Nanotechnology Science and Applications,
Journal Year:
2025,
Volume and Issue:
Volume 18, P. 57 - 70
Published: Feb. 1, 2025
As
bacterial
resistance
to
antibiotics
increases,
there
is
an
urgent
need
identify
alternative
antibacterial
agents
and
improve
materials.
One
the
controlled
transport
of
that
prevents
infection
with
drug-resistant
bacteria,
especially
in
treatment
difficult-to-heal
wounds.
This
work
presents
use
electrospun
PLCL/PVP
(poly(L-lactide-co-ε-caprolactone/polyvinylpyrrolidone)
nanofibers
modified
two
properties
but
different
mechanisms
action,
is,
dendritic
silver
nanoparticles
(Dend-AgNPs)
endolysin.
The
nanomat
prepared
this
manner
showed
significant
activity
against
antibiotic-resistant
Pseudomonas
aeruginosa
strains,
inhibiting
their
growth
production
key
pigments
virulence
factors.
Moreover,
as
carriers
selected
factors
significantly
reduced
cytotoxicity
towards
human
fibroblasts.
results
confirmed
possibility
using
presented
product
innovative
dressing
material,
opening
new
perspectives
for
wounds
combating
infections
bacteria.
Bioengineering,
Journal Year:
2024,
Volume and Issue:
11(3), P. 218 - 218
Published: Feb. 25, 2024
Cardiovascular
disease
(CVD)
remains
the
leading
cause
of
mortality
worldwide.
In
particular,
patients
who
suffer
from
ischemic
heart
(IHD)
that
is
not
amenable
to
surgical
or
percutaneous
revascularization
techniques
have
limited
treatment
options.
Furthermore,
after
successfully
implemented,
there
are
a
number
pathophysiological
changes
myocardium,
including
but
ischemia-reperfusion
injury,
necrosis,
altered
inflammation,
tissue
remodeling,
and
dyskinetic
wall
motion.
Electrospinning,
nanofiber
scaffold
fabrication
technique,
has
recently
emerged
as
an
attractive
option
potential
therapeutic
platform
for
cardiovascular
disease.
Electrospun
scaffolds
made
biocompatible
materials
ability
mimic
native
extracellular
matrix
compatible
with
drug
delivery.
These
inherent
properties,
combined
ease
customization
low
cost
production,
electrospun
active
area
research
this
review,
we
aim
discuss
current
state
electrospinning
fundamentals
creation
role
both
bioengineered
matrices
delivery
vehicles
in
CVD,
special
emphasis
on
clinical
applications
myocardial
ischemia.
ACS Applied Bio Materials,
Journal Year:
2024,
Volume and Issue:
7(7), P. 4231 - 4253
Published: June 10, 2024
Electrospun
polymeric
nanofibers
are
essential
in
various
fields
for
applications
because
of
their
unique
properties.
Their
features
similar
to
extracellular
matrices,
which
suggests
them
healthcare
fields,
such
as
antimicrobials,
tissue
engineering,
drug
delivery,
wound
healing,
bone
regeneration,
and
biosensors.
This
review
focuses
on
the
synthesis
electrospun
nanofibers,
surface
modification,
biomedical
applications.
Nanofibers
can
be
fabricated
from
both
natural
synthetic
polymers
composites.
Even
though
they
mimic
(physicochemical
characteristics)
not
always
capable
fulfilling
purpose
target
application.
Therefore,
need
improved
via
modification
techniques.
Both
needle-based
needleless
electrospinning
thoroughly
discussed.
Various
techniques
setups
employed
each
method
also
reviewed.
Furthermore,
pre-
postspinning
approaches
including
instrument
design
targeted
applications,
extensively
In
this
way,
remarkable
potential
highlighted
reveal
future
research
directions
dynamic
field.
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2023,
Volume and Issue:
11
Published: April 6, 2023
As
an
interdisciplinary
field,
drug
delivery
relies
on
the
developments
of
modern
science
and
technology.
Correspondingly,
how
to
upgrade
traditional
dosage
forms
for
a
more
efficacious,
safer,
convenient
poses
continuous
challenge
researchers.
Journal of Controlled Release,
Journal Year:
2023,
Volume and Issue:
363, P. 621 - 640
Published: Oct. 12, 2023
Skin
diseases
are
among
the
most
common
in
global
population
and
with
growth
of
aging
population,
they
represent
an
increasing
burden
to
healthcare
systems
worldwide.
Even
though
rarely
life-threatening,
suffering
for
those
affected
is
high
due
visibility
physical
discomfort
related
these
diseases.
Typical
symptoms
skin
include
inflamed,
swollen
or
itchy
skin,
therefore,
there
a
demand
effective
therapy
options.
In
recent
years,
electrospinning
has
attracted
considerable
interest
field
drug
delivery.
The
technique
allows
producing
multifunctional
drug-loaded
fibrous
patches
from
various
natural
synthetic
polymers
fiber
diameters
nano-
micrometer
range,
suitable
treatment
wide
variety
great
potential
electrospun
not
only
lies
their
tunable
release
properties
possibility
entrap
therapeutic
compounds,
but
also
provide
mechanical
protection
impaired
area,
exhibit
surface
allow
gas
exchange,
absorb
exudate
porous
structure
cytocompatible
biodegradable.
case
wound
healing,
cell
adhesion
promoted
resemblance
fibers
native
extracellular
matrix.
This
review
gives
overview
applications
therapy.
addition
bacterial,
diabetic
burn
wounds,
focus
placed
on
inflammatory
such
as
atopic
dermatitis
psoriasis,
options
cancer,
acne
vulgaris
herpes
labialis
discussed.
While
we
aim
emphasize
this
paper,
highlight
challenges
limitations
current
research
field.
Hybrid Advances,
Journal Year:
2024,
Volume and Issue:
6, P. 100205 - 100205
Published: April 25, 2024
Textile
industries
plays
a
vital
role
in
the
augmentation
of
global
economy
attributed
to
high-end
demand
for
textiles
and
fabrics
demonstrated
vast
pace
growth
post-pandemic
period.
The
escalated
production
not
only
resulted
development
but
also
led
large-scale
liberation
textile
effluents
(dyes
pigments)
which
poses
as
severe
threat
human
environmental
health.
Methylene
Blue
(MB)
is
one
among
most
widely
utilized
dye
ascribed
mutagenic,
carcinogenic,
persistent
nature
MB,
sequestration
MB
from
waterways
are
explored.
This
review
focuses
on
application
cellulose
acetate
(CA)
nanofibers,
fabricated
by
electrospinning
removal
methylene
blue
wastewater.
A
comprehensive
overview
processing
parameters,
isotherm
models,
kinetics,
efficiencies
achieved
different
CA
nanocomposites
with
various
fillers
discussed.
study
extends
desorption
reusability
emphasizing
significance
regeneration
sustainability
waste
reduction.
Furthermore,
insights
into
industrial
scaling
future
directions
highlight
potential
electro-spun
applications.
Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
16(8), P. 1017 - 1017
Published: July 31, 2024
Over
the
last
decade,
scientists
have
shifted
their
focus
to
development
of
smart
carriers
for
delivery
chemotherapeutics
in
order
overcome
problems
associated
with
traditional
chemotherapy,
such
as
poor
aqueous
solubility
and
bioavailability,
low
selectivity
targeting
specificity,
off-target
drug
side
effects,
damage
surrounding
healthy
tissues.
Nanofiber-based
systems
recently
emerged
a
promising
system
cancer
therapy
owing
unique
structural
functional
properties,
including
tunable
interconnected
porosity,
high
surface-to-volume
ratio
entrapment
efficiency
loading
capacity,
mass
transport
which
allow
controlled
targeted
delivery.
In
addition,
they
are
biocompatible,
biodegradable,
capable
surface
functionalization,
allowing
target-specific
release.
One
most
common
fiber
production
methods
is
electrospinning,
even
though
relatively
two-dimensional
(2D)
tightly
packed
structures
rates
limited
its
performance.
Forcespinning
an
alternative
spinning
technology
that
generates
high-throughput,
continuous
polymeric
nanofibers
3D
structures.
Unlike
forcespinning
fibers
by
centrifugal
forces
rather
than
electrostatic
forces,
resulting
significantly
higher
production.
The
functionalization
nanocarriers
on
can
result
anticancer
capabilities
be
activated
external
stimuli,
light.
This
review
addresses
current
trends
potential
applications
light-responsive
dual-stimuli-responsive
electro-
forcespun
therapy,
particular
emphasis
functionalizing
nanofiber
surfaces
developing
nano-in-nanofiber
emerging
dual-controlled
release
high-precision
tumor
targeting.
progress
prospective
diagnostic
therapeutic
discussed
context
combination
therapy.
Materials Advances,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Jan. 1, 2024
Bioactive
plant
compounds
are
combined
with
polymers
and
electrospun
into
nanofibers.
These
fibers,
antioxidant
antibacterial
properties,
used
in
drug
delivery,
tissue
engineering,
food
packaging.
