Journal of Polymer Science,
Год журнала:
2023,
Номер
61(14), С. 1389 - 1414
Опубликована: Март 27, 2023
Abstract
Wound
healing
is
a
complicated
system
that
necessitates
an
appropriate
environment
to
aid
healing.
dressing
among
the
most
important
external
variables
in
wound
repair.
Technology
advancements
have
led
creation
of
variety
dressings
treat
various
types
by
focusing
on
four
stages
Simplicity
application,
sterility,
antibacterial,
non‐adherent,
gaseous
exchange,
non‐toxicity,
and
other
qualities
are
necessary
for
dressings.
In
order
fully
regenerate
restore
structure
functionality
skin,
ideal
should
address
demands
wound.
So,
kind
used
based
type
injury.
This
review
focuses
different
natural
polymers
such
as
κ‐carrageenan,
chitosan,
cellulose,
gelatin,
collagen,
alginate,
hyaluronic
acid,
silk
fibroin
development
materials
hydrogels,
nanofibers,
sponges,
films,
scaffolds
owing
their
features,
example,
biocompatibility,
biodegradability,
similarity
human
extracellular
matrix
(ECM)
which
aids
process.
The
commercially
available
products
these
also
discussed
review.
However,
majority
polymer‐based
still
exhibit
number
problems
like
adherence,
opaque,
fast
degradability,
lack
multifunctionality,
thus
need
be
addressed.
A
naturally
inspired
smart
hour
individual
monitoring
multiple
pH,
temperature,
electrical
potentials
eases
incorporated
drug
biological
molecules
per
progress
with
delivery
systems.
Journal of Functional Biomaterials,
Год журнала:
2023,
Номер
14(9), С. 455 - 455
Опубликована: Сен. 3, 2023
Biomaterials
are
at
the
forefront
of
future,
finding
a
variety
applications
in
biomedical
field,
especially
wound
healing,
thanks
to
their
biocompatible
and
biodegradable
properties.
Wounds
spontaneously
try
heal
through
series
interconnected
processes
involving
several
initiators
mediators
such
as
cytokines,
macrophages,
fibroblasts.
The
combination
biopolymers
with
healing
properties
may
provide
opportunities
synthesize
matrices
that
stimulate
trigger
target
cell
responses
crucial
process.
This
review
outlines
optimal
management
care
required
for
treatment
special
focus
on
biopolymers,
drug-delivery
systems,
nanotechnologies
used
enhanced
applications.
Researchers
have
utilized
range
techniques
produce
dressings,
leading
products
different
characteristics.
Each
method
comes
its
unique
strengths
limitations,
which
important
consider.
future
trajectory
dressing
advancement
should
prioritize
economical
eco-friendly
methodologies,
along
improving
efficacy
constituent
materials.
aim
this
work
is
give
researchers
possibility
evaluate
proper
materials
preparation
better
understand
synthesis
conditions
well
most
effective
bioactive
molecules
load.
Journal of Biological Engineering,
Год журнала:
2023,
Номер
17(1)
Опубликована: Март 20, 2023
Abstract
As
an
emerging
science,
tissue
engineering
and
regenerative
medicine
focus
on
developing
materials
to
replace,
restore
or
improve
organs
tissues
enhancing
the
cellular
capacity
proliferate,
migrate
differentiate
into
different
cell
types
specific
tissues.
Renewable
resources
have
been
used
develop
new
materials,
resulting
in
attempts
produce
various
environmentally
friendly
biomaterials.
Poly
(lactic
acid)
(PLA)
is
a
biopolymer
known
be
biodegradable
it
produced
from
fermentation
of
carbohydrates.
PLA
can
combined
with
other
polymers
biomaterials
suitable
physicochemical
properties
for
applications.
Here,
advances
modified
as
are
discussed
light
its
drawbacks,
such
biological
inertness,
low
adhesion,
degradation
rate,
efforts
conducted
address
these
challenges
toward
design
enhanced
alternative
Journal of Materials Chemistry B,
Год журнала:
2024,
Номер
12(33), С. 7977 - 8006
Опубликована: Янв. 1, 2024
The
objective
of
this
review
is
to
provide
an
up-to-date
and
all-encompassing
account
the
recent
advancements
in
domain
interactive
wound
dressings.
Considering
gap
between
achieved
desired
clinical
outcomes
with
currently
available
or
under-study
healing
therapies,
newer
more
specific
options
based
on
type
phase
are
reviewed.
Starting
from
comprehensive
description
process,
a
detailed
classification
dressings
presented.
Subsequently,
we
present
elaborate
significant
discussion
describing
(unconventional)
Latter
includes
biopolymer-based,
bioactive-containing
biosensor-based
smart
dressings,
which
discussed
separate
sections
together
their
applications
limitations.
Moreover,
(2-5
years)
trials,
patents
unconventional
marketed
products,
other
information
advanced
care
designs
techniques
discussed.
future
research
direction
highlighted,
peptides,
proteins,
human
amniotic
membranes
as
potential
Finally,
conclude
that
field
needs
further
development
offers
scope
for
integrating
process
technologies.
Polymers,
Год журнала:
2024,
Номер
16(9), С. 1280 - 1280
Опубликована: Май 3, 2024
Wounds
are
breaks
in
the
continuity
of
skin
and
underlying
tissues,
resulting
from
external
causes
such
as
cuts,
blows,
impacts,
or
surgical
interventions.
Countless
individuals
suffer
minor
to
severe
injuries,
with
unfortunate
cases
even
leading
death.
In
today’s
scenario,
several
commercial
products
available
facilitate
healing
process
wounds,
although
chronic
wounds
still
present
more
challenges
than
acute
wounds.
Nevertheless,
huge
demand
for
wound-care
within
healthcare
sector
has
given
rise
a
rapidly
growing
market,
fostering
continuous
research
development
endeavors
innovative
wound-healing
solutions.
Today,
there
many
commercially
including
those
based
on
natural
biopolymers,
stem
cells,
microRNAs
that
promote
This
article
explores
recent
breakthroughs
harness
potential
microRNAs.
A
comprehensive
exploration
is
undertaken,
covering
not
only
but
also
phase.
Additionally,
we
provide
thorough
examination
opportunities,
obstacles,
regulatory
considerations
influencing
commercialization
across
diverse
markets
Europe,
America,
Asia.
European Polymer Journal,
Год журнала:
2023,
Номер
189, С. 111979 - 111979
Опубликована: Март 7, 2023
The
poor
healing
of
diabetic
wound
affects
large
proportion
human
beings
by
high
mortality
rate
and
associated
expenditures.
Such
chronic
wounds
mainly
become
problematic
due
to
unavailability
suitable
environmental
conditions
which
lead
cell
migration,
proliferation
uncontrolled
inflammation.
An
ideal
dressing
should
prohibit
dryness
allow
a
environment
at
the
injury
surface.
However,
present
therapeutics
lacks
potential
overcome
these
problems
resulting
in
their
limited
clinical
success.
There
is
shift
research
domain
from
synthetic
natural
polymeric
materials
issues
with
traditional
dressings.
Many
biological
organisms'
extracted
polymers
are
useful
for
ease
availability
various
active
substances.
naturally
occurring
polysaccharides
proteins
find
several
attractive
applications
biomedical
field.These
substances
not
only
non-toxic
but
also
possess
characteristics.
In
this
work,
proteins-based
biopolymers
utilized
recent
years
as
material
discussed.
This
review
will
surely
provide
guidance
researchers
using
effective
economical
material.
Polymers,
Год журнала:
2024,
Номер
16(19), С. 2770 - 2770
Опубликована: Сен. 30, 2024
Plastic
pollution
is
a
major
driver
of
climate
change
that
associated
with
biodiversity
loss,
greenhouse
gas
emissions,
and
negative
soil,
plant,
animal,
human
health.
One
the
solutions
has
been
proposed
currently
reducing
adverse
effects
plastic
on
planet
replacement
synthetic
plastics
biopolymers.
The
biodegradable
polymers
have
adapted
for
most
applications
plastic.
However,
their
use
disposal
present
some
sustainability
challenges.
Recycling
emerges
as
an
effective
way
promoting
biopolymer
use.
In
this
article,
we
review
recycling
viable
solution
to
improve
biopolymers,
emphasizing
current
types
technologies
employed
in
challenges
faced
adoption.
Our
exploration
future
directions
conversion
biopolymers
into
new
reuse
establishes
connection
between
established
continuous
technological
innovation,
integration
circular
economy
models,
establishment
strengthening
collaborations
among
key
stakeholders
relevant
industries
necessary
steps
adoption,
full
utilization,
improvement
By
connecting
these
factors,
study
lays
foundation
roadmap
improved
processes
promote
alternatives.
