Recent advances in biotechnology,
Journal Year:
2024,
Volume and Issue:
unknown, P. 115 - 136
Published: March 12, 2024
The
skin
is
the
largest
organ
in
body
that
provides
protection.
When
a
wound
occurs,
structure
and
its
function
are
damaged,
it
can
even
compromise
life.
Damage
repair
occur
through
two
mechanisms:
healing
regeneration.
scar
forms,
fibrosis
occurs
area,
appendages,
which
include
glands
hair
follicles,
lost.
In
regeneration,
functionality
of
partially
or
totally
recovered.
Medicinal
plants
their
active
principles
favor
regeneration
wounds
because
they
have
direct
effects
on
different
phases
process.
They
hemostasis,
modulate
inflammation,
allows
following
stages
to
less
time,
such
as
proliferation
remodeling.
time
(proliferation
remodeling).
Natural
products
also
reduce
risk
infections
by
having
antibacterial
activity.
However,
bioavailability
extracts
metabolites
may
be
limited,
solution
this
problem
integrate
them
into
preparations
hydrogels,
nanoparticles,
nanofibers,
nanoemulsions.
Research
therapeutic
properties
various
natural
integration
formulations
mentioned
above
for
described
below
according
effect
epithelialization,
epidermal
vascularization,
some
cases
mechanism
action.<br>
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(20), P. 15397 - 15397
Published: Oct. 20, 2023
In
recent
years,
interest
in
nanotechnology
has
increased
exponentially
due
to
enhanced
progress
and
technological
innovation.
tissue
engineering,
the
development
of
metallic
nanoparticles
been
amplified,
especially
their
antibacterial
properties.
Another
important
characteristic
metal
NPs
is
that
they
enable
high
control
over
features
developed
scaffolds
(optimizing
mechanical
strength
offering
controlled
release
bioactive
agents).
Currently,
main
concern
related
method
synthesis
oxide
environmental
impact.
The
physical
chemical
uses
toxic
agents
could
generate
hazards
or
exert
carcinogenicity/environmental
toxicity.
Therefore,
a
greener,
cleaner,
more
reliable
approach
needed.
Green
synthetic
come
as
solution
counter
aforementioned
limitations.
Nowadays,
green
preferred
because
it
leads
prevention/minimization
waste,
reduction
derivatives/pollution,
use
non-toxic
(safer)
solvents.
This
not
only
biomass
sources
reducing
for
salts.
biomolecules
also
cover
synthesized
act
situ
capping
agents.
Further,
involvement
formation
process
reduces
toxicity,
prevents
nanoparticle
agglomeration,
improves
antimicrobial
activity
nanomaterial,
leading
possible
synergistic
effect.
study
aims
provide
comprehensive
review
nanoparticles,
from
routes,
selected
solvents,
parameters
latest
application
biomedical
field.
Heliyon,
Journal Year:
2025,
Volume and Issue:
11(3), P. e41654 - e41654
Published: Jan. 8, 2025
The
importance
of
nanocomposites
constantly
attains
attention
because
their
unique
properties
all
across
the
fields
especially
in
medical
perspectives.
study
green-synthesized
has
grown
to
be
extremely
fascinating
field
research.
Nanocomposites
are
more
promising
than
mono-metallic
nanoparticles
they
exhibit
synergistic
effects.
This
review
encapsulates
current
development
formulation
plant-mediated
by
using
several
plant
species
and
impact
secondary
metabolites
on
biocompatible
functioning.
Phyto-synthesis
produces
diverse
nanomaterials
with
biocompatibility,
environment-friendliness,
vivo
actions,
characterized
varying
sizes,
shapes,
biochemical
nature.
process
is
advantageous
conventional
physical
chemical
procedures.
New
studies
have
been
conducted
determine
biomedical
efficacy
against
various
diseases.
Unfortunately,
there
inadequate
investigation
into
green-assisted
nanocomposites.
Incorporating
phytosynthesized
therapeutic
interventions
not
only
enhances
healing
processes
but
also
augments
host's
immune
defenses
infections.
highlights
phytosynthesis
applications,
including
antibacterial,
antidiabetic,
antiviral,
antioxidant,
antifungal,
anti-cancer,
other
as
well
toxicity.
explores
mechanistic
action
achieve
designated
tasks.
Biogenic
for
multimodal
imaging
potential
exchange
methods
materials
Well-designed
utilized
innovative
theranostic
agents
subsequent
objective
efficiently
diagnosing
treating
a
variety
human
disorders.
OpenNano,
Journal Year:
2023,
Volume and Issue:
12, P. 100162 - 100162
Published: May 10, 2023
Due
to
the
fact
that
bacterial
contamination
of
wounds
is
cause
increased
morbidity
and
mortality
today,
various
antimicrobial
wound
dressings
are
developing
prevent
contamination.
In
addition,
an
ideal
dressing
should
have
proper
mechanical
hemostatic
properties
maintain
healing
conditions.
Here,
a
double-layer
sponge
hydrogel
nanocomposite
was
designed
manufactured
by
combining
zinc
oxide
nanoparticles
(ZnONPs)
with
different
concentrations
in
layer
green
carbon
dots
layer.
The
surface
morphology
two
layers
investigated
using
scanning
electron
microscope.
X-ray
diffraction
proved
presence
ZnONPs.
Physical
tests
showed
decrease
water
absorption
vapor
transmission
rate
increase
blood
ZnO.
suitable
support
dots.
By
both
layers,
were
greatly
enhanced.
highest
concentration
ZnO
excellent
inhibition
41
mm
against
Pseudomonas
aeruginosa
bacteria
25
Staphylococcus
aureus.
Finally,
vitro
clotting
animal
confirmed
power
maximum
Journal of Drug Delivery Science and Technology,
Journal Year:
2024,
Volume and Issue:
96, P. 105689 - 105689
Published: April 21, 2024
In
the
last
few
years,
wound
healing
and
development
of
"ideal"
biomaterials
that
provide
quick
recovery
minimize
scarring
have
represented
one
most
important
priorities
researchers.
this
direction,
silk
fibroin
(SF)
scaffolds
gained
substantial
awareness,
as
a
promising
polymer
owing
to
their
increased
biocompatibility,
outstanding
mechanical
properties,
biodegradability,
especially
tensile
strength.
Furthermore,
SF
is
acknowledged
accelerate
process
by
encouraging
cell
growth
proliferation,
also
migration
different
types
cells
are
included
in
stages
process.
Therefore,
metal
oxide
nanoparticles
(NPs),
such
iron
(FeO),
copper
(CuO),
zinc
(ZnO),
or
magnesium
(MgO)
NPs,
been
extensively
researched
for
antimicrobial
properties
ability
enhance
tissue
regeneration
addition
SF.
When
introduced
within
scaffolds,
these
NPs
impart
enhanced
including
improved
scaffold
stability
durability.
Moreover,
presence
could
increase
biocompatibility
facilitating
adhesion,
migration,
ultimately
promoting
processes.
The
incorporation
other
natural
polymers
into
has
thus
emerged
favorable
method
therapeutic
potential
developed
biomaterial.
This
review
aims
an
overview
advancements
containing
applications.
Materials,
Journal Year:
2023,
Volume and Issue:
16(11), P. 4075 - 4075
Published: May 30, 2023
Smart
textiles
recently
reaped
significant
attention
owing
to
their
potential
applications
in
various
fields,
such
as
environmental
and
biomedical
monitoring.
Integrating
green
nanomaterials
into
smart
can
enhance
functionality
sustainability.
This
review
will
outline
recent
advancements
incorporating
for
applications.
The
article
highlights
nanomaterials’
synthesis,
characterization,
textile
development.
We
discuss
the
challenges
limitations
of
using
future
perspectives
developing
environmentally
friendly
biocompatible
textiles.
