Polymers,
Journal Year:
2022,
Volume and Issue:
14(11), P. 2132 - 2132
Published: May 24, 2022
One
of
the
most
important
trends
in
developments
electrospinning
is
to
combine
itself
with
traditional
materials
production
and
transformation
methods
take
advantage
unique
properties
nanofibers.
In
this
research,
single-fluid
blending
process
was
combined
casting
film
method
fabricate
a
medicated
double-layer
hybrid
provide
dual-phase
drug
controlled
release
profile,
ibuprofen
(IBU)
as
common
model
poorly
water-soluble
ethyl
cellulose
(EC)
polyvinylpyrrolidone
(PVP)
K60
polymeric
excipients.
Electrospun
IBU-PVP
nanofibers
(F7),
IBU-EC
films
(F8)
(DHFs,
F9)
one
layer
electrospun
containing
IBU
PVP
other
IBU,
EC
PVP,
were
prepared
successfully.
The
SEM
assessments
demonstrated
that
F7
linear
morphologies
without
beads
or
spindles,
F8
solid
films,
F9
composed
porous
fibrous
layer.
XRD
FTIR
results
verified
both
compatible
IBU.
vitro
dissolution
tests
indicated
able
pulsatile
release,
offered
typical
sustained
whereas
exhibit
40.3
±
5.1%
first
phase
for
manner
residues
released
an
extended
second
phase.
DHFs
from
combination
pave
new
way
developing
novel
functional
materials.
Journal of Functional Biomaterials,
Journal Year:
2022,
Volume and Issue:
13(4), P. 289 - 289
Published: Dec. 9, 2022
Electrospinning
is
an
advanced
technology
for
the
preparation
of
drug-carrying
nanofibers
that
has
demonstrated
great
advantages
in
biomedical
field.
Electrospun
nanofiber
membranes
are
widely
used
field
drug
administration
due
to
their
such
as
large
specific
surface
area
and
similarity
extracellular
matrix.
Different
electrospinning
technologies
can
be
prepare
different
structures,
those
with
a
monolithic
structure,
core–shell
Janus
or
porous
structure.
It
also
possible
controlled-release
functions,
sustained
release,
delayed
biphasic
targeted
release.
This
paper
elaborates
on
drug-loaded
using
various
concludes
mechanisms
behind
controlled
release
drugs.
Polymers,
Journal Year:
2022,
Volume and Issue:
14(9), P. 1637 - 1637
Published: April 19, 2022
With
the
increasing
demand
for
wound
healing
around
world,
level
of
medical
equipment
is
also
increasing,
but
sutures
are
still
preferred
personnel
to
solve
closures.
Compared
with
traditional
sutures,
nanofiber
produced
by
combining
preparation
technology
drug-eluting
have
greatly
improved
both
mechanical
properties
and
biological
properties.
Electrospinning
has
attracted
more
attention
as
one
most
convenient
simple
methods
preparing
functional
nanofibers
related
sutures.
This
review
firstly
discusses
structural
classification
performance
analysis
affecting
manufacture
use
followed
discussion
electrospinning
technology,
then
summarizes
relevant
research
on
absorbable
non-absorbable
Finally,
several
common
polymers
biologically
active
substances
used
in
creating
concluded,
applications
discussed,
future
prospects
suggested.
Polymers,
Journal Year:
2022,
Volume and Issue:
14(16), P. 3266 - 3266
Published: Aug. 11, 2022
Bleeding
control
plays
a
very
important
role
in
worldwide
healthcare,
which
also
promotes
research
and
development
of
wound
dressings.
The
healing
process
involves
four
stages
hemostasis,
inflammation,
proliferation
remodeling,
is
complex
process,
dressings
play
huge
it.
Electrospinning
technology
simple
to
operate.
Electrospun
nanofibers
have
high
specific
surface
area,
porosity,
oxygen
permeability,
excellent
mechanical
properties,
show
great
utilization
value
the
manufacture
As
one
most
popular
reactive
functional
synthetic
polymers,
polyacrylonitrile
(PAN)
frequently
explored
create
for
wide
variety
applications.
In
recent
years,
researchers
invested
application
PAN
Research
on
spun
reviewed,
future
directions
prospects
electrospun
are
proposed.
Frontiers in Chemistry,
Journal Year:
2022,
Volume and Issue:
10
Published: Aug. 11, 2022
Diabetes
is
a
chronic,
systemic
metabolic
disease
that
leads
to
multiple
complications,
even
death.
Meanwhile,
the
number
of
people
with
diabetes
worldwide
increasing
year
by
year.
Sensors
play
an
important
role
in
development
biomedical
devices.
The
efficient,
stable,
and
inexpensive
glucose
sensors
for
continuous
monitoring
blood
levels
has
received
widespread
attention
because
they
can
provide
reliable
data
prevention
diagnosis.
Electrospun
nanofibers
are
new
kinds
functional
nanocomposites
show
incredible
capabilities
high-level
biosensing.
This
article
reviews
based
on
electrospun
nanofibers.
principles
sensor,
types
measurement,
detection
methods
briefly
discussed.
principle
electrospinning
its
applications
advantages
then
introduced.
provides
comprehensive
summary
polymers
nanomaterials
nanofiber-based
sensors.
relevant
comparisons
enzymatic
non-enzymatic
discussed
detail.
main
disadvantages
evaluated,
some
solutions
proposed.
Finally,
potential
commercial
improved
Polymers,
Journal Year:
2023,
Volume and Issue:
15(4), P. 921 - 921
Published: Feb. 12, 2023
Electrospun
porous
nanofibers
have
gained
a
lot
of
interest
recently
in
various
fields
because
their
adjustable
structure,
high
specific
surface
area,
and
large
number
active
sites,
which
can
further
enhance
the
performance
materials.
This
paper
provides
an
overview
common
polymers,
preparation,
applications
electrospun
nanofibers.
Firstly,
polymers
commonly
used
to
construct
structures
main
pore-forming
methods
by
electrospinning,
namely
template
method
phase
separation
method,
are
introduced.
Secondly,
recent
air
purification,
water
treatment,
energy
storage,
biomedicine,
food
packaging,
sensor,
sound
wave
absorption,
flame
retardant,
heat
insulation
reviewed.
Finally,
challenges
possible
research
directions
for
future
study
discussed.
Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology,
Journal Year:
2022,
Volume and Issue:
15(1)
Published: July 11, 2022
Abstract
The
skin
is
a
complex
layer
system
and
the
most
important
barrier
between
environment
organism.
In
this
review,
we
describe
some
widespread
problems,
with
focus
on
eczema,
which
are
affecting
more
people
all
over
world.
Most
of
treatment
methods
for
atopic
dermatitis
(AD)
focused
increasing
moisture
protecting
from
bacterial
infection
external
irritation.
Topical
transdermal
treatments
have
specific
requirements
drug
delivery.
Breathability,
flexibility,
good
mechanical
properties,
biocompatibility,
efficacy
patches
used
skin.
Up
to
today,
electrospun
fibers
mostly
wound
dressing.
Their
however,
meet
AD.
Active
agents
can
be
incorporated
into
by
blending,
coaxial
or
side‐by‐side
electrospinning,
also
physical
absorption
post‐processing.
Drug
release
membranes
affected
polymer
properties
technique
combine
them
patch.
We
in
detail
vitro
mechanisms,
parameters
transport,
their
kinetics,
including
theoretical
approaches.
addition,
present
current
research
patch
design.
This
review
summarizes
extensive
know‐how
as
delivery
systems,
while
underlining
advantages
prospective
use
dermatitis.
article
categorized
under:
Implantable
Materials
Surgical
Technologies
>
Nanomaterials
Implants
Nanotechnology
Tissue
Repair
Replacement
Therapeutic
Approaches
Discovery
Emerging
Biomolecules,
Journal Year:
2022,
Volume and Issue:
12(9), P. 1254 - 1254
Published: Sept. 7, 2022
Oral
ulcers
affect
oral
and
systemic
health
have
high
prevalence
in
the
population.
There
are
significant
individual
differences
etiology
extent
of
disease
among
patients.
In
treatment
ulcers,
nanofiber
films
can
control
drug-release
rate
enable
long-term
local
administration.
Compared
to
other
drug-delivery
methods,
avoid
disadvantages
frequent
administration
certain
side
effects.
Electrospinning
is
a
simple
effective
method
for
preparing
films.
Currently,
electrospinning
technology
has
made
breakthroughs
energy-saving
large-scale
production.
This
paper
summarizes
polymers
that
mucosal
adhesion
active
pharmaceutical
ingredients
used
ulcers.
Moreover,
therapeutic
effects
currently
available
electrospun
on
animal
experiments
clinical
trials
investigated.
addition,
solvent
casting
cross-linking
methods
be
conjunction
with
techniques.
Based
literature,
more
systems
different
loading
components
inspired.
These
expected
synergistic
achieve
better
not
only
provides
new
possibilities
drug-loaded
nanofibers
but
also
brings
hope
International Journal of Nanomedicine,
Journal Year:
2022,
Volume and Issue:
Volume 17, P. 4137 - 4162
Published: Sept. 1, 2022
Abstract:
Periodontitis
is
a
major
threat
to
oral
health,
prompting
scientists
continuously
study
new
treatment
techniques.
The
nanofibrous
membrane
prepared
via
electrospinning
has
large
specific
surface
area
and
high
porosity.
On
the
one
hand,
electrospun
nanofibers
can
improve
absorption
capacity
of
proteins
promote
expression
genes.
other
they
cell
adhesion
properties
prevent
fibroblasts
from
passing
through
barrier
membrane.
Therefore,
unique
advantages
in
periodontal
treatment.
At
present,
many
membranes
with
antibacterial,
anti-inflammatory,
tissue
regeneration
have
been
for
First,
this
paper
introduces
process.
Then,
commonly
used
polymers
treating
periodontitis
are
summarized.
Finally,
different
types
presented,
future
evolution
treat
described.
Graphical
Keywords:
periodontitis,
electrospinning,
membrane,
Materials Today Bio,
Journal Year:
2023,
Volume and Issue:
21, P. 100710 - 100710
Published: June 25, 2023
Electrospinning
as
a
versatile,
simple,
and
cost-effective
method
to
engineer
variety
of
micro
or
nanofibrous
materials,
has
contributed
significant
developments
in
the
biomedical
field.
However,
traditional
electrospinning
single
material
only
can
produce
homogeneous
fibrous
assemblies
with
limited
functional
properties,
which
oftentimes
fails
meet
ever-increasing
requirements
applications.
Thus,
multi-material
referring
engineering
two
more
kinds
been
recently
developed
enable
fabrication
diversified
complex
structures
advanced
performance
for
greatly
promoting
development.
This
review
firstly
gives
an
overview
modalities,
highlight
on
their
features
accessibility
constructing
different
structures.
A
perspective
how
opens
up
new
opportunities
specific
applications,
i.e.,
tissue
drug
delivery,
is
also
offered.
