Biofabrication,
Год журнала:
2024,
Номер
16(4), С. 042005 - 042005
Опубликована: Авг. 9, 2024
The
global
demand
for
an
enhanced
quality
of
life
and
extended
lifespan
has
driven
significant
advancements
in
tissue
engineering
regenerative
medicine.
These
fields
utilize
a
range
interdisciplinary
theories
techniques
to
repair
structurally
impaired
or
damaged
tissues
organs,
as
well
restore
their
normal
functions.
Nevertheless,
the
clinical
efficacy
medications,
materials,
potent
cells
used
at
laboratory
level
is
always
constrained
by
technological
limitations.
A
novel
platform
known
adaptable
microneedles
been
developed
address
abovementioned
issues.
offer
solution
localized
distribution
various
cargos
while
minimizing
invasiveness.
Microneedles
provide
favorable
patient
compliance
settings
due
effective
administration
ability
painless
convenient
process.
In
this
review
article,
we
summarized
most
recent
development
microneedles,
started
classifying
microneedle
systems,
advantages,
fundamental
properties.
Subsequently,
it
provides
comprehensive
overview
different
types
material
fabricate
properties
ideal
applications
medicine,
primarily
focusing
on
preserving
restoring
organs.
limitations
perspectives
have
discussed
concluding
future
therapeutic
medicines.
Advanced Healthcare Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 5, 2025
Abstract
Wound
care
challenges
healthcare
systems
worldwide
as
traditional
dressings
often
fall
short
in
addressing
the
diverse
and
complex
nature
of
wound
healing.
Given
conventional
treatments
limitations,
innovative
alternatives
are
urgent.
Additive
manufacturing
(AM)
has
emerged
a
distinct
transformative
approach
for
developing
advanced
dressings,
offering
unprecedented
functionality
customization.
Besides
exploring
AM
processes
state‐of‐the‐art,
this
review
comprehensively
examines
application
to
produce
cellular‐compatible
bioactive,
therapeutic
agent
delivery,
patient‐centric,
responsive
dressings.
This
distinguishes
itself
from
published
literature
by
covering
variety
types
summarizing
important
data,
including
used
materials,
process/technology,
printing
parameters,
findings
vitro,
ex
vivo,
vivo
studies.
The
prospects
enhancing
healing
outcomes
also
analyzed
translational
cost‐effective
manner.
Compounds,
Год журнала:
2024,
Номер
4(1), С. 71 - 105
Опубликована: Янв. 17, 2024
Three-dimensional
printing
(3DP)
technologies
are
characterized
as
a
set
of
innovative
manufacturing
techniques
that
allow
for
the
creation
complex
and/or
personalized
three-dimensional
physical
objects
on
work
surface
3D
machine
(based
computer-aided
design
(CAD)
project
designs
these
parts).
widely
used
in
various
areas
knowledge,
such
education,
engineering,
and
biomedicine.
Polymeric
materials
applications,
mainly
due
to
their
desirable
workability
during
part
manufacturing,
compatibility
with
other
chemical
materials,
wide
range
polymers
different
characteristics,
possibility
recycling.
The
development
polymeric
drug
delivery
systems
(DDSs)
by
is
currently
an
active
field
research,
both
academia
industry,
given
potential
this
technique
medical
purposes.
In
context,
reviews
production
via
techniques.
demonstrations
main
3DP
applications
include
working
principles
advantages
how
develop
final
product.
addition,
synthetic
natural
devices
presented
discussed
based
recent
scientific
studies.
ACS Biomaterials Science & Engineering,
Год журнала:
2024,
Номер
10(4), С. 1892 - 1909
Опубликована: Март 11, 2024
MXenes
and
their
composites
hold
great
promise
in
the
field
of
soft
bone
tissue
regeneration
engineering
(TRE).
However,
there
are
challenges
that
need
to
be
overcome,
such
as
ensuring
biocompatibility
controlling
morphologies
MXene-based
scaffolds.
The
future
prospects
TRE
include
enhancing
through
surface
modifications,
developing
multifunctional
constructs,
conducting
vivo
studies
for
clinical
translation.
purpose
this
perspective
about
is
critically
evaluate
potential
applications
contributions
field.
This
aims
provide
a
comprehensive
analysis
challenges,
advantages,
limitations,
associated
with
use
TRE.
By
examining
existing
literature
research,
review
seeks
consolidate
current
knowledge
highlight
key
findings
advancements
It
contribute
understanding
MXenes'
role
promoting
TRE,
addressing
faced
terms
biocompatibility,
morphology
control,
interactions.
Nanoscale Advances,
Год журнала:
2024,
Номер
6(14), С. 3513 - 3532
Опубликована: Янв. 1, 2024
Recent
advancements
in
MXene-based
wound
dressings
are
discussed,
focusing
on
their
contributions
to
tissue
regeneration,
infection
control,
anti-inflammation
and
photothermal
effects,
targeted
therapeutic
delivery.
Heliyon,
Год журнала:
2024,
Номер
10(21), С. e39611 - e39611
Опубликована: Окт. 22, 2024
The
growing
need
for
developing
reliable
and
efficient
wound
dressings
has
led
to
recent
progress
in
designing
novel
materials
formulations
different
kinds
of
wounds
caused
by
traumas,
burns,
surgeries,
diabetes.
In
cases
extreme
urgency,
accelerating
recovery
is
high
importance
prevent
persistent
infection
biofilm
formation.
application
nanotechnology
this
domain
resulted
the
creation
distinct
nanoplatforms
highly
advanced
wound-healing
therapeutic
approaches.
Recently
developed
nanomaterials
have
been
used
as
antibacterial
agents
or
drug
carriers
control
infection.
present
review,
authors
aim
review
recently
published
research
on
effects
incorporating
emerging
into
investigate
their
roles
healing
process.
It
was
determined
that
metallic
nanoparticles
(NPs)
exhibit
antimicrobial
regenerative
properties,
metal
oxide
NPs
regulate
inflammation
promote
tissue
regeneration,
MXene
enhance
cell
adhesion
proliferation,
while
metal-organic
frameworks
(MOFs)
offer
controlled
delivery
capabilities.
Further
required
fully
understand
mechanisms
optimize
applications
these
healing.
