Bioprinting,
Journal Year:
2024,
Volume and Issue:
42, P. e00356 - e00356
Published: Aug. 24, 2024
The
utilization
of
3D
printing
technologies
is
extensively
pervasive
across
diverse
sectors,
including
design,
engineering,
and
manufacturing.
These
sophisticated
manufacturing
techniques
depend
on
digitally
designed
models
to
autonomously
construct
objects.
With
the
growing
interest
in
within
dentistry,
specifically
regarding
dental
implants,
there
has
been
a
rapid
dissemination
information
pertaining
this
domain
its
applications.
As
result,
it
become
crucial
conduct
comprehensive
review
topic.
have
played
pivotal
role
oral
implantology.
This
provides
analysis
current
state
future
needs
implant
covering
technologies,
printable
materials,
applications
both
surgical
prosthodontic
stages
therapy.
Furthermore,
discusses
considerations
for
choosing
appropriate
technology
specific
examination
offers
key
insights
into
progress,
practical
uses,
prospects
implants.
Asian Journal of Pharmaceutical Sciences,
Journal Year:
2023,
Volume and Issue:
18(3), P. 100812 - 100812
Published: April 27, 2023
Biopolymers
are
promising
environmentally
benign
materials
applicable
in
multifarious
applications.
They
especially
favorable
implantable
biomedical
devices
thanks
to
their
excellent
unique
properties,
including
bioactivity,
renewability,
bioresorbability,
biocompatibility,
biodegradability
and
hydrophilicity.
Additive
manufacturing
(AM)
is
a
flexible
intricate
technology,
which
widely
used
fabricate
biopolymer-based
customized
products
structures
for
advanced
healthcare
systems.
Three-dimensional
(3D)
printing
of
these
sustainable
applied
functional
clinical
settings
wound
dressing,
drug
delivery
systems,
medical
implants
tissue
engineering.
The
present
review
highlights
recent
advancements
different
types
biopolymers,
such
as
proteins
polysaccharides,
employed
develop
by
using
extrusion,
vat
polymerization,
laser
inkjet
3D
techniques
addition
normal
bioprinting
four-dimensional
(4D)
techniques.
This
also
incorporates
the
influence
nanoparticles
on
biological
mechanical
performances
3D-printed
scaffolds.
work
addresses
current
challenges
well
future
developments
friendly
polymeric
manufactured
through
AM
Ideally,
there
need
more
focused
research
adequate
blending
biodegradable
biopolymers
achieving
useful
results
targeted
areas.
We
envision
that
composites
have
potential
revolutionize
sector
near
future.
Reactive and Functional Polymers,
Journal Year:
2022,
Volume and Issue:
179, P. 105374 - 105374
Published: Aug. 10, 2022
4D
bioprinting
is
the
next-generation
additive
manufacturing-based
fabrication
platform
employed
to
construct
intricate,
adaptive,
and
dynamic
soft
hard
tissue
structures
as
well
biomedical
devices.
It
achieved
by
using
stimuli-responsive
materials,
especially
shape
memory
polymers
(SMPs)
hydrogels,
which
possess
desirable
biomechanical
characteristics.
In
last
few
years,
numerous
efforts
have
been
made
printing
community
develop
novel
polymeric
materials
considering
their
perspective.
This
review
presents
an
up-to-date
overview
of
technology
incorporating
functionalities
biomaterials
focused
approach
towards
different
engineering
regenerative
medicine
(TERM)
applications.
includes
bone,
cardiac,
neural,
cartilage,
drug
delivery
systems,
other
high-value
also
addresses
current
limitations
challenges
in
provide
a
basis
for
foreseeable
advancements
TERM
applications
that
could
be
helpful
successful
utilization
clinical
settings.
Advanced Engineering Materials,
Journal Year:
2023,
Volume and Issue:
25(21)
Published: Aug. 29, 2023
Stimuli‐responsive
polymers
(SRPs)
are
special
types
of
soft
materials,
which
have
been
extensively
used
for
developing
flexible
actuators,
robots,
wearable
devices,
sensors,
self‐expanding
structures,
and
biomedical
thanks
to
their
ability
change
shapes
functional
properties
in
response
external
stimuli
including
light,
humidity,
heat,
pH,
electric
field,
solvent,
magnetic
field
or
combinations
two
more
these
stimuli.
In
recent
years,
additive
manufacturing
(AM)
aka
3D
printing
technology
SRPs,
also
known
as
4D
printing,
has
gained
phenomenal
attention
different
engineering
fields,
its
unique
develop
complex,
personalized,
innovative
undergo
twisting,
elongating,
swelling,
rolling,
shrinking,
bending,
spiraling,
other
complex
morphological
transformations.
Herein,
an
effort
made
provide
insightful
information
about
the
AM
techniques,
type
applications
including,
but
not
limited
tissue
engineering,
bionics,
construction,
smart
textiles.
This
article
incorporates
current
challenges
prospects,
hoping
basis
utilization
this
fields.
It
is
expected
that
amalgamation
with
SRPs
would
unparalleled
advantages
arenas.
Polymers,
Journal Year:
2023,
Volume and Issue:
15(14), P. 3096 - 3096
Published: July 19, 2023
Polylactic
acid
(PLA)
is
a
biodegradable
polyester
polymer
that
produced
from
renewable
resources,
such
as
corn
or
other
carbohydrate
sources.
However,
its
poor
toughness
limits
commercialization.
PLA
composites
can
meet
the
growing
performance
needs
of
various
fields,
but
limited
research
has
focused
on
their
sustainable
applications
in
sports.
This
paper
reviews
latest
and
by
describing
characteristics,
production,
degradation
process,
modification
methods
PLA.
Then,
it
discusses
inherent
advantages
expounds
different
materials
relationship
with
properties
composites.
Finally,
importance
application
prospects
field
sports
are
emphasized.
Although
mixed
natural
biomass
have
not
been
mass
produced,
they
expected
to
be
used
industries
because
simple
nontoxicity,
biodegradability,
low
cost.
European Polymer Journal,
Journal Year:
2024,
Volume and Issue:
205, P. 112718 - 112718
Published: Jan. 2, 2024
In
the
contemporary
era,
novel
manufacturing
technologies
like
additive
(AM)
have
revolutionized
different
engineering
sectors
including
biomedical,
aerospace,
electronics,
etc.
Four-dimensional
(4D)
printing
aka
AM
of
smart
materials
is
gaining
popularity
among
scientific
community,
which
has
excellent
ability
to
make
soft
structures
such
as
robots,
actuators,
and
grippers.
These
are
developed
by
applying
various
stimuli
pH,
temperature,
magnetic
field,
many
combinations
onto
materials.
Stimuli
in
3D
permit
shape-morphing
behaviors
bending,
twisting,
folding,
swelling,
rolling,
shrinking,
origami,
or
locomotion.
A
wide
variety
can
be
fabricated
through
incorporation
hard
particles
into
resulting
magneto-active
(MASMs).
With
this
integration,
magneto-thermal
coupling
actuation
allows
diverse
magneto-deformations,
facilitating
development
personalized
devices
that
capable
enhanced
deformation.
review,
guidelines
provided
on
for
MASMs
polymers
(MAPs),
composites,
hydrogels
(MAHs)
booming
flexible
wearable
biomimetic
devices.
Moreover,
3D-printed
robotics
an
outstanding
capacity
adapt
complicated
situations
advanced
actuating
applications.
Finally,
some
current
challenges
emerging
areas
exciting
technology
been
proposed.
Lastly,
it
anticipated
technological
advancements
developing
intelligent
will
a
significant
impact
design
real-world
International Journal of Biological Macromolecules,
Journal Year:
2023,
Volume and Issue:
251, P. 126287 - 126287
Published: Aug. 11, 2023
Cellulose
nanocrystals
(CNCs)
have
gained
significant
attraction
from
both
industrial
and
academic
sectors,
thanks
to
their
biodegradability,
non-toxicity,
renewability
with
remarkable
mechanical
characteristics.
Desirable
characteristics
of
CNCs
include
high
stiffness,
strength,
excellent
flexibility,
large
surface-to-volume
ratio.
Additionally,
the
properties
can
be
tailored
through
chemical
modifications
for
high-end
applications
including
tissue
engineering,
actuating,
biomedical.
Modern
manufacturing
methods
3D/4D
printing
are
highly
advantageous
developing
sophisticated
intricate
geometries.
This
review
highlights
major
developments
additive
manufactured
CNCs,
which
promote
sustainable
solutions
across
a
wide
range
applications.
this
contribution
also
presents
current
challenges
future
research
directions
CNC-based
composites
developed
techniques
myriad
engineering
sectors
wound
healing,
wearable
electronics,
robotics,
anti-counterfeiting
Overall,
will
greatly
help
scientists
chemistry,
materials,
biomedicine,
other
disciplines
comprehend
underlying
principles,
properties,
additively
structures.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(4), P. 3744 - 3744
Published: Feb. 13, 2023
Synthetic
bone
substitute
materials
(BSMs)
are
becoming
the
general
trend,
replacing
autologous
grafting
for
tissue
engineering
(BTE)
in
orthopedic
research
and
clinical
practice.
As
main
component
of
matrix,
collagen
type
I
has
played
a
critical
role
construction
ideal
synthetic
BSMs
decades.
Significant
strides
have
been
made
field
research,
including
exploration
various
types,
structures,
sources,
optimization
preparation
techniques,
modification
technologies,
manufacture
collagen-based
materials.
However,
poor
mechanical
properties,
fast
degradation,
lack
osteoconductive
activity
caused
inefficient
replacement
limited
their
translation
into
reality.
In
area
BTE,
so
far,
attempts
focused
on
biomimetic
BSMs,
along
with
other
inorganic
bioactive
substances.
By
reviewing
approved
products
market,
this
manuscript
updates
latest
applications
regeneration
highlights
potential
further
development
BTE
over
next
ten
years.
Journal of the European Ceramic Society,
Journal Year:
2023,
Volume and Issue:
44(1), P. 23 - 42
Published: Sept. 9, 2023
Bone
healing
is
an
impressive
ability
of
the
human
body,
but
critical-sized
bone
defects
require
external
intervention.
Bioceramic
scaffolds
with
excellent
biocompatibility
and
bioactivity
have
been
developed
to
treat
non-healing
because
their
unique
features
for
repair.
Meanwhile,
mechanical
properties
material
continue
be
disadvantageous.
This
review
focuses
on
(i)
essential
factors
in
affecting
improving
bioceramic-based
scaffolds'
properties,
including
porosity,
pore
size,
methods,
composition,
(ii)
summarizing
previous
studies
highlighting
strategies
fabricate
improved
such
as
using
nano-particles,
a
combination
bioceramics
polymers,
modifying
scaffold
surfaces.
Further
research
necessary
improve
bioceramic
repair
applications.
