Gels,
Journal Year:
2023,
Volume and Issue:
9(8), P. 617 - 617
Published: July 29, 2023
The
growing
impact
of
infections
and
the
rapid
emergence
antibiotic
resistance
represent
a
public
health
concern
worldwide.
exponential
development
in
field
biomaterials
its
multiple
applications
can
offer
solution
to
problems
that
derive
from
these
situations.
In
this
sense,
antimicrobial
hydrogels
promising
opportunity
with
translational
expectations
medical
management
infectious
diseases
due
their
unique
physicochemical
biological
properties
as
well
for
drug
delivery
specific
areas.
Hydrogels
are
three-dimensional
cross-linked
networks
hydrophilic
polymers
absorb
retain
large
amounts
water
or
fluids.
Moreover,
(AMH)
present
good
biocompatibility,
low
toxicity,
availability,
viscoelasticity,
biodegradability,
properties.
review,
we
collect
discuss
most
strategies
AMH,
which
divided
into
inherent
activity
agent-loaded
based
on
composition.
Then,
an
overview
main
applications:
wound
healing,
tissue
engineering
regeneration,
systems,
contact
lenses,
3D
printing,
biosensing,
purification.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(19), P. 13535 - 13564
Published: Jan. 1, 2024
Nanoparticle-hydrogel
systems
are
versatile
biomaterials
that
possess
numerous
advantages
for
biomedical
applications.
This
review
focuses
on
the
application
of
nanoparticle-hydrogels
system
delivery
antimicrobial
agents.
Emerging contaminants,
Journal Year:
2024,
Volume and Issue:
10(3), P. 100336 - 100336
Published: March 29, 2024
Hydrogels
have
various
potential
applications
due
to
their
unique
characteristics
and
recently,
hydrogels
been
utilized
as
adsorbents
in
wastewater
treatment
because
of
ability
remove
contaminants
from
water.
Constructing
strong
with
high
adsorption
capabilities
is
crucial
for
effective
treatment.
Scientists
researchers
are
working
improve
the
properties
by
incorporating
inorganic
elements
into
polymer
networks,
which
further
reduces
costs
well
simplifies
preparation.
Natural
polymers
like
starch
alginate
widespread
economic
biological
advantages,
such
biodegradability,
biocompatibility,
reduced
toxicity,
environmental
friendliness,
low
cost.
The
pollutants
onto
use
antimicrobial
agents
has
garnered
significant
attention.
This
review
paper
summarizes
latest
studies
on
using
endocrine-disrupting
chemicals
(EDCs),
persistent
organic
(POPs),
other
emerging
water
environments
along
agents.
In
first
step,
different
classes
characterization
techniques
discussed.
Next
elaborated
understand
how
these
can
be
a
candidate
activities.
While
discussing
application
hydrogels,
isothermal,
kinetics
thermodynamics
models
discussed
highlight
mechanism
nature
forces
involved
pollutants.
Further
simulations
DFT
MD
get
more
holistic
understanding
hydrogels.
A
limited
number
Monte
Carlo
computational
fluid
dynamics
(CFD)
so
it
important
explore
variety
methods
gain
comprehensive
process
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.
Journal of Functional Biomaterials,
Journal Year:
2025,
Volume and Issue:
16(3), P. 91 - 91
Published: March 5, 2025
Chronic
wound
infections
present
a
persistent
medical
challenge;
however,
advancements
in
dressings
and
antimicrobial
nanomaterials
offer
promising
solutions
for
improving
healing
outcomes.
This
study
introduces
hydrothermal
synthesis
approach
producing
zinc
oxide
(ZnO)
copper
(CuO)
nanoparticles,
subsequently
incorporated
into
PLGA
microspheres
embedded
within
collagen
hydrogels.
The
nanoparticles’
physicochemical
properties
were
characterized
using
X-ray
diffraction
(XRD)
to
confirm
crystalline
structure,
scanning
electron
microscopy
(SEM)
surface
morphology,
Fourier-transform
infrared
spectroscopy
(FT-IR)
verify
functional
groups
successful
hydrogel
integration.
hydrogels
tested
activity
against
Staphylococcus
aureus,
Pseudomonas
aeruginosa,
Candida
albicans,
which
are
key
pathogens
chronic
wounds.
Biocompatibility
was
assessed
the
human
HaCat
keratinocyte
cell
line.
Both
ZnO-
CuO-loaded
exhibited
broad-spectrum
efficacy.
Cytocompatibility
tests
demonstrated
that
both
sustain
viability
proliferation,
highlighting
their
biocompatibility
suitability
applications,
with
superior
biological
performance
of
ZnO-loaded
Furthermore,
distinct
profiles
ZnO
CuO
suggest
tailored
use
based
on
microbial
composition,
excelling
antibacterial
applications
showing
potential
antifungal
treatments.
These
results
underscore
nanoparticle-based
as
innovative
therapeutic
tools
managing
Biomaterials Research,
Journal Year:
2023,
Volume and Issue:
27(1)
Published: Feb. 9, 2023
Diabetic
ulcers
(DUs)
are
one
of
the
most
serious
complications
diabetes
mellitus.
The
application
a
functional
dressing
is
crucial
step
in
DU
treatment
and
associated
with
patient's
recovery
prognosis.
However,
traditional
dressings
simple
structure
single
function
cannot
meet
clinical
requirements.
Therefore,
researchers
have
turned
their
attention
to
advanced
polymer
hydrogels
solve
therapeutic
bottleneck
treatment.
Hydrogels
class
gels
three-dimensional
network
that
good
moisturizing
properties
permeability
promote
autolytic
debridement
material
exchange.
Moreover,
mimic
natural
environment
extracellular
matrix,
providing
suitable
surroundings
for
cell
proliferation.
Thus,
different
mechanical
strengths
biological
been
extensively
explored
as
platforms.
In
this
review,
we
define
types
elaborate
mechanisms
by
which
they
repair
DUs.
summarize
pathological
process
DUs
review
various
additives
used
Finally,
examine
limitations
obstacles
exist
development
clinically
relevant
applications
these
appealing
technologies.
This
defines
carefully
diabetic
(DUs),
summarizes
DUs,
reviews
bioactivators
Gels,
Journal Year:
2023,
Volume and Issue:
9(12), P. 960 - 960
Published: Dec. 7, 2023
Hydrogels
have
emerged
as
a
versatile
and
promising
class
of
materials
in
the
field
3D
printing,
offering
unique
properties
suitable
for
various
applications.
This
review
delves
into
intersection
hydrogels
exploring
current
research,
technological
advancements,
future
directions.
It
starts
with
an
overview
hydrogel
basics,
including
composition
properties,
details
used
printing.
The
explores
diverse
printing
methods
hydrogels,
discussing
their
advantages
limitations.
emphasizes
integration
3D-printed
biomedical
engineering,
showcasing
its
role
tissue
regenerative
medicine,
drug
delivery.
Beyond
healthcare,
it
also
examines
applications
food,
cosmetics,
electronics
industries.
Challenges
like
resolution
limitations
scalability
are
addressed.
predicts
trends
material
development,
techniques,
novel
International Journal of Biological Macromolecules,
Journal Year:
2024,
Volume and Issue:
278, P. 134977 - 134977
Published: Aug. 24, 2024
Antibiotic
resistance
(ABR)
poses
a
universal
concern
owing
to
the
widespread
use
of
antibiotics
in
various
sectors.
Nanotechnology
emerges
as
promising
solution
combat
ABR,
offering
targeted
drug
delivery,
enhanced
bioavailability,
reduced
toxicity,
and
stability.
This
comprehensive
review
explores
concepts
antibiotic
resistance,
its
mechanisms,
multifaceted
approaches
ABR.
The
provides
an
in-depth
exploration
polymeric
nanoparticles
advanced
delivery
systems,
focusing
on
strategies
for
targeting
microbial
infections
contributing
fight
against
Nanoparticles
revolutionize
antimicrobial
approaches,
emphasizing
passive
active
targeting.
role
molecules,
including
small
peptides,
proteins,
carbohydrates,
stimuli-responsive
is
being
explored
recent
research
works.
complex
comprehension
mechanisms
ABR
strategic
nanotechnology
present
avenue
advancing
tactics,
ensuring
treatment
efficacy,
minimizing
toxic
effects,
mitigating
development
Polymeric
nanoparticles,
derived
from
natural
or
synthetic
polymers,
are
crucial
overcoming
Natural
polymers
like
chitosan
alginate
exhibit
inherent
antibacterial
properties,
while
such
polylactic
acid
(PLA),
polyethylene
glycol
(PEG),
polycaprolactone
(PCL)
can
be
engineered
specific
effects.
study
valuable
source
information
researchers,
healthcare
professionals,
policymakers
engaged
urgent
quest
overcome
Journal of Macromolecular Science Part A,
Journal Year:
2024,
Volume and Issue:
61(5), P. 265 - 288
Published: March 19, 2024
Hydrogels
comprise
of
a
group
crosslinked
hydrophilic
polymeric
materials
which
are
capable
absorbing
and
holding
large
quantities
water
in
their
three-dimensional
network
structure
without
undergoing
dissolution.
More
importantly,
the
ability
'smart'
hydrogels
to
respond
certain
environmental
changes
e.g.
pH,
heat,
light,
magnetic
field,
biomolecules
have
set
them
apart
as
unique
class
materials.
A
combination
several
such
useful
properties
resulted
tremendous
progress
toward
development
advanced
hydrogel-based
materials,
is
evident
from
an
explosive
amount
research
publications
available
this
area
over
last
few
decades.
Owing
particularly
biocompatibility
biodegradability,
become
material
prime
importance
context
wide
range
applications
starting
simple
contact
lenses
more
complex
ones
tissue
repair,
drug
delivery,
sensors,
3D
bioprinting,
soft
robotics
agriculture.
This
review
includes
i)
overview
its
classifications
based
on
source,
structure,
crosslinking
mechanism
stimuli
responsiveness,
ii)
detailed
discussion
some
most
works
being
carried
out
field
years
smart
that
need
hour,
domain
biomedical
applications.
