Journal of Inflammation Research,
Год журнала:
2024,
Номер
Volume 17, С. 10047 - 10064
Опубликована: Ноя. 1, 2024
Atopic
dermatitis
(AD)
is
a
common
pediatric
skin
disease,
with
recent
studies
suggesting
role
for
ferroptosis
in
its
pathogenesis.
Sodium
propionate
(SP)
has
shown
therapeutic
potential
AD,
yet
mechanism,
particularly
regarding
modulation,
remains
unclear.
This
study
aims
to
explore
whether
SP
alleviates
AD
by
modulating
ferroptosis-related
pathways
through
bioinformatic
and
vitro
analyses.
International Journal of Molecular Sciences,
Год журнала:
2025,
Номер
26(4), С. 1734 - 1734
Опубликована: Фев. 18, 2025
The
human
body
is
known
as
a
responsive
healing
machine,
but
sometimes,
broken
bones
do
not
heal,
especially
if
bacterial
infection
present.
present
study
describes
the
fabrication
and
characterization
of
nanocomposite
hydrogel
patch
incorporated
with
silicon
nitride
magnesium
oxide
(MgO)
deposited
on
halloysite
nanotube
(HNT)
surface
using
facile
inexpensive
electrodeposition
coating
process.
Scanning
electron
microscopy
(SEM)
was
used
to
observe
morphology
MgO/HNT
patch.
Material
characterization,
including
SEM,
contact
angle,
pore
size
analysis,
tensile
properties,
performed
determine
composite's
structure
material
properties.
E.
coli
S.
aureus
cultures
were
test
antimicrobial
Cellular
response
MgO/HNTs
studied
mouse
embryonic
fibroblasts.
discovered
possess
inherent
properties
when
tested
against
cultures,
it
found
enhance
fibroblast
cell
migration
proliferation.
also
showed
sustained
drug
release.
Materials
involved
in
helped
swelling
by
which
has
approximately
400%
its
initial
weight
during
test.
Materials,
Год журнала:
2024,
Номер
17(19), С. 4792 - 4792
Опубликована: Сен. 29, 2024
Hydrogels,
known
for
their
unique
ability
to
retain
large
amounts
of
water,
have
emerged
as
pivotal
materials
in
both
tissue
engineering
and
biosensing
applications.
This
review
provides
an
updated
comprehensive
examination
cutting-edge
hydrogel
technologies
multifaceted
roles
these
fields.
Initially,
the
chemical
composition
intrinsic
properties
natural
synthetic
hydrogels
are
discussed,
highlighting
biocompatibility
biodegradability.
The
manuscript
then
probes
into
innovative
scaffold
designs
fabrication
techniques
such
3D
printing,
electrospinning,
self-assembly
methods,
emphasizing
applications
regenerating
bone,
cartilage,
skin,
neural
tissues.
In
realm
biosensing,
hydrogels’
responsive
nature
is
explored
through
integration
optical,
electrochemical,
piezoelectric
sensors.
These
sensors
instrumental
medical
diagnostics
glucose
monitoring,
pathogen
detection,
biomarker
identification,
well
environmental
industrial
like
pollution
food
quality
monitoring.
Furthermore,
explores
cross-disciplinary
innovations,
including
use
wearable
devices,
hybrid
systems,
potential
personalized
medicine.
By
addressing
current
challenges
future
directions,
this
aims
underscore
transformative
impact
advancing
healthcare
practices,
thereby
providing
a
vital
resource
researchers
practitioners
field.
International Journal of Molecular Sciences,
Год журнала:
2025,
Номер
26(6), С. 2544 - 2544
Опубликована: Март 12, 2025
Excessive
amounts
of
free-oxygen
radicals
produced
during
inflammation
induce
oxidative
stress
and
lead
to
cell
damage,
thus
delaying
the
transition
into
proliferation
in
wound
healing
process.
Oxidative
on
skin
cells
also
plays
an
important
role
pathogenesis
inflammatory
diseases.
The
aim
planned
vitro
studies
was
assess
mechanisms
regenerative
action
protection
against
three
oil
emulsions
from
transgenic
(GMO)
flax
varieties
M,
B,
MB
a
linseed
emulsion
traditional
NIKE
oil.
Antioxidant
gene-protective
properties
were
identified
for
tested
healthy
model
under
stress.
wound-healing
potential
these
assessed
proliferation,
cycle,
migration,
apoptosis
necrosis
assays.
conducted
research
presented
that
are
safe
human
because
they
do
not
cancer
and,
at
same
time,
migration
processes
normal
cells.
Additionally,
their
use
increases
ability
eliminate
damaged
Transgenic
oils
provide
effect
increased
antioxidant
effect,
resulting
stress,
which
atopic
dermatitis
psoriasis.
Linen
B
has
best
protective
epidermis
cancer,
is
probably
due
presence
amount
stigmasterol
its
composition
along
with
appropriate
content
polyphenol
compounds,
as
well
oleic
linoleic
acids.
Polymer Engineering and Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 25, 2025
Abstract
Concerns
over
the
potential
health
risks
and
environmental
impact
of
synthetic
cosmetic
ingredients
have
led
to
a
growing
demand
for
safer,
eco‐friendly
alternatives.
Biopolymers,
derived
from
natural
sources,
offer
unique
advantages,
including
biodegradability,
biocompatibility,
nontoxicity,
making
them
ideal
candidates
formulations.
Their
ability
form
hydrogels,
films,
emulsions
allows
versatile
applications,
while
their
superior
water
retention
moisture‐binding
properties
make
valuable
in
skin
hydration
anti‐aging
products.
This
review
provides
comprehensive
analysis
current
use
biopolymer‐based
materials
cosmetics,
focusing
on
physicochemical
address
key
industry
challenges.
It
highlights
hyaluronic
acid,
alginate,
chitosan
as
most
frequently
utilized
biopolymers,
given
significant
roles
hydration,
active
ingredient
encapsulation,
barrier
enhancement.
The
these
other
biopolymers
replace
polymers,
offering
safer
more
sustainable
option
consumers,
is
also
explored.
By
identifying
gaps
research
outlining
latest
advancements,
this
aims
promote
further
innovation
development
materials,
ultimately
contributing
effective
solutions.
Highlights
Biopolymeric
solutions
They
enable
biocompatible
innovations.
Controlled
release
actives
via
biopolymer
matrices
cosmetics.
Advanced
systems
improve
delivery
efficacy
Pulmonary
fibrosis
(PF)
is
a
progressive
interstitial
lung
disease
characterized
by
excessive
extracellular
matrix
deposition
and
tissue
scarring,
leading
to
impaired
function
respiratory
failure.
Although
current
treatments,
such
as
pirfenidone
nintedanib,
slow
progression,
they
fail
completely
halt
or
reverse
fibrosis.
Therefore,
innovative
therapeutic
strategies
are
needed.
Targeted
drug
delivery
systems
(TDDSs)
emerging
promising
solutions.
Biomaterials
play
critical
roles
in
these
enhancing
specificity,
availability,
efficacy,
while
minimizing
systemic
toxicity.
The
most
notable
biomaterials
include
nanotechnology-based
systems,
including
liposomes
polymeric
nanoparticles,
which
facilitate
penetration
release
fibrotic
tissues.
Hydrogels
have
three-dimensional
structures
providing
controlled
sustained
at
inflammation
sites,
therefore
particularly
valuable
PF
treatment.
Furthermore,
biological
carriers
stem
cells
vesicles
biocompatibility
anti-inflammatory
effects
that
improve
outcomes.
Despite
the
potential
of
clinical
translation
hindered
several
challenges,
immune
clearance,
stability
platforms,
optimization
retention
within
diseased
Interdisciplinary
approaches
integrating
precision
medicine
with
advancements
may
provide
solutions
opening
new
avenues
for
This
review
discusses
developments
targeted
PF,
emphasizing
importance
biomaterials,
mechanisms
barriers
involved
pulmonary
delivery,
future
perspectives
overcoming
limitations.
ultimate
goal
patient
outcomes
revolutionizing
approach
treatment
through
advanced
technologies.
RSC Advances,
Год журнала:
2025,
Номер
15(15), С. 11688 - 11729
Опубликована: Янв. 1, 2025
Cellulose-derived
hydrogels
have
emerged
as
game-changing
materials
in
biomedical
research,
offering
an
exceptional
combination
of
water
absorption
capacity,
mechanical
resilience,
and
innate
biocompatibility.
