Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology,
Journal Year:
2021,
Volume and Issue:
14(3)
Published: Dec. 28, 2021
Abstract
Among
different
kinds
of
modified
release
profiles,
sustained
drug
(SDR)
has
received
the
most
attention
due
to
its
capability
provide
a
“safe,
efficacious,
and
convenient”
delivery
effect.
Electrospun
nanofibers
have
shown
their
popularity
in
this
interdisciplinary
field,
as
demonstrated
by
first
reports
about
SDRs
on
applications
blended
core–shell
nanofibers.
Along
with
evolution
electrospinning
from
single‐fluid
blending
process
coaxial,
tri‐axial,
side‐by‐side,
other
multi‐fluid
processes,
more
multi‐chamber
nanostructures
can
be
created
through
single‐step
straight
forward
manner.
These
act
powerful
platform
support
wide
variety
new
strategies
for
development
novel
SDR
nanomaterials.
Thus,
review
describes
combination
history
further
trend.
After
summary
presently
popular
nanostructures,
15
furnishing
profiles
are
categorized
exemplified.
The
perspectives
electrospun
promoting
narrated.
This
article
is
under:
Therapeutic
Approaches
Drug
Discovery
>
Emerging
Technologies
Nanomaterials,
Journal Year:
2022,
Volume and Issue:
12(7), P. 1077 - 1077
Published: March 25, 2022
Nanomaterials
for
air
filtration
have
been
studied
by
researchers
decades.
Owing
to
the
advantages
of
high
porosity,
small
pore
size,
and
good
connectivity,
nanofiber
membranes
prepared
electrospinning
technology
considered
as
an
outstanding
air-filter
candidate.
To
satisfy
requirements
material
functionalization,
can
provide
a
simple
efficient
one-step
process
fabricate
complex
structures
functional
nanofibers
such
core–sheath
structures,
Janus
other
multilayered
structures.
Additionally,
nanoparticle
carrier,
electrospun
easily
achieve
antibacterial
properties,
flame-retardant
adsorption
properties
volatile
gases,
etc.
These
effective
approaches
benefited
from
significate
development
air-filtration
applications.
In
this
review,
research
progress
on
filters
in
recent
years
is
summarized.
The
fabrication
methods,
performances,
advantages,
disadvantages
single-polymer
nanofibers,
multipolymer
composite
nanoparticle-doped
hybrid
are
investigated.
Finally,
basic
principles
concluded
upon
prospects
application
complex-structured
field
proposed.
Small Methods,
Journal Year:
2022,
Volume and Issue:
6(5)
Published: Feb. 26, 2022
Rapid
wound
dressing
and
effective
antibacterial
therapy
that
meet
the
extreme
requirements
of
emergency
situations
are
urgently
needed
for
treating
skin
wounds.
Here,
an
in
situ
deposited
personalized
nanofibrous
is
reported
which
can
be
directly
electrospun
on
wounds
by
a
handheld
electrospinning
device
perfectly
fits
different
various
sizes.
Moreover,
aggregation-induced
emission
luminogen
with
photodynamic
effect
loaded
dressings
endows
dressing's
long-term
activity
during
healing
process.
The
nanofibers
show
excellent
antimicrobial
against
Staphylococcus
aureus
(S.
aureus)
methicillin-resistant
aureus.
In
vivo
studies
demonstrate
these
effectively
reduce
inflammation
significantly
accelerate
healing.
Such
produced
promising
as
total
solution
emergencies,
including
patient-specific
clinical
military
injuries.
Polymers,
Journal Year:
2022,
Volume and Issue:
14(2), P. 351 - 351
Published: Jan. 17, 2022
The
search
for
higher-quality
nanomaterials
medicinal
applications
continues.
There
are
similarities
between
electrospun
fibers
and
natural
tissues.
This
property
has
enabled
to
make
significant
progress
in
medical
applications.
However,
limited
tissue
scaffolding
When
nanoparticles
nanofibers
combined,
the
composite
material
can
perform
more
functions,
such
as
photothermal,
magnetic
response,
biosensing,
antibacterial,
drug
delivery
biosensing.
To
prepare
nanofiber
nanoparticle
hybrids
(NNHs),
there
two
primary
ways.
electrospinning
technology
was
used
produce
NNHs
a
single
step.
An
alternate
way
is
use
self-assembly
technique
create
fibers.
paper
describes
creation
of
from
routinely
biocompatible
polymer
composites.
Single-step
procedures
methodologies
discuss
preparation
NNHs.
It
combines
recent
research
discoveries
focus
on
application
release,
engineering
last
years.
Pharmaceutics,
Journal Year:
2022,
Volume and Issue:
14(8), P. 1574 - 1574
Published: July 28, 2022
The
healing
of
wounds
is
a
dynamic
function
that
necessitates
coordination
among
multiple
cell
types
and
an
optimal
extracellular
milieu.
Much
the
research
focused
on
finding
new
techniques
to
improve
manage
dermal
injuries,
chronic
burn
sepsis,
which
are
frequent
medical
concerns.
A
strategy
involves
developing
multifunctional
dressings
aid
innate
combat
numerous
issues
trouble
incompletely
healed
such
as
extreme
inflammation,
ischemic
damage,
scarring,
wound
infection.
Natural
origin-based
compounds
offer
distinct
characteristics,
excellent
biocompatibility,
cost-effectiveness,
low
toxicity.
Researchers
have
developed
biopolymer-based
with
drugs,
biomacromolecules,
cells
cytocompatible,
hemostatic,
initiate
skin
rejuvenation
rapid
healing,
possess
anti-inflammatory
antimicrobial
activity.
main
goal
would
be
mimic
characteristics
fetal
tissue
regeneration
in
adult
phase,
including
complete
hair
glandular
restoration
without
delay
or
scarring.
Emerging
treatments
based
biomaterials,
nanoparticles,
biomimetic
proteases
keys
improving
care
will
vital
addition
therapeutic
toolkit
for
slow-healing
wounds.
This
study
focuses
recent
discoveries
several
undergone
extensive
pre-clinical
development
now
undergoing
fundamental
research.
