Nano Convergence,
Journal Year:
2023,
Volume and Issue:
10(1)
Published: Nov. 15, 2023
Abstract
In
the
field
of
tissue
engineering
and
regenerative
medicine,
various
hydrogels
derived
from
extracellular
matrix
have
been
utilized
for
creating
engineered
tissues
implantable
scaffolds.
While
these
hold
immense
promise
in
healthcare
landscape,
conventional
bioinks
based
on
ECM
face
several
challenges,
particularly
terms
lacking
necessary
mechanical
properties
required
3D
bioprinting
process.
To
address
limitations,
researchers
are
actively
exploring
novel
nanomaterial-reinforced
both
functional
aspects.
this
review,
we
focused
discussing
recent
advancements
fabrication
monitoring
systems
using
nanobioinks
nanomaterials
via
technology.
We
highlighted
synergistic
benefits
combining
numerous
into
imposing
geometrical
effects
by
Furthermore,
also
elaborated
critical
issues
remaining
at
moment,
such
as
inhomogeneous
dispersion
consequent
technical
practical
issues,
complex
structures
with
nanomaterials.
Finally,
plausible
outlooks
facilitating
use
biofabrication
advancing
function
tissues.
Advanced Healthcare Materials,
Journal Year:
2021,
Volume and Issue:
10(16)
Published: June 26, 2021
Abstract
The
universal
increase
in
the
number
of
patients
with
nonhealing
skin
wounds
imposes
a
huge
social
and
economic
burden
on
healthcare
systems.
Although,
application
traditional
wound
dressings
contributes
to
an
effective
healing
outcome,
yet,
complexity
process
remains
major
health
challenge.
Recent
advances
materials
fabrication
technologies
have
led
that
provide
proper
conditions
for
healing.
3D‐printed
dressings,
biomolecule‐loaded
as
well
smart
flexible
bandages
are
among
recent
alternatives
been
developed
accelerate
Additionally,
new
generation
contains
variety
microelectronic
sensors
real‐time
monitoring
environment
is
able
apply
required
actions
support
progress.
Moreover,
manufacturing
enable
development
next
dressing
substrates,
known
electronic
skin,
whole
physiochemical
markers
single
platform.
current
study
reviews
importance
emerging
strategy
care
management
highlights
different
types
promoting
process.
Membranes,
Journal Year:
2021,
Volume and Issue:
11(10), P. 770 - 770
Published: Oct. 9, 2021
With
the
increasing
demand
for
wound
care
and
treatment
worldwide,
traditional
dressings
have
been
unable
to
meet
needs
of
existing
market
due
their
limited
antibacterial
properties
other
defects.
Electrospinning
technology
has
attracted
more
researchers’
attention
as
a
simple
versatile
manufacturing
method.
The
electrospun
nanofiber
membrane
unique
structure
biological
function
similar
extracellular
matrix
(ECM),
is
considered
an
advanced
dressing.
They
significant
potential
in
encapsulating
delivering
active
substances
that
promote
healing.
This
article
first
discusses
common
types
dressing,
then
summarizes
development
fiber
preparation
technology.
Finally,
polymers
biologically
used
electrospinning
are
summarized,
portable
equipment
also
discussed.
Additionally,
future
research
put
forward.
Journal of Drug Delivery Science and Technology,
Journal Year:
2023,
Volume and Issue:
90, P. 105156 - 105156
Published: Nov. 10, 2023
Electrospinning
is
acknowledged
as
a
versatile
technique
for
producing
polymer
nanofibers.
Various
methods,
such
template
synthesis,
self-assembly,
phase
separation,
and
drawing,
have
been
employed
to
create
However,
due
its
simplicity,
adaptability,
the
inherently
high
surface
area-to-volume
ratio
in
electrospun
fibers,
electrospinning
has
emerged
most
suitable
method
nanofiber
fabrication.
This
review
delves
into
mechanisms
of
techniques
establishes
how
overcomes
challenges
presented
by
other
nanofabrication
methods.
The
explores
principles
electrospinning,
processing
parameters,
their
effects
on
resulting
fibers.
It
also
discusses
properties
selection
polymers
used
highlighting
various
types
commonly
pharmaceutical
applications.
Additionally,
covers
different
configurations,
discussing
impact
drug
release
profiles,
along
with
respective
advantages
disadvantages.
recent
applications
enhancing
outcomes
are
examined,
addressing
crucial
aspects
field,
improving
dissolution
rates,
masking
undesirable
tastes,
enabling
delivery
through
systems.
In
summary,
this
article
provides
comprehensive
understanding
pivotal
role
advancing
approaches.
Chemistry - An Asian Journal,
Journal Year:
2022,
Volume and Issue:
17(21)
Published: Sept. 6, 2022
The
development
of
ideal
wound
dressing
with
excellent
properties,
such
as
exudate
absorption
capacity,
drug
release
control
ability,
and
increased
healing,
is
currently
a
major
requirement
for
healing.
Polyvinyl
alcohol
(PVA)
biodegradable
semi-crystalline
synthetic
polymer
that
has
been
used
in
the
field
biotechnology
tissue
regeneration,
dressing,
delivery
systems.
In
recent
years,
PVA-based
materials
have
received
considerable
attention
due
to
their
properties
biodegradability,
biocompatibility,
non-toxicity
low
cost.
PVA
can
be
material
create
necessary
moist
environment,
improve
physical
increase
healing
rates.
addition,
also
mixed
other
organic
inorganic
This
review
article
addresses
role
biomaterials
based
on
ingredients
dressing.
It
focuses
its
use
dressings
carriers
active
substances.
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.
ACS Applied Bio Materials,
Journal Year:
2023,
Volume and Issue:
6(4), P. 1398 - 1430
Published: March 13, 2023
The
diseases
caused
by
microorganisms
are
innumerable
existing
on
this
planet.
Nevertheless,
increasing
antimicrobial
resistance
has
become
an
urgent
global
challenge.
Thus,
in
recent
decades,
bactericidal
materials
have
been
considered
promising
candidates
to
combat
bacterial
pathogens.
Recently,
polyhydroxyalkanoates
(PHAs)
used
as
green
and
biodegradable
various
alternative
applications,
especially
healthcare
for
antiviral
or
purposes.
However,
it
lacks
a
systematic
review
of
the
application
emerging
material
antibacterial
applications.
Therefore,
ultimate
goal
is
provide
critical
state
art
development
PHA
biopolymers
terms
cutting-edge
production
technologies
well
fields.
In
addition,
special
attention
was
given
collecting
scientific
information
agents
that
can
potentially
be
incorporated
into
biological
durable
protection.
Furthermore,
current
research
gaps
declared,
future
perspectives
proposed
better
understand
properties
these
their
possible
Molecules,
Journal Year:
2023,
Volume and Issue:
28(13), P. 5163 - 5163
Published: July 2, 2023
The
present
review
explores
the
growing
interest
in
techniques
employed
for
extracting
natural
products.
It
emphasizes
limitations
of
conventional
extraction
methods
and
introduces
superior
non-conventional
alternatives,
particularly
ultrasound-assisted
extraction.
Characterization
quantification
bioactive
constituents
through
chromatography
coupled
with
spectroscopy
are
recommended,
while
importance
method
development
validation
biomarker
is
underscored.
At
present,
electrospun
fibers
provide
a
versatile
platform
incorporating
extracts
have
extensive
potential
diverse
fields
due
to
their
unique
structural
functional
characteristics.
Thus,
also
highlights
fabrication
containing
extracts.
preparation
biologically
active
under
optimal
conditions,
including
selection
safe
solvents
cost-effective
equipment,
holds
promising
pharmaceutical,
food,
cosmetic
industries.
Integration
experimental
design
into
procedures
formulation
essential
efficient
production
health
applications
encapsulating
product
fibers,
such
as
wound
healing,
antibacterial
activity,
antioxidant
properties,
acknowledging
need
further
exploration
optimization
this
field.
findings
discussed
anticipated
serve
valuable
resource
processing
industry,
enabling
utilization
affordable
environmentally
friendly,
natural,
raw
materials.
RSC Advances,
Journal Year:
2024,
Volume and Issue:
14(19), P. 13535 - 13564
Published: Jan. 1, 2024
Nanoparticle-hydrogel
systems
are
versatile
biomaterials
that
possess
numerous
advantages
for
biomedical
applications.
This
review
focuses
on
the
application
of
nanoparticle-hydrogels
system
delivery
antimicrobial
agents.
