Molecular Pharmaceutics,
Год журнала:
2023,
Номер
20(2), С. 1269 - 1284
Опубликована: Янв. 20, 2023
Diabetes
mellitus
(DM)
is
a
metabolic
disorder
that
one
of
the
most
common
health
problems
in
world,
primarily
type
2
DM
(T2DM).
Metformin
(MTF),
as
first-line
treatment
DMT2,
effective
lowering
glucose
levels,
but
its
oral
administration
causes
problems,
including
gastrointestinal
side
effects,
low
bioavailability,
and
risk
hypoglycemia.
In
this
study,
we
formulated
MTF
into
microparticles
incorporating
glucose-responsive
polymer
(MP–MTF–GR),
which
could
potentially
increase
bioavailability
extend
control
release
according
to
levels.
This
system
was
delivered
by
dissolving
microneedles
(MP–MTF–GR–DMN),
applied
through
skin,
thereby
preventing
effects
orally
administered
MTF.
MP–MTF–GR
using
various
concentrations
gelatin
combined
with
phenylboronic
acid
(PBA)
material.
encapsulated
DMN
polyvinyl
pyrrolidone
(PVP)
alcohol
(PVA)
polymers.
The
physicochemical
evaluation
showed
be
completely
entrapped
MP
percentage
trapped
increasing
concentration
without
changing
chemical
structure
producing
stable
MP.
addition,
results
MP–MTF–GR–DMN
had
adequate
mechanical
strength
properties
penetration
ability
environmental
changes.
vitro
ex
vivo
permeation
study
on
media
from
formula
increased
levels
media.
successfully
skin
at
11.30
±
0.29,
23.31
1.64,
36.12
3.77,
53.09
3.01
μg
PBS,
PBS
+
1%,
2%,
4%,
respectively,
24
h,
indicates
behavior.
developed
also
proven
nontoxic
based
hemolysis
tests.
Importantly,
rat
model
combination
approach
provide
better
reduction
compared
other
routes,
reducing
blood
level
normal
after
3
h
maintaining
for
8
h.
Furthermore,
did
not
change
moisture
rats.
promising
alternative
delivery
overcome
effectiveness
T2DM
therapy.
The
rapid
degradation
of
magnesium
(Mg)
alloy
implants
erodes
mechanical
performance
and
interfacial
bioactivity,
thereby
limiting
their
clinical
utility.
Surface
modification
is
among
the
solutions
to
improve
corrosion
resistance
bioefficacy
Mg
alloys.
Novel
composite
coatings
that
incorporate
nanostructures
create
new
opportunities
for
expanded
use.
Particle
size
dominance
impermeability
may
increase
prolong
implant
service
time.
Nanoparticles
with
specific
biological
effects
be
released
into
peri-implant
microenvironment
during
promote
healing.
Composite
nanocoatings
provide
nanoscale
surfaces
cell
adhesion
proliferation.
activate
cellular
signaling
pathways,
while
those
porous
or
core-shell
structures
carry
antibacterial
immunomodulatory
drugs.
vascular
reendothelialization
osteogenesis,
attenuate
inflammation,
inhibit
bacterial
growth,
thus
increasing
applicability
in
complex
microenvironments
such
as
atherosclerosis
open
fractures.
This
review
combines
physicochemical
properties
efficiency
Mg-based
biomedical
summarize
advantages
nanocoatings,
analyzes
mechanisms
action,
proposes
design
construction
strategies,
purpose
providing
a
reference
promoting
application
further
nanocoatings.
International Journal of Nanomedicine,
Год журнала:
2023,
Номер
Volume 18, С. 4275 - 4311
Опубликована: Июль 1, 2023
Abstract:
Breast
cancer
(BC)
is
the
most
prevalent
type
of
in
world
and
main
reason
women
die
from
cancer.
Due
to
significant
side
effects
conventional
treatments
such
as
chemotherapy
radiotherapy,
search
for
supplemental
alternative
natural
drugs
with
lower
toxicity
interest
researchers.
Curcumin
(CUR)
a
polyphenol
extracted
turmeric.
Numerous
studies
have
demonstrated
that
CUR
an
effective
anticancer
drug
works
by
modifying
different
intracellular
signaling
pathways.
CUR's
therapeutic
utility
severely
constrained
its
short
half-life
vivo,
low
water
solubility,
poor
stability,
quick
metabolism,
oral
bioavailability,
potential
gastrointestinal
discomfort
high
doses.
One
practical
solutions
aforementioned
issues
development
targeted
delivery
systems
(TDDSs)
based
on
nanomaterials.
To
improve
targeting
efficacy
serve
reference
use
TDDSs
clinical
setting,
this
review
describes
physicochemical
properties
bioavailability
mechanism
action
BC,
emphasis
recent
BC
combination
CUR,
including
passive
TDDSs,
active
TDDSs.
Keywords:
breast
cancer,
curcumin,
system,
targeting,
Pharmaceutics,
Год журнала:
2023,
Номер
15(3), С. 879 - 879
Опубликована: Март 8, 2023
Despite
recent
advances,
cancer
remains
the
primary
killer
on
a
global
scale.
Numerous
forms
of
research
have
been
conducted
to
discover
novel
and
efficient
anticancer
medications.
The
complexity
breast
is
major
challenge
which
coupled
with
patient-to-patient
variations
heterogeneity
between
cells
within
tumor.
Revolutionary
drug
delivery
expected
provide
solution
that
challenge.
Chitosan
nanoparticles
(CSNPs)
prospects
as
revolutionary
system
capable
enhancing
activity
reducing
negative
impacts
normal
cells.
use
smart
systems
(SDDs)
delivering
materials
improve
bioactivity
NPs
understand
intricacies
has
garnered
significant
interest.
There
are
many
reviews
about
CSNPs
present
various
points
view,
but
they
not
yet
described
series
in
therapy
from
cell
uptake
death.
With
this
description,
we
will
more
complete
picture
for
designing
preparations
SDDs.
This
review
describes
SDDSs,
targeting
stimulus
response
using
their
mechanism.
Multimodal
chitosan
SDDs
medication
therapeutic
results.
Molecular Pharmaceutics,
Год журнала:
2023,
Номер
20(2), С. 1269 - 1284
Опубликована: Янв. 20, 2023
Diabetes
mellitus
(DM)
is
a
metabolic
disorder
that
one
of
the
most
common
health
problems
in
world,
primarily
type
2
DM
(T2DM).
Metformin
(MTF),
as
first-line
treatment
DMT2,
effective
lowering
glucose
levels,
but
its
oral
administration
causes
problems,
including
gastrointestinal
side
effects,
low
bioavailability,
and
risk
hypoglycemia.
In
this
study,
we
formulated
MTF
into
microparticles
incorporating
glucose-responsive
polymer
(MP–MTF–GR),
which
could
potentially
increase
bioavailability
extend
control
release
according
to
levels.
This
system
was
delivered
by
dissolving
microneedles
(MP–MTF–GR–DMN),
applied
through
skin,
thereby
preventing
effects
orally
administered
MTF.
MP–MTF–GR
using
various
concentrations
gelatin
combined
with
phenylboronic
acid
(PBA)
material.
encapsulated
DMN
polyvinyl
pyrrolidone
(PVP)
alcohol
(PVA)
polymers.
The
physicochemical
evaluation
showed
be
completely
entrapped
MP
percentage
trapped
increasing
concentration
without
changing
chemical
structure
producing
stable
MP.
addition,
results
MP–MTF–GR–DMN
had
adequate
mechanical
strength
properties
penetration
ability
environmental
changes.
vitro
ex
vivo
permeation
study
on
media
from
formula
increased
levels
media.
successfully
skin
at
11.30
±
0.29,
23.31
1.64,
36.12
3.77,
53.09
3.01
μg
PBS,
PBS
+
1%,
2%,
4%,
respectively,
24
h,
indicates
behavior.
developed
also
proven
nontoxic
based
hemolysis
tests.
Importantly,
rat
model
combination
approach
provide
better
reduction
compared
other
routes,
reducing
blood
level
normal
after
3
h
maintaining
for
8
h.
Furthermore,
did
not
change
moisture
rats.
promising
alternative
delivery
overcome
effectiveness
T2DM
therapy.
