Journal of Materials Chemistry B,
Год журнала:
2024,
Номер
12(17), С. 4232 - 4247
Опубликована: Янв. 1, 2024
The
design
and
synthesis
of
micro-
nanocarriers
for
preclinical
clinical
imaging
are
highly
attractive
due
to
their
unique
features,
example,
multimodal
properties.
New Journal of Chemistry,
Год журнала:
2023,
Номер
47(18), С. 8737 - 8743
Опубликована: Янв. 1, 2023
The
adsorption
preferences
of
water
and
formic
acid
on
different
surfaces
calcite
were
systematically
studied
with
density
functional
theory
simulations.
ACS Applied Materials & Interfaces,
Год журнала:
2023,
Номер
15(10), С. 13460 - 13471
Опубликована: Март 3, 2023
Conventional
cancer
therapy
methods
have
serious
drawbacks
that
are
related
to
the
nonspecific
action
of
anticancer
drugs
leads
high
toxicity
on
normal
cells
and
increases
risk
recurrence.
The
therapeutic
effect
can
be
significantly
enhanced
when
various
treatment
modalities
implemented.
Here,
we
demonstrate
radio-
photothermal
(PTT)
delivered
through
nanocarriers
(gold
nanorods,
Au
NRs)
in
combination
with
chemotherapy
a
melanoma
results
complete
tumor
inhibition
compared
single
therapy.
synthesized
effectively
labeled
188Re
radionuclide
radiolabeling
efficiency
(94-98%)
radiochemical
stability
(>95%)
appropriate
for
Further,
188Re-Au
NRs,
mediating
conversion
laser
radiation
into
heat,
were
intratumorally
injected
PTT
was
applied.
Upon
irradiation
near-infrared
laser,
dual
achieved.
Additionally,
188Re-labeled
NRs
paclitaxel
(PTX)
has
improved
(188Re-labeled
irradiation,
PTX)
monoregime.
Thus,
this
local
triple-combination
step
toward
clinical
translation
use
treatment.
Chemical Communications,
Год журнала:
2022,
Номер
59(7), С. 807 - 835
Опубликована: Ноя. 11, 2022
Transferring
the
layer-by-layer
(LbL)
coating
approach
from
planar
surfaces
to
spherical
templates
and
subsequently
dissolving
these
leads
fabrication
of
polyelectrolyte
multilayer
capsules.
The
versatility
coatings
capsules
their
flexibility
upon
bringing
in
virtually
any
material
into
has
quickly
drawn
substantial
attention.
Here,
we
provide
an
overview
main
developments
this
field,
highlighting
trends
last
decade.
In
beginning,
various
methods
encapsulation
release
are
discussed
followed
by
a
broad
range
applications,
which
were
developed
explored.
We
also
outline
current
trends,
where
applications
is
continuing
grow,
including
addition
whole
new
different
application
areas.
Polymers,
Год журнала:
2022,
Номер
14(3), С. 479 - 479
Опубликована: Янв. 25, 2022
Polyelectrolyte
multilayered
capsules
(PEMUCs)
obtained
using
the
Layer-by-Layer
(LbL)
method
have
become
powerful
tools
for
different
biomedical
applications,
which
include
drug
delivery,
theranosis
or
biosensing.
However,
exploitation
of
PEMUCs
in
field
requires
a
deep
understanding
most
fundamental
bases
underlying
their
assembly
processes,
and
control
properties
to
fabricate
novel
materials
with
optimized
ability
specific
targeting
therapeutic
capacity.
This
review
presents
an
updated
perspective
on
multiple
avenues
opened
application
field,
aiming
highlight
some
important
advantages
offered
by
LbL
fabrication
platforms
use
detection
treatment
diseases.
Chemistry of Materials,
Год журнала:
2022,
Номер
34(14), С. 6593 - 6605
Опубликована: Июль 8, 2022
Biomedical
application
of
various
nanoparticles
(NPs)
for
bioimaging
and
therapeutic
purposes
attracts
huge
interest.
In
particular,
NPs
can
be
used
as
nanocarriers
radionuclides
radiotherapy
malignant
neoplasms.
However,
most
approaches
NP
radiolabeling
are
complicated,
their
transfer
into
clinical
practice
is
difficult
due
to
multistep
process,
limited
reproducibility,
lack
an
automated
procedure.
Here,
we
develop
a
universal
method
suitable
(either
organic
or
inorganic)
internal
B16-F10
melanoma
tumors.
The
obtained
(polylactide,
silica,
gold,
iron
oxide)
were
labeled
with
diagnostic
(99mTc)
(188Re)
high
efficiency
(∼94–98%)
radiochemical
stability
(>95%).
After
intratumoral
administration,
these
188Re-labeled
mostly
remained
in
the
tumor,
inhibiting
tumor
growth
rate
compared
untreated
absence
any
significant
leakage
radiolabeled
healthy
tissues
(the
liver,
heart,
kidneys,
lungs,
spleen)
was
confirmed
by
single-photon
emission
computed
tomography
(SPECT)
direct
radiometry
analysis.
Histological
analysis
revealed
no
abnormal
changes
organs
after
therapy
(e.g.,
acute
pathologic
findings
detected
liver
kidneys).
As
result,
treatment
mice
led
prolonged
survival
control
group.
Thus,
our
study
provides
general
guidance
use
different
types
radionuclide
therapy.