Selcuk Dental Journal,
Год журнала:
2025,
Номер
12(1), С. 191 - 196
Опубликована: Апрель 21, 2025
CAD-CAM
technology
has
been
used
in
dentistry
for
many
years.
Its
advantages
over
traditional
methods
include
easy
manufacturing,
accuracy,
and
variety
of
restorative
materials.
While
subtractive
manufacturing
performed
with
milling
units;
three
dimensional
(3D)
printers
are
additive
during
the
computer-aided
production
procedure.
The
process
uses
different
approaches
a
varied
range
3D
printers.
This
review
focuses
on
current
methods,
as
well
their
applications
prosthetic
dentistry.
Three-dimensional
(3D)
printing
technology
has
revolutionized
dentistry,
particularly
in
fabricating
provisional
restorations.
This
systematic
review
and
meta-analysis
aimed
to
thoroughly
evaluate
the
flexural
strength
of
restorations
produced
using
3D
while
considering
impact
different
resin
materials.
Polymers,
Год журнала:
2025,
Номер
17(3), С. 316 - 316
Опубликована: Янв. 24, 2025
Additive
manufacturing
(3D
printing)
has
transformed
dentistry
by
providing
solutions
with
high
precision
and
accuracy
achieved
through
digital
workflows,
which
facilitate
the
creation
of
intricate
personalized
structures.
Additionally,
3D
printing
promotes
cost
efficiency
reducing
material
waste
errors
while
enabling
on-demand
production,
minimizing
need
for
extensive
inventories.
Recent
advancements
in
3D-printed
resin
materials
have
enhanced
their
clinical
applications
improving
mechanical
strength,
biocompatibility,
esthetics,
durability.
These
innovations
facilitated
fabrication
complex
patient-specific
structures,
such
as
dental
prostheses,
surgical
guides,
orthodontic
appliances,
significantly
production
time
waste.
Ongoing
research
innovation
are
expected
to
strengthen
properties,
including
translucency,
durability,
broadening
applications.
The
ongoing
evolution
technology
is
poised
play
a
critical
role
driving
treatments,
streamlining
shaping
future
care.
This
narrative
review
comprehensively
examines
techniques
photopolymer
resins
across
various
specialties,
prosthodontics,
orthodontics,
pediatric
dentistry,
maxillofacial
surgery,
periodontology,
endodontics,
conservative
dentistry.
provides
insight
into
transformative
impact
these
technologies
on
patient
care,
highlights
existing
challenges,
suggests
directions
advancing
properties
integration
routine
practice.
International Journal of Molecular Sciences,
Год журнала:
2023,
Номер
24(23), С. 16952 - 16952
Опубликована: Ноя. 29, 2023
Biodegradable
polymers
are
materials
that,
thanks
to
their
remarkable
properties,
widely
understood
be
suitable
for
use
in
scientific
fields
such
as
tissue
engineering
and
engineering.
Due
the
alarming
increase
number
of
diagnosed
diseases
conditions,
great
interest
biomedical
applications
especially.
The
biodegradable
biomedicine
is
constantly
expanding.
application
new
techniques
or
improvement
existing
ones
makes
it
possible
produce
with
desired
mechanical
strength,
controlled
degradation
time
rate
antibacterial
antimicrobial
properties.
In
addition,
these
can
take
virtually
unlimited
shapes
a
result
appropriate
design.
This
additionally
desirable
when
necessary
develop
structures
that
support
restore
proper
functioning
systems
body.
Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials,
Год журнала:
2024,
Номер
152, С. 106458 - 106458
Опубликована: Фев. 7, 2024
To
investigate
the
influence
of
material
and
printing
orientation
on
wear
resistance
flexural
properties
one
low
force
SLA-
two
DLP-printed
splint
materials
to
compare
these
3D-printed
splints
a
subtractively
manufactured
material.
Two
(V-Print
splint,
LuxaPrint
Ortho
Plus)
SLA-printed
(Dental
LT
Clear)
material,
where
specimens
were
printed
in
three
orientations
(0°,
45°,
90°),
investigated.
In
addition,
milled
(Zirlux
Splint
Transparent)
was
examined.
A
total
160
produced
for
both
test
series.
The
two-body
performed
chewing
simulator
(80′000
cycles
at
50
N
with
5–55
°C
thermocycling).
Steatite
balls
used
as
antagonists.
pattern
analyzed
3D
digital
microscope
terms
maximum
vertical
intrusion
depth
(mm)
volume
loss
(mm³).
investigated
by
three-point
bending
accordance
ISO
20795-1:
2013
(denture
base
polymers).
strength
(MPa)
modulus
measured.
Two-way
ANOVA
effects
independent
variables
materials.
comparison
within
carried
out
one-way
post-hoc
Tukey
tests.
revealed
that
are
highly
dependent
(p
<
0.001).
Across
groups,
significant
effect
observed
=
0.031)
0.044)
regard
but
this
not
found
0.080)
0.136).
One-way
showed
groups
no
differences
properties.
Dental
Clear
90°
oriented
had
higher
than
0°
ones
0.001)
45°
also
values
0.038).
No
behaviour
group.
T-tests
exhibited
statistically
compared
all
between
Within
limitations
in-vitro
study,
it
can
be
stated
itself.
Currently,
exhibit
has
minor
Nevertheless,
two-way
across
detected
SLA-material
strength,
showing
highes
strength.
Therefore,
anisotropy
SLA
limited
employed
parameters.
Both
difference
orientation.
Chemical Society Reviews,
Год журнала:
2024,
Номер
53(8), С. 3656 - 3686
Опубликована: Янв. 1, 2024
This
review
provides
a
comprehensive
overview
of
the
latest
nanochemistry
advancements
in
design,
synthesis,
and
utilization
engineered
gold
nanostructures
(GNSs)
for
dental
healthcare
applications.
Bratislavské lekárske listy/Bratislava medical journal,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 27, 2025
Abstract
3D
printing
technologies
are
manufacturing
based
on
computer-designed
digital
models
that
allow
fabrication
of
layered
three-dimensional
objects.
This
review
aims
to
present
a
summary
the
literature
published
3D-printed
polymer
and
composite
materials
in
dentistry.
A
search
was
performed
using
PubMed
database
identify
eligible
articles.
In
total
508
articles
were
identified
original
query,
with
362
being
eliminated
exclusion
criteria
146
screened
their
abstracts,
68
studied
detail.
Subsequently,
these
divided
into
three
groups
area
application:
(1)
restorative
dentistry,
which
included
printed
crowns,
bridges,
veneers;
(2)
regenerative
dentistry
tissue
engineering,
such
as
scaffolds;
(3)
oral
guides
other
appliances,
surgical
guides,
dental
implants,
splints.
this
technology
is
described,
including
its
benefits
regarding
working
time,
accuracy
overall
design
products.
The
shows
most
application
printable
polymers
composites
Even
though
for
properties
effects
human
body
well
environment,
novel
specific
revolutionary
characteristics
have
emerged
recent
years
given
special
attention.
However,
more
research
needed
ensure
safety
use
confirm
both
vivo
vitro
conditions.
European Polymer Journal,
Год журнала:
2023,
Номер
201, С. 112553 - 112553
Опубликована: Ноя. 7, 2023
Fused
Filament
Fabrication
(FFF,
a.k.a.
fused
deposition
modeling,
FDM)
is
presently
the
most
widespread
material
extrusion
(MEX)
additive
manufacturing
technique
owing
to
its
flexibility
and
robustness.
Nonetheless,
it
remains
underutilized
in
load-bearing
applications,
as
often
seen
aerospace,
automotive
biomedical
industries.
This
largely
due
processing
challenges
associated
with
high
performance
polymers
(HPPs)
like
poly-ether-ether-ketone
(PEEK)
or
polyetherimide
(PEI).
Compared
commercial-grade
plastics
such
polylactic
acid
(PLA),
parts
produced
HPPs
have
outstanding
mechanical
properties
thermal
stability.
However,
bulkier
chemical
structures
stronger
intermolecular
forces
than
common
FFF
feedstock
materials,
this
results
much
higher
printing
temperatures
greater
melt
viscosities.
The
demanding
requirements
of
thus
impaired
their
adoption
within
FFF.
Polymer
blending,
which
consists
properly
mixing
other
thermoplastics,
makes
possible
alleviate
these
issues,
while
also
providing
additional
advantages
improved
tensile
strength
reduced
friction.
Further
this,
manipulating
crystallisation
processes
mitigates
distortion
warping
upon
printing.
review
explores
some
emerging
trends
field
HPP
blends
how
they
address
excessive
viscosity,
polymer
crystallization,
moisture
uptake,
part
shrinkage
3D
Also,
various
structural/mechanical/chemical
enhancements
that
are
afforded
through
blending
critically
analysed
based
on
recent
examples
from
literature.
Such
insights
will
not
only
aid
researchers
field,
but
facilitate
development
novel,
printable
blends.
In
dentistry,
the
integration
of
additive
manufacturing,
particularly
3D
printing,
has
marked
significant
progress.
However,
emergence
4D
which
allows
materials
to
change
shape
dynamically
in
response
stimuli,
opens
up
new
avenues
for
innovation.
This
review
sheds
light
on
recent
advancements
and
potential
applications
printing
delving
into
fundamental
principles
involved.
It
emphasizes
versatility
shape-changing
polymers
composites,
highlighting
their
ability
adapt
dynamically.
Furthermore,
explores
challenges
opportunities
integrating
dental
practice,
including
customization
prosthetics,
orthodontic
devices,
drug
delivery
systems
also
probing
benefits
utilizing
stimuli-responsive
improve
patient
comfort,
treatment
outcomes,
overall
efficiency
discusses
current
limitations
future
directions,
emphasizing
importance
standardized
fabrication
techniques,
biocompatible
materials,
regulatory
considerations.
Owing
its
diverse
advantages,
technology
is
poised
transform
multiple
facets
thereby
fostering
development
healthcare
solutions
that
are
more
tailored,
effective,
centered
around
needs.
