Natural Product Research,
Год журнала:
2024,
Номер
unknown, С. 1 - 16
Опубликована: Дек. 3, 2024
Recent
advancements
in
nanogel
formulations
have
significantly
enhanced
the
therapeutic
efficacy
of
herbal
medicines
wound
healing
applications.
This
systematic
review
explores
integration
various
extracts
and
bioactive
compounds
into
nano
gels,
highlighting
their
improved
properties
application.
Key
include
tobacco
stem
nanogels
demonstrating
stability
rapid
contraction,
neem
silk
fibroin
hydrogels
accelerating
regeneration,
curcumin
nanosuspension-based
enhancing
contraction
rates.
Additional
formulations,
such
as
Sansevieria
trifasciata
emodin-based
double
network
hydrogels,
showed
substantial
reductions
size
increased
cell
proliferation.
The
incorporation
like
Bletilla
striata,
curcumin,
calendula,
Hibiscus
rosa-sinensis
further
exhibited
coagulation,
antioxidant
effects,
fibroblast
highlights
promising
future
biomedical
applications,
offering
a
synergistic
approach
that
combines
benefits
traditional
medicine
with
advanced
nanotechnology.
Arabian Journal of Chemistry,
Год журнала:
2024,
Номер
17(10), С. 105968 - 105968
Опубликована: Авг. 17, 2024
Hydrogels
are
three-dimensional
structures
that
serve
as
substitutes
for
the
extracellular
matrix
(ECM)
and
possess
outstanding
physicochemical
biochemical
characteristics.
They
gaining
importance
in
regenerative
medicine
because
of
their
similarity
to
natural
terms
moisture
content
wound
tissue
healing
permeability.
Tissue
engineering
advancements
have
resulted
development
flexible
hydrogels
mimic
dynamic
characteristics
ECM.
Several
approaches
been
applied
produce
from
biopolymers
with
enhanced
functional
structural
different
applications
(TERM).
This
review
provides
a
comprehensive
overview
hydrogel
healing,
engineering,
drug
delivery
systems.
We
outline
types
based
on
physical
chemical
crosslinking,
fundamental
properties,
TERM.
article
provided
recent
literature
within
five
years.
Recent
developments
biopolymer-based
state-of-the-art
discussed,
emphasizing
significant
challenges
future
perspectives.
Molecules,
Год журнала:
2023,
Номер
28(20), С. 7039 - 7039
Опубликована: Окт. 12, 2023
Large
bone
defects
due
to
trauma,
infections,
and
tumors
are
difficult
heal
spontaneously
by
the
body’s
repair
mechanisms
have
become
a
major
hindrance
people’s
daily
lives
economic
development.
However,
autologous
allogeneic
grafts,
with
their
lack
of
donors,
more
invasive
surgery,
immune
rejection,
potential
viral
transmission,
hinder
development
repair.
Hydrogel
tissue
bioengineered
scaffolds
gained
widespread
attention
in
field
good
biocompatibility
three-dimensional
network
structure
that
facilitates
cell
adhesion
proliferation.
In
addition,
loading
natural
products
nanoparticles
incorporating
them
into
hydrogel
is
one
most
effective
strategies
promote
bioactivity
limitations
products.
Therefore,
this
paper
presents
brief
review
application
hydrogels
different
gel-forming
properties,
matrices,
nanoparticle-loaded
loaded
incorporated
for
defect
recent
years.
