Magnetochemistry,
Journal Year:
2024,
Volume and Issue:
10(7), P. 46 - 46
Published: June 29, 2024
Integrating
magnetic
materials
into
dentistry
has
emerged
as
a
promising
advance
for
addressing
diverse
dental
conditions.
Magnetic
particles
comprising
core
encapsulated
within
biocompatible
coating
offer
precise
manipulation
through
external
fields,
rendering
them
invaluable
in
targeted
drug
delivery,
resonance
imaging,
hyperthermia
therapy,
and
diagnostic
assays.
Their
tunable
properties
allow
optimization
specific
applications,
enhancing
therapeutic
efficacy
while
minimizing
off-target
effects.
Additionally,
pre-adjust
magnets
showcase
exceptional
field
strength
energy
density.
utilization
implants
orthodontic
treatments
facilitates
tissue
engineering
tooth
movement,
augmenting
clinical
outcomes
patient
comfort.
This
review
synthesizes
current
research
directions
applications
of
dentistry,
offering
insights
their
potential
to
transform
healthcare
enhance
well-being.
Coatings,
Journal Year:
2025,
Volume and Issue:
15(1), P. 33 - 33
Published: Jan. 2, 2025
In
recent
decades,
the
integration
of
nanotechnology
into
dentistry
has
led
to
groundbreaking
advancements
in
dental
materials
and
applications.
This
article
explores
role
nanoparticles
(NPs)
modern
dentistry,
highlighting
their
definitions,
unique
properties,
various
The
introduction
establishes
significance
health
care,
emphasizing
potential
NPs
transform
traditional
practices.
overview
includes
a
discussion
fundamental
properties
NPs,
which
contribute
effectiveness
categorizes
three
main
groups:
antimicrobial,
therapeutic,
material
property-improving
detailing
clinical
uses
mechanisms
action.
Furthermore,
it
addresses
current
innovations
products
incorporating
examines
emerging
trends
field.
research
for
this
review
was
conducted
using
high-quality,
peer-reviewed
scientific
databases,
including
PubMed,
Scopus,
Web
Science,
Google
Scholar,
with
no
time
restriction
as
an
inclusion
criterion.
These
databases
were
selected
credibility
comprehensive
collections
relevant
studies.
conclusion,
represent
promising
avenue
innovation
therapeutics.
Their
enable
development
enhanced
antimicrobial
agents,
effective
drug
delivery
systems,
improved
performance.
However,
risks
associated
cytotoxicity
stability
must
be
carefully
managed
ensure
safe
use.
Ongoing
is
essential
fully
understand
optimize
applications
balancing
benefits
against
risks.
As
field
advances,
practice
will
likely
revolutionize
approaches
care
treatment.
ACS Biomaterials Science & Engineering,
Journal Year:
2023,
Volume and Issue:
9(6), P. 3084 - 3115
Published: May 13, 2023
Over
the
past
decade,
smart
and
functional
biomaterials
have
escalated
as
one
of
most
rapidly
emerging
fields
in
life
sciences
because
performance
could
be
improved
by
careful
consideration
their
interaction
response
with
living
systems.
Thus,
chitosan
play
a
crucial
role
this
frontier
field
it
possesses
many
beneficial
properties,
especially
biomedical
such
excellent
biodegradability,
hemostatic
antibacterial
activity,
antioxidant
biocompatibility,
low
toxicity.
Furthermore,
is
versatile
biopolymer
due
to
its
polycationic
nature
reactive
groups
that
allow
polymer
form
interesting
structures
or
modified
various
ways
suit
targeted
applications.
In
review,
we
provide
an
up-to-date
development
chitosan-based
nanoparticles,
hydrogels,
nanofibers,
films,
well
application
field.
This
review
also
highlights
several
strategies
enhance
biomaterial
for
fast
growing
applications
drug
delivery
systems,
bone
scaffolds,
wound
healing,
dentistry.
Journal of Dental Research,
Journal Year:
2023,
Volume and Issue:
102(11), P. 1180 - 1190
Published: Aug. 9, 2023
Despite
its
reputation
as
the
most
widely
used
restorative
dental
material
currently,
resin-based
materials
have
acknowledged
shortcomings.
As
systematic
survival
studies
of
resin
composites
and
adhesives
indicate,
secondary
caries
is
foremost
reason
for
restoration
failure
life
span
reduction.
In
subjects
with
high
risk,
microbial
community
dominated
by
acidogenic
acid-tolerant
bacteria
triggers
acid-induced
deterioration
bonding
interface
and/or
bulk
mineral
loss
around
restorations.
addition,
undergo
biodegradation
in
oral
cavity.
a
result,
past
decades
seen
exponential
growth
developing
antimicrobial
applications
addressing
prevention
progression.
Currently,
main
challenge
bioactive
development
identification
efficient
safe
anticaries
agents
that
are
detrimental
free
to
final
properties
show
satisfactory
long-term
performance
favorable
clinical
translation.
This
review
centers
on
continuous
efforts
formulate
novel
resins
employing
1
or
multiple
enhance
antibiofilm
efficacy
achieve
functionalities,
such
remineralization
activity
antidegradation.
We
present
comprehensive
synthesis
constraints
challenges
encountered
formulation
process,
performance-related
prerequisites,
materials’
intended
applicability,
current
advancements
implementation.
Moreover,
we
identify
crucial
vulnerabilities
arise
during
materials,
including
particle
aggregation,
alterations
color,
susceptibility
hydrolysis,
physicomechanical
core
targeted
materials.
Bioactive Materials,
Journal Year:
2023,
Volume and Issue:
27, P. 348 - 361
Published: April 20, 2023
Stable
soft
tissue
integration
around
the
implant
abutment
attenuates
pathogen
penetration,
protects
underlying
bone
tissue,
prevents
peri-implantitis
and
is
essential
in
maintaining
long-term
stability.
The
desire
for
"metal
free"
"aesthetic
restoration"
has
favored
zirconia
over
titanium
abutments,
especially
restorations
anterior
region
patients
with
thin
gingival
biotype.
Soft
attachment
to
surface
remains
a
challenge.
A
comprehensive
review
of
advances
treatment
(micro-design)
structural
design
(macro-design)
affecting
presented
strategies
research
directions
are
discussed.
models
described.
Guidelines
development
surfaces
that
promote
evidence-based
references
inform
clinical
choice
structure
postoperative
maintenance
presented.
Journal of Functional Biomaterials,
Journal Year:
2024,
Volume and Issue:
15(7), P. 173 - 173
Published: June 25, 2024
This
review
article
will
discuss
the
origin
of
resin-based
dental
composite
materials
and
their
adoption
as
potentially
useful
adjuncts
to
primary
material
used
by
most
dentists
for
direct
restorations.
The
evolution
materials,
largely
driven
industry's
response
needs
dentists,
has
produced
that
are
esthetic,
strong,
versatile
enough
be
in
areas
oral
cavity
replace
or
restore
missing
tooth
structures.
Significant
advancements,
such
transition
from
chemical
light-curing
refinements
reinforcing
particles
produce
optimum
polishing
wear
resistance,
formulating
pastes
with
altered
viscosities
create
highly
flowable
stiff
creating
enhanced
depth
cure
facilitate
placement,
highlighted.
Future
advancements
likely
reflect
movement
away
simply
being
a
biocompatible
one
is
designed
some
type
beneficial
effect
upon
interaction
within
environment.
These
new
have
been
called
"bioactive"
virtue
potential
effects
on
bacterial
biofilms
ability
promote
mineralization
adjacent
Antibiotics,
Journal Year:
2023,
Volume and Issue:
12(11), P. 1570 - 1570
Published: Oct. 27, 2023
Eugenol
(4-Allyl-2-methoxy
phenol)
(EUG)
is
a
plant-derived
allyl
chain-substituted
guaiacol,
widely
known
for
its
antimicrobial
and
anesthetic
properties,
as
well
the
ability
to
scavenge
reactive
oxygen
species.
It
typically
used
mixture
with
zinc
oxide
(ZOE)
preparation
of
restorative
tooth
fillings
treatment
root
canal
infections.
However,
high
volatility
this
insoluble-in-water
component
natural
essential
oils
can
be
an
obstacle
wider
application.
Moreover,
molecular
eugenol
allergenic
even
toxic
if
taken
orally
in
doses
long
periods
time.
Therefore,
growing
interest
loading
polymeric
materials
(including
encapsulation
polymerization
EUG-derived
monomers)
has
been
noted
recently.
Such
active
macromolecular
systems
enhance
stability
action
potentially
provide
prolonged
contact
pathogens
without
undesired
side
effects
free
EUG.
In
review,
we
present
overview
methods
leading
formation
derivatives
latest
developments
further
perspectives
their
pharmacological
applications.
Materials,
Journal Year:
2024,
Volume and Issue:
17(17), P. 4255 - 4255
Published: Aug. 28, 2024
Today,
smart
materials
are
commonly
used
in
various
fields
of
science
and
technology,
such
as
medicine,
electronics,
soft
robotics,
the
chemical
industry,
automotive
field,
many
others.
Smart
polymeric
hold
good
promise
for
future
due
to
their
endless
possibilities.
This
group
advanced
can
be
sensitive
changes
or
presence
chemical,
physical,
biological
stimuli,
e.g.,
light,
temperature,
pH,
magnetic/electric
pressure,
microorganisms,
bacteria,
viruses,
toxic
substances,
review
concerns
newest
achievements
area
materials.
The
recent
advances
designing
stimuli-responsive
polymers
described
this
paper.
