose
breath
test,
fecal
blood
SCFA
TMA
determined
by
NMR,
16S
sequencing
used
analyze
composition.
Administration
days
resulted
1.83-fold
(p
=
0.02)
increase
hydrogen
concentration
total
air
sample
(exhaled
+
flatus),
63%
(acetate,
propionate,
butyrate)
feces,
126%
butyrate
0.04),
6.56-fold
0.03)
decrease
levels,
2.4-fold
relative
abundance
Ruminococcus
Lachnospiraceae
AC
2044
group
7.5
times
2.8-fold
representation
Helicobacter.
mechanism
antioxidant
orally
include
modification
increased
generation
molecular
hydrogen,
which
itself.
evoked
level
butyric
acid
be
followed
protection
barrier
function.
