International Journal of Scientific Research in Science and Technology,
Journal Year:
2024,
Volume and Issue:
11(6), P. 826 - 840
Published: Dec. 27, 2024
The
integration
of
silver
nanoparticles
(AgNPs)
into
bone
cement
has
emerged
as
a
cutting-edge
approach
to
enhance
the
functional
properties
orthopedic
biomaterials.
Silver
nanoparticles,
known
for
their
broad-spectrum
antimicrobial
properties,
provide
an
innovative
solution
combat
implant-associated
infections.
This
review
delves
synthesis
methods,
including
in
situ
formation
and
physical
blending,
examines
performance
AgNP-infused
terms
efficacy,
mechanical
strength,
biocompatibility.
By
addressing
challenges
such
cytotoxicity
regulatory
considerations,
this
analysis
highlights
its
transformative
potential
reducing
infection
rates,
enhancing
implant
longevity,
ultimately
improving
patient
outcomes
surgeries.
Nanomedicine,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 17
Published: May 15, 2025
For
proper
cellular
growth,
to
prepare
tissue
scaffold
mimicking
the
properties
is
a
significant
challenge.
Bone
vital
organ
supporting
whole
human
body
for
its
function.
The
efficiencies
in
structure
variety
of
reasons
should
properly
be
remedied.
engineering
(BTE)
an
emerging
field
addressing
develop
or
repair
bone
naturally
piezoelectric
material
and
generates
electrical
stimuli
because
mechanical
stress.
Thus,
use
materials
build
great
interest
BTE.
Both
polymers
nanomaterials
(NMs)
are
investigated
this
goal.
In
review,
we
give
overview
recent
advances
NMs
construct
scaffolds
Materials,
Journal Year:
2024,
Volume and Issue:
17(24), P. 6127 - 6127
Published: Dec. 14, 2024
Nanocomposites
based
on
Fe3O4
and
carbonaceous
nanoparticles
(CNPs),
including
carbon
nanotubes
(CNTs)
graphene
derivatives
(graphene
oxide
(GO)
reduced
(RGO)),
such
as
Fe3O4@GO,
Fe3O4@RGO,
Fe3O4@CNT,
have
demonstrated
considerable
potential
in
a
number
of
health
applications,
tissue
regeneration
innovative
cancer
treatments
hyperthermia
(HT).
This
is
due
to
their
ability
transport
drugs
generate
localized
heat
under
the
influence
an
alternating
magnetic
field
Fe3O4.
Despite
promising
CNTs
drug
delivery
systems,
use
biological
applications
hindered
by
challenges
related
dispersion
physiological
media
particle
agglomeration.
Hence,
solid
foundation
has
been
established
for
integration
various
synthesis
techniques
these
nanocomposites,
with
wet
co-precipitation
method
being
most
prevalent.
Moreover,
dimensions
morphology
composite
are
directly
correlated
value
saturation,
thus
influencing
efficiency
other
significant
biomedical
applications.
The
current
demand
this
type
material
loading
larger
quantity
within
hybrid
structure
carrier,
objective
releasing
amount
into
tumor
cells.
A
second
refers
biocompatibility
carrier
its
capacity
permeate
cell
membranes,
well
processes
occurring
carriers.
main
paper
review
methods
used
prepare
hybrids
CNPs,
GO,
RGO,
CNTs,
examinate
role
formation
correlation
between
morphology,
dimensions,
optical/magnetic
properties.
International Journal of Scientific Research in Science and Technology,
Journal Year:
2024,
Volume and Issue:
11(6), P. 826 - 840
Published: Dec. 27, 2024
The
integration
of
silver
nanoparticles
(AgNPs)
into
bone
cement
has
emerged
as
a
cutting-edge
approach
to
enhance
the
functional
properties
orthopedic
biomaterials.
Silver
nanoparticles,
known
for
their
broad-spectrum
antimicrobial
properties,
provide
an
innovative
solution
combat
implant-associated
infections.
This
review
delves
synthesis
methods,
including
in
situ
formation
and
physical
blending,
examines
performance
AgNP-infused
terms
efficacy,
mechanical
strength,
biocompatibility.
By
addressing
challenges
such
cytotoxicity
regulatory
considerations,
this
analysis
highlights
its
transformative
potential
reducing
infection
rates,
enhancing
implant
longevity,
ultimately
improving
patient
outcomes
surgeries.
