AIP Advances,
Journal Year:
2024,
Volume and Issue:
14(9)
Published: Sept. 1, 2024
Wound
dressings
play
a
critical
role
in
promoting
healing
by
protecting
wounds
from
external
contaminants
and
providing
an
optimal
environment
for
tissue
regeneration.
Traditional
dressings,
such
as
gauze
cotton,
offer
basic
physical
barriers
but
lack
the
ability
to
maintain
moist
wound
environment,
which
is
essential
healing.
Modern
particularly
those
incorporating
electrospun
nanofibers,
have
emerged
advanced
solutions
that
can
sustain
moisture,
absorb
exudate,
support
cell
growth
migration.
This
Review
covers
recent
advances
electrospinning
technologies
design
of
composite
materials
integrate
natural
synthetic
polymers,
bioactive
agents,
nanomaterials
enhance
In
addition,
it
highlights
key
studies
demonstrating
efficacy
these
composites
various
models.
The
primary
objective
this
inspire
guide
future
research
endeavors,
address
existing
limitations,
shed
light
on
promising
prospects
field
Gels,
Journal Year:
2025,
Volume and Issue:
11(2), P. 123 - 123
Published: Feb. 7, 2025
Recent
advancements
in
wound
dressing
materials
have
significantly
improved
acute
and
chronic
management
by
addressing
challenges
such
as
infection
control,
moisture
balance,
enhanced
healing.
Important
progress
has
been
made,
especially
with
hydrogels,
foams,
antimicrobial
for
creating
optimized
dressings.
Hydrogels
are
known
maintaining
optimal
levels,
while
foam
dressings
excellent
exudate
absorbents.
Meanwhile,
incorporates
various
agents
to
reduce
risks.
These
options
healing
time
focusing
on
customized
patient
needs.
Therefore,
this
review
highlights
the
newest
research
prototypes
applications,
emphasizing
their
particular
benefits
clinical
importance.
Innovations
stimuli-responsive
hydrogels
hybrid
bioengineered
composites
discussed
relation
properties,
including
responsiveness
pH,
temperature,
glucose,
or
enzymes
drug
delivery
precision.
Moreover,
ongoing
trials
included,
demonstrating
potential
of
emerging
solutions
be
soon
translated
from
laboratory
settings.
By
discussing
interdisciplinary
approaches
that
integrate
advanced
materials,
nanotechnology,
biological
insights,
work
provides
a
contemporary
framework
patient-centric,
efficient
care
strategies.
Molecules,
Journal Year:
2025,
Volume and Issue:
30(3), P. 686 - 686
Published: Feb. 4, 2025
Chronic
wounds
pose
a
substantial
healthcare
concern
due
to
their
prevalence
and
cost
burden.
This
paper
presents
detailed
overview
of
chronic
emphasizes
the
critical
need
for
novel
therapeutic
solutions.
The
pathophysiology
wound
healing
is
discussed,
including
stages
factors
contributing
chronicity.
focus
on
diverse
types
wounds,
such
as
diabetic
foot
necrosis,
pressure
ulcers,
venous
leg
highlighting
etiology,
consequences,
issues
they
provide.
Further,
modern
care
solutions,
particularly
hydrogels,
are
highlighted
tackling
challenges
management.
Hydrogels
characterized
multipurpose
materials
that
possess
vital
characteristics
like
capacity
retain
moisture,
biocompatibility,
incorporation
active
drugs.
Hydrogels’
effectiveness
in
applications
demonstrated
by
how
support
healing,
preserving
ideal
moisture
levels,
promoting
cellular
migration,
possessing
antibacterial
properties.
Thus,
this
hydrogel
technology’s
latest
developments,
emphasizing
drug-loaded
stimuli-responsive
underscoring
these
advanced
formulations
greatly
improve
therapy
outcomes
enabling
dynamic
focused
reactions
environment.
Future
directions
research
promote
development
customized
treatments
digital
health
tools
treatment
wounds.
Deleted Journal,
Journal Year:
2023,
Volume and Issue:
5(1)
Published: Oct. 23, 2023
Abstract
The
skin
plays
a
fundamental
role
in
regulating
the
body’s
internal
balance
and
protecting
against
external
traumas.
A
broad
variety
of
environmental
risk
factors
frequently
result
acute
wounds,
whose
inappropriate
treatments
would
lead
to
chronic
wounds
that
are
difficult
heal.
Traditional
dressings
have
been
widely
used
repair
however
their
drawbacks
such
as
insufficient
hemostatic
efficacy
non-moist
environment
severely
limited
clinical
applications.
As
principal
component
skin,
collagen
has
always
research
hotspot
field
due
its
advantages
low
antigenicity,
high
biocompatibility
superior
bioactivity.
Collagen-based
increasingly
developed
heal
during
past
decades,
arising
from
capability
decreasing
protein
electrolyte
losses
wound
exudate,
preventing
bacterial
contamination,
permitting
less
painful
dressing
changes,
improving
healing
quality.
This
review
overviews
recent
progress
for
healing.
Various
commonly
management
first
introduced.
Collagen
categorized
films,
sponges,
hydrogels,
nanofibers,
powders,
compared.
critical
functions
healing,
stopping
bleeding,
shortening
inflammation,
promoting
angiogenesis,
stimulating
tissue
regeneration
elaborated.
applications
different
types
thoroughly
summarized.
comprehensive
list
commercialized
updated,
an
outlook
finally
speculated.
Graphical
Materials Horizons,
Journal Year:
2023,
Volume and Issue:
10(9), P. 3237 - 3256
Published: Jan. 1, 2023
This
work
highlights
the
animal
tissue-derived
biomaterials
in
wound
treatment
field
based
on
an
evaluation
of
their
critical
properties,
advanced
design
strategies
and
latest
applications.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(4), P. 3893 - 3893
Published: Feb. 15, 2023
The
present
research
aims
to
describe
a
new
methodology
obtain
biocompatible
hydrogels
based
on
Aloe
vera
used
for
wound
healing
applications.
properties
of
two
(differing
in
concentration,
AV5
and
AV10)
prepared
by
an
all-green
synthesis
method
from
raw,
natural,
renewable
bioavailable
materials
such
as
salicylic
acid,
allantoin
xanthan
gum
were
investigated.
morphology
the
hydrogel
biomaterials
was
studied
SEM
analysis.
rheological
hydrogels,
well
their
cell
viability,
biocompatibility
cytotoxicity,
determined.
antibacterial
activity
evaluated
both
Gram-positive,
Staphylococcus
aureus
Gram-negative,
Pseudomonas
aeruginosa
strains.
obtained
novel
green
showed
good
properties.
In
vitro
scratch
assay
demonstrated
capacity
AV10
accelerate
proliferation
migration
induce
closure
wounded
area.
A
corroboration
all
morphological,
rheological,
cytocompatibility
viability
results
indicates
that
this
may
be
suitable
Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
16(2), P. 155 - 155
Published: Jan. 23, 2024
Wound
infection
due
to
bacterial
invasion
at
the
wound
site
is
one
of
primary
challenges
associated
with
delayed
healing.
Microorganisms
tend
form
biofilms
that
protect
them
from
harm,
leading
their
multidrug
resistance.
The
alarming
increase
in
antibiotic
resistance
poses
a
threat
Hence,
urgent
need
for
novel
dressing
materials
capable
managing
crucial
expediting
recovery.
There
considerable
interest
polymeric
dressings
embedded
bioactive
substances,
such
as
metal-based
nanoparticles,
potential
solutions
treating
microbially
infected
wounds.
Metal-based
nanoparticles
have
been
widely
used
management
wounds
broad
antimicrobial
efficacy.
This
review
focuses
on
polymer-based
and
loaded
like
silver,
gold,
magnesium
oxide,
or
zinc
oxide.
When
compared,
oxide-loaded
exhibited
higher
antibacterial
activity
against
Gram-positive
strains
silver
nanoparticle-loaded
gram-negative
strains.
However,
infused
both
displayed
synergistic
effect
bacteria.
Furthermore,
these
antibiofilm
generation
reactive
oxygen
species
while
accelerating
closure
vitro
vivo.
