Applied Sciences,
Journal Year:
2025,
Volume and Issue:
15(6), P. 2962 - 2962
Published: March 10, 2025
Additive
manufacturing
must
be
highlighted
as
an
innovative
technology
with
the
capacity
to
produce
objects
complex
and
customized
geometries
using
a
diverse
range
of
raw
materials.
Despite
its
significant
potential,
research
compiling
evaluating
specific
contributions
additive
in
field
chemical
engineering
was
scarce
both
quantitative
qualitative
terms.
Similarly,
application
tools
has
not
been
specifically
reviewed.
Therefore,
this
work
conducted
comprehensive
review
scientific
literature
covering
these
issues
bibliometric
analysis.
The
search
encompassed
entirety
up
year
2023,
yielding
3761
documents
Scopus
database.
principal
findings
analysis
indicated
exponential
growth
number
publications,
which
suggests
rising
interest
field.
revealed
that
English
dominant
language
documents,
articles
constituted
most
common
document
type,
indicating
quality
maturity
research.
thematic
distribution
proved
multidisciplinary,
primary
focus
on
materials
science,
well
basic
sciences.
United
States
foremost
contributor
production,
followed
by
China
Germany.
Keyword
scrutiny
cited
enabled
identification
main
topics,
were
found
include
biofabrication
biomedical
applications.
Moreover,
network
software
SciMAT
(v
1.1.06)
yielded
corresponding
strategic
diagrams,
evolution
maps,
networks,
provided
overview
trends
gaps.
considerable
other
purposes
overshadowed
applications
within
field,
while
potential
could
make
have
eclipsed
too.
On
one
hand,
focused
process
intensification
benefit
from
design
advanced
microreactors
miniaturized
devices
or
more
efficient
heat
exchangers,
catalysts,
adsorbents
separation
membranes
structures.
life
cycle
assessment
optimization
are
established
should
extensively
employed
context
ensure
sustainable
outcome.
Materials,
Journal Year:
2023,
Volume and Issue:
16(15), P. 5459 - 5459
Published: Aug. 3, 2023
The
treatment
of
skin
wounds
caused
by
trauma
and
pathophysiological
disorders
has
been
a
growing
healthcare
challenge,
posing
great
economic
burden
worldwide.
use
appropriate
wound
dressings
can
help
to
facilitate
the
repair
healing
rate
defective
skin.
Natural
polymer
biomaterials
such
as
collagen
hyaluronic
acid
with
excellent
biocompatibility
have
shown
promote
restoration
However,
low
mechanical
properties
fast
degradation
limited
their
applications.
Skin
based
on
biodegradable
biocompatible
synthetic
polymers
not
only
overcome
shortcomings
natural
but
also
possess
favorable
for
applications
in
wounds.
Herein,
we
listed
several
used
dressing
materials,
PVA,
PCL,
PLA,
PLGA,
PU,
PEO/PEG,
focusing
composition,
fabrication
techniques,
functions
promoting
healing.
Additionally,
future
development
prospects
polymer-based
are
put
forward.
Our
review
aims
provide
new
insights
further
using
polymers.
Progress in Materials Science,
Journal Year:
2024,
Volume and Issue:
146, P. 101336 - 101336
Published: July 9, 2024
This
review
paper
comprehensively
examines
the
dynamic
landscape
of
3D
printing
and
Machine
Learning
utilizing
biodegradable
polymers
their
composites,
presenting
a
panoramic
synthesis
research
developments,
technological
achievements,
emerging
applications.
By
investigating
multitude
polymer
types,
delineates
suitability
compatibility
with
diverse
methodologies
demonstrates
merit
machine
learning
techniques,
in
future
manufacturing
processes.
Moreover,
this
focuses
on
intricacies
material
preparation,
design
adaptation
as
well
post-processing
techniques
tailored
for
polymers,
elucidating
pivotal
role
achieving
structural
integrity
functional
excellence.
From
biomedical
implants
sustainable
packaging
solutions
to
artistic
creations,
unveils
expansive
spectrum
practical
implementations,
thus
portraying
multifaceted
impact
technology.
Whilst
outlining
prevalent
challenges
such
mechanical
properties
recycling,
concurrently
surveys
ongoing
endeavors
aimed
at
addressing
these
limitations.
In
essence,
encapsulates
transformative
potential
providing
roadmap
advancements
underscoring
its
fostering
manufacturing/consumption
future.
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2023,
Volume and Issue:
11
Published: Feb. 20, 2023
Tendon
injuries
often
result
in
significant
pain
and
disability
impose
severe
clinical
financial
burdens
on
our
society.
Despite
considerable
achievements
the
field
of
regenerative
medicine
past
several
decades,
effective
treatments
remain
a
challenge
due
to
limited
natural
healing
capacity
tendons
caused
by
poor
cell
density
vascularization.
The
development
tissue
engineering
has
provided
more
promising
results
regenerating
tendon-like
tissues
with
compositional,
structural
functional
characteristics
comparable
those
native
tendon
tissues.
Tissue
is
discipline
that
aims
restore
physiological
functions
using
combination
cells
materials,
as
well
suitable
biochemical
physicochemical
factors.
In
this
review,
following
discussion
structure,
injury
healing,
we
aim
elucidate
current
strategies
(biomaterials,
scaffold
fabrication
techniques,
cells,
biological
adjuncts,
mechanical
loading
bioreactors,
role
macrophage
polarization
regeneration),
challenges
future
directions
engineering.
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2025,
Volume and Issue:
13
Published: Feb. 4, 2025
Osteoporosis
results
from
a
disruption
in
skeletal
homeostasis
caused
by
an
imbalance
between
bone
resorption
and
formation.
Conventional
treatments,
such
as
pharmaceutical
drugs
hormone
replacement
therapy,
often
yield
suboptimal
are
frequently
associated
with
side
effects.
Recently,
biomaterial-based
approaches
have
gained
attention
promising
alternatives
for
managing
osteoporosis.
This
review
summarizes
the
current
advancements
3D-printed
biomaterials
designed
osteoporosis
treatment.
The
benefits
of
compared
to
traditional
systemic
drug
therapies
discussed.
These
materials
can
be
broadly
categorized
based
on
their
functionalities,
including
promoting
osteogenesis,
reducing
inflammation,
exhibiting
antioxidant
properties,
inhibiting
osteoclast
activity.
3D
printing
has
advantages
speed,
precision,
personalization,
etc.
It
is
able
satisfy
requirements
irregular
geometry,
differentiated
composition,
multilayered
structure
articular
osteochondral
scaffolds
boundary
layer
structure.
limitations
existing
critically
analyzed
future
directions
considered.
Clinical Oral Investigations,
Journal Year:
2022,
Volume and Issue:
26(9), P. 5517 - 5533
Published: March 28, 2022
Abstract
Objectives
P4
Medicine
is
based
on
a
proactive
approach
for
clinical
patient
care
incorporating
the
four
“pillars”
of
prediction,
prevention,
personalization,
and
participation
management.
The
purpose
this
review
to
demonstrate
how
concepts
medicine
can
be
incorporated
into
management
periodontal
diseases
(particularly
periodontitis)
termed
periodontics.
Methods
This
narrative
that
used
current
literature
explore
periodontics
aligned
with
2018
Classification
Periodontal
Diseases,
treatment
paradigms,
regenerative
technologies.
Results
proposed
model
highly
Diseases
represents
logical
extension
classification
paradigms.
Each
stage
periodontitis
related
holistic
role
“big
data”
in
future
discussed
treat-to-target
focus
outcomes
are
as
part
personalized
Personalized
rejuvenative
therapies
will
refocus
our
thinking
from
risk
solutions
manage
effects
disease
aging.
Conclusions
Periodontics
allows
us
not
only
early
prevention
intervention
but
also
allow
late-stage
reversal
trajectory
use
procedures
reconstruct
damaged
tissues
restore
them
health.
Clinical
Significance
novel
means
viewing
holistic,
integrative,
treatment.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(5), P. e26071 - e26071
Published: Feb. 20, 2024
Three-dimensional
(3D)
printing
is
a
bio-fabrication
technique
used
to
process
tissue-engineered
scaffolds
for
bone
repair
and
remodeling.
Polycaprolactone
(PCL)/β-tricalcium
phosphate
(TCP)
has
been
as
base
osteoconductive
biomaterial
tissue
engineering
in
the
past
decades.
The
current
study
reveals
fabrication
of
polycaprolactone
scaffold
by
incorporating
carbon
nanotubes
(CNT)
via
3D
printing.
physical
properties
cytocompatibility
new
type
composite
from
polycaprolactone/β-tri-calcium
phosphate/carbon
were
investigated,
it
was
an
absorbable
prepared
furnace
deposition
technology.
designed
with
CAD
software,
material
fabricated
printed
tested
mechanical
strength,
scanning
electron
microscope
(SEM)
analysis,
porosity
calculation,
systemic
toxicity
test,
hemolysis
rate
determination,
effect
on
proliferation
rat
adipose-derived
stem
cells
cultured
vitro.
A
length
15
mm,
width
10
height
5
mm
manufactured
through
software
drawing
Scanning
microscopy
measurements
analysis
internal
pore
size
stent
are
appropriate;
pores
interconnected,
strength
matches
human
cancellous
bone.
calculated
>60%,
non-toxic,
non-hemolytic.
activity
ADSC
co-cultured
different
materials
follows:
polycaprolactone/β-tricalcium
phosphate/0.2%
nanotube
>
phosphate/0.1%
phosphate/0.3%
(P
<
0.05).
results
showed
that
promoted
adhesion
ADSC.
combination
technology
can
be
print
personalized
stents,
which
have
characteristics
repeatability,
high
precision,
low
cost.
Through
technology,
combining
variety
each
other
provide
greatest
advantages
materials.
waste
resources
avoided.
good
structure
mimic
bone,
non-toxic
non-hemolytic,
effective
promoting
Given
this
correspondence,
shows
biocompatibility
method
provides
proof
concept
developing
applications.
