iScience,
Journal Year:
2024,
Volume and Issue:
27(2), P. 108833 - 108833
Published: Jan. 8, 2024
Tumor
extracellular
vesicles
(EVs)
demonstrate
considerable
promise
for
medication
delivery
and
tumor
targeting
owing
to
their
natural
long-term
blood
circulation
tissue
capabilities.
We
extracted
EVs
from
mouse
breast
cancer
cell
4T1
using
UV
stimulation
differential
centrifugation.
To
create
a
new
nano-drug
system,
the
vesicle
system
(EPM)
loaded
with
melanin
paclitaxel
albumin
(PA),
collected
were
repeatedly
compressed
on
200
nm
porous
polycarbonate
membrane
PA.
Our
findings
suggest
that
EPM
is
readily
absorbed
by
dendritic
cells.
generates
significant
photoacoustic
signals
photothermal
effects
when
exposed
near-infrared
light
can
enhance
infiltration
of
CD8
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(11), P. 6891 - 6952
Published: May 3, 2023
All
forms
of
energy
follow
the
law
conservation
energy,
by
which
they
can
be
neither
created
nor
destroyed.
Light-to-heat
conversion
as
a
traditional
yet
constantly
evolving
means
converting
light
into
thermal
has
been
enduring
appeal
to
researchers
and
public.
With
continuous
development
advanced
nanotechnologies,
variety
photothermal
nanomaterials
have
endowed
with
excellent
harvesting
capabilities
for
exploring
fascinating
prospective
applications.
Herein
we
review
latest
progresses
on
nanomaterials,
focus
their
underlying
mechanisms
powerful
light-to-heat
converters.
We
present
an
extensive
catalogue
nanostructured
materials,
including
metallic/semiconductor
structures,
carbon
organic
polymers,
two-dimensional
materials.
The
proper
material
selection
rational
structural
design
improving
performance
are
then
discussed.
also
provide
representative
overview
techniques
probing
photothermally
generated
heat
at
nanoscale.
finally
recent
significant
developments
applications
give
brief
outlook
current
challenges
future
directions
nanomaterials.
Signal Transduction and Targeted Therapy,
Journal Year:
2023,
Volume and Issue:
8(1)
Published: Nov. 24, 2023
Abstract
Mesoporous
silica
nanoparticles
(MSNs)
are
recognized
as
a
prime
example
of
nanotechnology
applied
in
the
biomedical
field,
due
to
their
easily
tunable
structure
and
composition,
diverse
surface
functionalization
properties,
excellent
biocompatibility.
Over
past
two
decades,
researchers
have
developed
wide
variety
MSNs-based
nanoplatforms
through
careful
design
controlled
preparation
techniques,
demonstrating
adaptability
various
application
scenarios.
With
continuous
breakthroughs
MSNs
fields
biosensing,
disease
diagnosis
treatment,
tissue
engineering,
etc.,
gradually
moving
from
basic
research
clinical
trials.
In
this
review,
we
provide
detailed
summary
beginning
with
comprehensive
overview
development
history.
We
then
discuss
types
nanostructured
architectures,
well
classification
nanocomposites
according
elements
existed
inorganic
functional
components.
Subsequently,
summarize
primary
purposes
surface-functionalized
modifications
MSNs.
following,
applications
MSNs,
highlight
targeted
therapeutic
modalities
currently
developed.
Given
importance
translation,
also
progress
Finally,
take
perspective
on
future
direction
remaining
challenges
field.
Advanced Functional Materials,
Journal Year:
2022,
Volume and Issue:
32(38)
Published: July 18, 2022
Abstract
Ultrasound
(US)‐mediated
sonodynamic
therapy
(SDT)
has
the
advantages
of
non‐invasiveness
and
deep
tissue
penetration.
Nanosystems
are
prominently
used
in
sonosensitization;
however,
most
nano‐sonosensitizers
have
a
low
reactive
oxygen
species
(ROS)
yield,
thus
restraining
application
SDT.
Sodium
molybdenum
bronze
nanoparticles
(SMB
NPs)
with
rich
vacancies
developed
interlayer
gaps
trioxide
nanobelts
expanded.
Owing
to
increased
vacancy
density
wide
gap‐induced
narrower
band
gap
SMB
NPs,
electrons
(e
–
)
holes
(h
+
generated
by
US
separated
more
rapidly,
prevent
electrons–holes
recombination
under
irradiation.
NPs
exhibit
second
near‐infrared
(NIR‐II)
photothermal
effect
promote
generation
ROS
sonosensitizer.
The
system
is
successfully
realized
eliminate
Staphylococcus
aureus
(
S.
dissipate
biofilm.
Therefore,
multimodal
using
serves
as
an
effective
promising
regimen
for
deep‐seated
bacterial
infections.
newly
Mo‐based
sonosensitizer
presented
first
time
demonstrate
excellent
antimicrobial
activity
through
hyperthermia‐promoting
SDT
therapeutics.
This
work
proposes
novel
strategy
field
NIR‐II
photo‐amplified
materials
eradication
other
important
biomedical
applications.
ACS Nano,
Journal Year:
2022,
Volume and Issue:
16(7), P. 11428 - 11443
Published: July 11, 2022
The
regulation
of
intracellular
ions'
overload
to
interrupt
normal
bioprocesses
and
cause
cell
death
has
been
developed
as
an
efficient
strategy
(named
ion-interference
therapy/IIT)
treat
cancer.
In
this
study,
we
design
a
multifunctional
nanoplatform
(called
BSArGO@ZIF-8
NSs)
by
in
situ
growth
metal
organic
framework
nanoparticles
(ZIF-8
NPs)
onto
the
graphene
oxide
(GO)
surface,
subsequently
reduced
ascorbic
acid
modified
bovine
serum
albumin.
This
nanocomplex
causes
Zn2+,
increase
reactive
oxygen
species
(ROS),
exerts
broad-spectrum
lethality
different
kinds
cancer
cells.
NSs
can
promote
apoptosis
initiating
bim
(a
pro-apoptotic
protein)-mediated
mitochondrial
apoptotic
events,
up-regulating
PUMA/NOXA
expression,
down-regulating
level
Bid/p53AIP1.
Meanwhile,
Zn2+
excess
triggers
cellular
dysfunction
mitochondria
damage
activating
autophagy
signaling
pathways
disturbing
environmental
homeostasis.
Combined
with
photothermal
effect
GO
(rGO),
mediated
combined
therapy
leads
effective
inhibits
proliferation
angiogenesis,
bringing
higher
efficacy
tumor
suppression
vivo.
designed
Zn-based
will
allow
promoting
further
development
IIT
corresponding
strategy.
Deleted Journal,
Journal Year:
2023,
Volume and Issue:
1(2)
Published: Feb. 21, 2023
Abstract
Phototherapy,
mainly
including
photothermal
therapy
(PTT)
and
photodynamic
(PDT),
can
kill
cancer
cells
by
generating
heat
or
reactive
oxygen
species,
which
has
the
advantages
of
being
minimally
invasive,
high
efficiency,
low
toxicity.
However,
traditional
phototherapeutic
agents
face
challenges
such
as
poor
tumor
targeting,
susceptibility
to
passive
immune
clearance,
suboptimal
biocompatibility,
limit
their
clinical
application.
Recently,
cell
membrane
biomimetic
technology
endows
with
unique
biological
functions,
promoted
escape,
prolonged
in
vivo
circulation
time,
improved
enhanced
anti‐tumor
efficacy.
In
addition,
phototherapy
mediated
(CCM)
membrane‐modified
promote
broad
immunity.
this
review,
we
deeply
analyze
mechanisms
PTT
PDT,
systematically
discuss
synthesis
strategies
functions
nanomaterials,
focus
on
progress
based
nanomaterials
synergistic
therapies
chemotherapy,
radiotherapy,
immunotherapy,
sonodynamic
therapy.
Finally,
address
opportunities
future
prospects
field
phototherapy.
This
comprehensive
review
is
expected
provide
insights
into
promoting
translation
agents.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(29)
Published: June 9, 2023
Abstract
Growing
concern
about
photothermal
tumor
therapy
(PTT)
as
a
promising
alternative
to
conventional
liver
cancer
treatment,
which
is
treatment
strategy
that
utilizes
near‐infrared
(NIR)
light‐induced
agents
(PTAs)
yield
effects
localize
thermal
damage
for
tumors.
Herein,
given
the
gap
between
experimental
research
and
clinical
application,
this
review
seeks
timely
summarize
highlight
recent
progress
of
PTAs
used
in
vivo
vitro
last
five‐year.
The
implications
various
on
multifunctional
conversion
capability,
structure‐performance
correlations
PTT,
together
with
evaluation
their
potential
application
are
systematically
dissected
further
dig
out
what
buried
mechanism
is.
Besides,
higher
requirements
put
forward
discrepancies
crucial
issues
faced
by
different
PTT
related
medical
technical
obstacles
being
conquered,
lays
solid
theoretical
foundation
field
oncology
whole,
especially
cancer.
Finally,
it
expected
can
present
valuable
guidance
design
efficient,
photostability,
biosafety‐aware
anticancer
while
stepping
into
fast
traffic
lane
from
bench
bedside
foreseeable
future.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(7), P. 6349 - 6349
Published: March 28, 2023
With
advances
in
nanotechnology,
nanoparticles
have
come
to
be
regarded
as
carriers
of
therapeutic
agents
and
been
widely
studied
overcome
various
diseases
the
biomedical
field.
Among
these
particles,
mesoporous
silica
(MSNs)
investigated
potential
nanocarriers
deliver
drug
molecules
target
sites
body.
This
review
introduces
physicochemical
properties
MSNs
synthesis
procedures
MSN-based
nanoplatforms.
Moreover,
we
focus
on
updating
applications
a
carrier
or
diagnostic
cargo
clinical
trials
using
silica-nanoparticle-based
systems.
Herein,
one
hand,
pay
attention
pharmaceutical
advantages
MSNs,
including
nanometer
particle
size,
high
surface
area,
porous
structures,
thus
enabling
efficient
delivery
drug-loading
content.
On
other
look
through
biosafety
toxicity
issues
associated
with
platforms.
Based
many
reports
so
far,
applied
construct
tissue
engineering
platforms
well
treat
diseases,
cancer,
by
functionalization
incorporation
stimuli-responsive
components.
However,
even
advantageous
aspects
that
possess,
there
are
still
considerations,
such
optimizing
dosage
regimens,
regarding
use
clinics.
Progress
scale-up
production
thorough
investigation
into
would
enable
design
innovative
safe
fields.
