Medical & pharmaceutical journal Pulse,
Journal Year:
2024,
Volume and Issue:
unknown, P. 43 - 50
Published: Oct. 20, 2024
The
problem
of
scar
treatment
is
one
the
most
widespread
in
modern
medicine.
Treatment
formations
difficult
tasks,
as
there
no
single
standard
that
favorable
terms
efficacy
and
safety
despite
active
development
this
area
research.
Currently,
conservative
methods
tissue
deformities
such
corticosteroid
administration,
botulinum
therapy,
cryotherapy,
microneedling,
well
surgical
excision
combination
with
therapeutic
are
widely
used,
due
to
which
result
achieved.
This
study
devoted
various
correction
hypertrophic
keloid
scars
becoming
medicine,
their
comparison
identification
important
advantages
disadvantages
order
choose
effective
technique.
Currently
used
allow
cope
formations,
but
high
incidence
side
effects,
a
tendency
search
for
combined
use
each
them,
including
prevent
recurrences
achieve
pronounced
cosmetic
effect
satisfaction
among
patients.
Thanks
constant
medicine
improvement
methods,
patient
can
receive
personalized
approach
guaranteed
reduce
aesthetic
discomfort
existing
pathology,
main
aspect
correction.
Nano TransMed,
Journal Year:
2024,
Volume and Issue:
3, P. 100030 - 100030
Published: Jan. 6, 2024
Delayed
wound
healing
brings
additional
physical,
mental,
and
financial
burdens.
Microneedles
(MNs)
are
a
novel
dressing
form
can
incorporate
drug
delivery
systems.
Quercetin
is
known
for
its
remarkable
antioxidant
capacity
may
have
distinctive
effect
on
healing.
We
designed
constructed
gelatin
methacryloyl
(GelMa)
MNs
carrying
(Q-MNs).
In
vitro,
the
physical
properties,
cell
safety,
migration,
angiogenesis,
collagen
formation,
oxidative
stress
levels,
were
performed
to
characterize
Q-MNs.
vivo,
full-thickness
skin
models
established
evaluate
re-epithelialization
impact
of
control,
MN,
Q-MN
groups.
The
Q-MNs
mechanically
strong
enough
penetrate
sustained
possessed
good
biocompatibility.
Moreover,
evidently
facilitated
both
in
vitro
promoted
formation
neo-angiogenesis,
reduction
levels.
could
motivate
with
enhanced
vascularization
decreased
thus
providing
feasible
strategy
Pharmaceutics,
Journal Year:
2024,
Volume and Issue:
16(11), P. 1403 - 1403
Published: Oct. 31, 2024
Several
industries
are
increasingly
focused
on
enhancing
the
delivery
of
active
ingredients
through
skin
to
optimize
therapeutic
outcomes.
By
facilitating
penetration
barrier,
these
enhancers
can
significantly
improve
efficacy
various
formulations,
ranging
from
skincare
products
agents
targeting
systemic
circulation.
As
understanding
physiology
and
mechanisms
drug
absorption
deepen,
adopting
permeation
more
widely,
ultimately
leading
better
patient
outcomes
expanded
treatment
options.
However,
structure
physiological
function
vary
according
different
factors,
such
as
area
body
between
individuals.
These
variations,
along
with
external
environmental
exposures,
aging
pathological
conditions,
introduce
complexities
that
must
be
carefully
considered
when
designing
effective
systems.
Considering
intricacies
physiology,
tailoring
systems
account
for
regional
differences,
individual
variability,
changes
induced
by
factors
or
disease
is
critical
optimizing
This
review
discusses
features
structure,
pathologies,
well
application
in
contexts.
Furthermore,
it
addresses
use
animal
models
transdermal
dermatological
studies,
latest
developments
this
field.
Biomaterials Research,
Journal Year:
2025,
Volume and Issue:
29
Published: Jan. 1, 2025
The
process
of
wound
healing
is
frequently
impeded
by
metabolic
imbalances
within
the
microenvironment.
MXenes
exhibit
exceptional
biocompatibility,
biodegradability,
photothermal
conversion
efficiency,
conductivity,
and
adaptable
surface
functionalization,
demonstrating
marked
potential
in
development
multifunctional
platforms
for
healing.
Moreover,
integration
with
other
bioactive
nanomaterials
has
been
shown
to
enhance
their
therapeutic
efficacy,
paving
way
innovative
approaches
In
this
review,
we
provide
a
systematic
exposition
mechanisms
through
which
facilitate
offer
comprehensive
analysis
current
research
landscape
on
MXene-based
composites
field.
By
delving
into
latest
scientific
discoveries,
identify
existing
challenges
future
trajectories
advancement
MXenes.
Our
evaluation
aims
insightful
guidance
formulation
more
effective
strategies.
Nanoscale,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 1, 2025
This
review
explores
the
synergistic
potential
of
MOF-based
MNs
and
details
strategies
for
integrating
MOFs
various
guest
molecules
within
into
to
enhance
transdermal
therapeutic
applications.
