Journal of Composites Science,
Год журнала:
2025,
Номер
9(1), С. 31 - 31
Опубликована: Янв. 10, 2025
The
delivery
of
mesothelial
cells
by
nanofibrous
membranes
(NFMs)
can
repair
a
damaged
peritoneal
mesothelium
and
enhance
healing
in
patients
with
chronic
renal
failure.
On
the
other
hand,
orientation
nanofibers
NFMs
may
affect
cell
attachment,
proliferation,
phenotype
nanostructured
scaffold.
We
prepare
composite
gelatin/chitosan
aligned
or
random
fiber
orientations
electrospinning.
cross-link
to
maintain
during
vitro
culture.
then
study
cellular
response
attached
From
culture
rat
cells,
prepared
show
high
biocompatibility
support
growth,
regardless
orientation.
However,
alignment
electrospun
well-defined
geometry
promote
adhesion
proliferation
rates
directional
organization.
anisotropic
arrangement
NFM
also
coincides
phenotypic
maintenance
biophysical
cues
provided
nanofibers.
find
applications
tissue
engineering
layer
regenerative
therapies
where
is
critical
for
neo-tissue
regeneration.
Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology,
Год журнала:
2024,
Номер
16(3)
Опубликована: Май 1, 2024
Abstract
The
shapes
of
micro‐
and
nano‐products
have
profound
influences
on
their
functional
performances,
which
has
not
received
sufficient
attention
during
the
past
several
decades.
Electrohydrodynamic
atomization
(EHDA)
techniques,
mainly
include
electrospinning
electrospraying,
are
facile
in
manipulate
products'
shapes.
In
this
review,
generated
using
EHDA
for
modifying
drug
release
profiles
reviewed.
These
linear
nanofibers,
round
micro‐/nano‐particles,
beads‐on‐a‐string
hybrids.
They
can
be
further
divided
into
different
kinds
sub‐shapes,
explored
providing
desired
pulsatile
release,
sustained
biphasic
delayed
pH‐sensitive
release.
Additionally,
resulted
from
organizations
electrospun
nanofibers
discussed
delivery,
inner
structures
considered
together
developing
novel
delivery
systems.
future,
related
shape–performance
relationships
at
nanoscale,
besides
size,
structure
structure–performance
relationships,
would
play
important
roles
promoting
developments
field.
This
article
is
categorized
under:
Therapeutic
Approaches
Drug
Discovery
>
Emerging
Technologies
Biomolecules,
Год журнала:
2024,
Номер
14(7), С. 789 - 789
Опубликована: Июль 3, 2024
Alginate
is
a
natural
polymer
with
good
biocompatible
properties
and
potential
polymeric
material
for
the
sustainable
development
replacement
of
petroleum
derivatives.
However,
non-spinnability
pure
alginate
solutions
has
hindered
expansion
applications.
With
continuous
electrospinning
technology,
synthetic
polymers,
such
as
PEO
PVA,
are
used
co-spinning
agents
to
increase
spinnability
alginate.
Moreover,
coaxial,
parallel
Janus,
tertiary
other
diverse
novel
electrospun
fiber
structures
prepared
by
multi-fluid
have
found
new
breakthrough
problem
poor
spinning
polymers.
Meanwhile,
effectively
achieve
multiple
release
modes
drugs.
The
powerful
combination
electrostatic
widely
in
many
biomedical
fields,
tissue
engineering,
regenerative
bioscaffolds,
drug
delivery,
research
fever
continues
climb.
This
particularly
true
controlled
delivery
aspect
review
provides
brief
overview
alginate,
introduces
advances
spinning,
highlights
progress
alginate-based
nanofibers
achieving
various
modes,
pulsed
release,
sustained
biphasic
responsive
targeted
release.
Frontiers in Bioengineering and Biotechnology,
Год журнала:
2024,
Номер
12
Опубликована: Фев. 5, 2024
Diabetic
wounds
are
a
significant
subset
of
chronic
characterized
by
elevated
levels
inflammatory
cytokines,
matrix
metalloproteinases
(MMPs),
and
reactive
oxygen
species
(ROS).
They
also
associated
with
impaired
angiogenesis,
persistent
infection,
high
likelihood
hospitalization,
leading
to
substantial
economic
burden
for
patients.
In
severe
cases,
amputation
or
even
mortality
may
occur.
foot
ulcers
(DFUs)
common
complication
diabetes,
up
25%
diabetic
patients
being
at
risk
developing
over
their
lifetime,
more
than
70%
ultimately
requiring
amputation.
Electrospun
scaffolds
exhibit
structural
similarity
the
extracellular
(ECM),
promoting
adhesion,
growth,
migration
fibroblasts,
thereby
facilitating
formation
new
skin
tissue
wound
site.
The
composition
size
electrospun
can
be
easily
adjusted,
enabling
controlled
drug
release
through
fiber
structure
modifications.
porous
nature
these
facilitates
gas
exchange
absorption
exudate.
Furthermore,
surface
readily
modified
impart
specific
functionalities,
making
electrospinning
nanofiber
highly
promising
treatment
wounds.
This
article
provides
concise
overview
healing
process
in
normal
pathological
mechanisms
underlying
wounds,
including
complications
such
as
ulcers.
It
explores
advantages
treatment.
Additionally,
it
summarizes
findings
from
various
studies
on
use
different
types
reviews
methods
loading
onto
scaffolds.
These
advancements
broaden
horizon
effectively
treating
Nanomaterials,
Год журнала:
2024,
Номер
14(7), С. 646 - 646
Опубликована: Апрель 8, 2024
Dressings
with
multiple
functional
performances
(such
as
hemostasis,
promoting
regeneration,
analgesia,
and
anti-inflammatory
effects)
are
highly
desired
in
orthopedic
surgery.
Herein,
several
new
kinds
of
medicated
nanofibers
loaded
active
ingredients
for
providing
functions
were
prepared
using
the
modified
coaxial
electrospinning
processes.
With
an
electrospinnable
solution
composed
polycaprolactone
fenoprofen
core
working
fluid,
different
types
unspinnable
fluids
(including
pure
solvent,
nanosuspension
containing
tranexamic
acid
hydroxyapatite,
dilute
polymeric
comprising
acid,
polyvinylpyrrolidone)
explored
to
implement
processes
creating
multifunctional
nanofibers.
Their
morphologies
inner
structures
assessed
through
scanning
transmission
electron
microscopes,
which
all
showed
a
linear
format
without
discerned
beads
or
spindles
diameter
smaller
than
1.0
μm,
some
them
had
incomplete
core–shell
nanostructures,
represented
by
symbol
@.
Additionally,
strange
details
about
sheaths’
topographies
observed,
included
cracks,
adhesions,
embedded
nanoparticles.
XRD
FTIR
verified
that
drugs
presented
amorphous
state,
resulted
from
fine
compatibility
among
involved
components.
All
samples
demonstrated
have
hydrophilic
property
exhibited
lower
water
contact
angle
40°
300
ms.
In
vitro
dissolution
tests
indicated
was
released
sustained
manner
over
6
h
typical
Fickian
diffusion
mechanism.
Hemostatic
intentional
distribution
on
shell
sections
able
endow
rapid
hemostatic
effect
within
60
s.
Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology,
Год журнала:
2024,
Номер
16(2)
Опубликована: Март 1, 2024
Core-shell
structure
is
a
concentric
circle
found
in
nature.
The
rapid
development
of
electrospinning
technology
provides
more
approaches
for
the
production
core-shell
nanofibers.
nanoscale
effects
and
expansive
specific
surface
area
nanofibers
can
facilitate
dissolution
drugs.
By
employing
ingenious
structural
designs
judicious
polymer
selection,
specialized
nanofiber
drug
delivery
systems
be
prepared
to
achieve
controlled
release.
synergistic
combination
materials
exhibits
strong
strategy
enhancing
utilization
efficiency
customizing
release
profile
Consequently,
multi-chamber
hold
great
promise
highly
efficient
disease
treatment.
However,
little
attention
concentration
focused
on
effect
In
this
review,
we
introduced
different
fabrication
techniques
nanostructures,
including
advanced
technologies
functionalization.
Subsequently,
reviewed
behaviors
their
potential
needs
comprehensive
elucidation
based
electrospun
nanostructures
could
inspire
exploration
novel
systems.
Furthermore,
once
these
fibers
with
customizable
profiles
move
toward
industrial
mass
production,
they
will
potentially
promote
pharmacy
treatment
various
diseases.
This
article
categorized
under:
Therapeutic
Approaches
Drug
Discovery
>
Emerging
Technologies.
