Advanced Materials,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Sept. 23, 2024
Low-intensity
ultrasound-mediated
sonodynamic
therapy
(SDT),
which,
by
design,
integrates
sonosensitizers
and
molecular
oxygen
to
generate
therapeutic
substances
(e.g.,
toxic
hydroxyl
radicals,
superoxide
anions,
or
singlet
oxygen)
at
disease
sites,
has
shown
enormous
potential
for
the
effective
treatment
of
a
variety
diseases.
Nanoscale
play
crucial
role
in
SDT
process
because
their
structural,
compositional,
physicochemical,
biological
characteristics
are
key
determinants
efficacy.
In
particular,
advances
materials
science
nanotechnology
have
invigorated
series
optimization
strategies
augmenting
efficacy
nanosonosensitizers.
This
comprehensive
review
systematically
summarizes,
discusses,
highlights
state-of-the-art
studies
on
current
achievements
nanosonosensitizer
enhanced
treatment,
with
an
emphasis
general
design
principles
nanosonosensitizers
strategies,
mainly
including
organic
inorganic
Additionally,
recent
advancements
optimized
applications
aimed
treating
various
diseases,
such
as
cancer,
bacterial
infections,
atherosclerosis,
autoimmune
clarified
detail.
Furthermore,
effects
improved
versatile
thoroughly
discussed.
The
concludes
highlighting
challenges
future
opportunities
this
rapidly
evolving
research
field
expedite
its
practical
clinical
translation
application.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
35(33)
Published: March 7, 2023
Abstract
Immunotherapy
has
made
remarkable
strides
in
cancer
therapy
over
the
past
decade.
However,
such
emerging
still
suffers
from
low
response
rates
and
immune‐related
adverse
events.
Various
strategies
have
been
developed
to
overcome
these
serious
challenges.
Therein,
sonodynamic
(SDT),
as
a
non‐invasive
treatment,
received
ever‐increasing
attention
especially
treatment
of
deep‐seated
tumors.
Significantly,
SDT
can
effectively
induce
immunogenic
cell
death
trigger
systemic
anti‐tumor
immune
response,
termed
immunotherapy.
The
rapid
development
nanotechnology
revolutionized
effects
with
robust
induction.
As
result,
more
innovative
nanosonosensitizers
synergistic
modalities
are
established
superior
efficacy
safe
profile.
In
this
review,
recent
advances
immunotherapy
summarized
particular
emphasis
on
how
be
explored
harness
for
amplifying
response.
Moreover,
current
challenges
field
prospects
its
clinical
translation
also
presented.
It
is
anticipated
that
review
provide
rational
guidance
facilitate
nanomaterials‐assisted
immunotherapy,
helping
pave
way
next‐generation
eventually
achieve
durable
patients.
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: Nov. 1, 2023
The
dense
stroma
of
desmoplastic
tumor
limits
nanotherapeutic
penetration
and
hampers
the
antitumor
immune
response.
Here,
we
report
a
denaturation-and-penetration
strategy
use
tin
monosulfide
nanoparticles
(SnSNPs)
as
nano-sonosensitizers
that
can
overcome
stromal
barrier
for
management
triple-negative
breast
cancer
(TNBC).
SnSNPs
possess
narrow
bandgap
(1.18
eV),
allowing
efficient
electron
(e-)-hole
(h+)
pair
separation
to
generate
reactive
oxygen
species
under
US
activation.
More
importantly,
display
mild
photothermal
properties
in
situ
denature
collagen
facilitate
deep
into
mass
upon
near-infrared
irradiation.
This
approach
significantly
enhances
sonodynamic
therapy
(SDT)
by
boosts
immunity.
In
mouse
models
malignant
TNBC
hepatocellular
carcinoma
(HCC),
combination
robust
SDT
enhanced
cytotoxic
T
lymphocyte
infiltration
achieves
remarkable
anti-tumor
efficacy.
study
presents
an
innovative
enhance
immunity
using
strategy,
offering
potential
combined
sono-immunotherapy
nanomedicine
field.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
35(51)
Published: June 1, 2023
Sonodynamic
therapy
(SDT)
is
a
promising
non-invasive
therapeutic
modality
to
treat
deep-seated
tumors
owing
the
good
tissue
penetration
ability
and
spatiotemporal
controllability
of
ultrasound
(US);
however,
low
sonodynamic
activity
potential
side
effects
greatly
limit
its
clinical
translation.
Cancer
immunotherapy
that
leverages
immune
system
fight
against
cancer
has
great
synergize
with
SDT
for
treatment
high
efficiency
safety.
In
this
review,
convergence
exert
their
merits
break
through
limitations
combination
sono-immunotherapy
are
discussed.
The
focus
on
development
construction
organic
materials
immunotherapeutic
efficiency.
These
not
only
induce
immunogenic
cell
death
improve
tumor
immunogenicity
via
but
also
activate
antitumor
immunity
immuno-oncology
drug-mediated
pathway
modulation.
various
drugs
sonosensitizers
categorized
discussed
along
prospects
challenges
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(25)
Published: March 16, 2024
The
immunosuppressive
tumor
microenvironment
(TME)
is
a
huge
hurdle
in
immunotherapy.
Sono-immunotherapy
new
treatment
modality
that
can
reverse
TME,
but
the
sonodynamic
effects
are
compromised
by
overexpressed
glutathione
(GSH)
and
hypoxia
TME.
Herein,
this
work
reports
sono-immunotherapy
strategy
using
Pd
ACS Nano,
Journal Year:
2024,
Volume and Issue:
18(15), P. 10542 - 10556
Published: April 1, 2024
Immunotherapy
has
emerged
as
a
potential
approach
for
breast
cancer
treatment.
However,
the
rigid
stromal
microenvironment
and
low
immunogenicity
of
tumors
strongly
reduce
sensitivity
to
immunotherapy.
To
sensitize
patients
immunotherapy,
hyaluronic
acid-modified
zinc
peroxide–iron
nanocomposites
(Fe-ZnO2@HA,
abbreviated
FZOH)
were
synthesized
remodel
increase
tumor
immunogenicity.
The
constructed
FZOH
spontaneously
generated
highly
oxidative
hydroxyl
radicals
(·OH)
that
degrade
acid
(HA)
in
extracellular
matrix
(ECM),
thereby
reshaping
enhancing
blood
perfusion,
drug
penetration,
immune
cell
infiltration.
Furthermore,
not
only
triggers
pyroptosis
through
activation
caspase-1/GSDMD-dependent
pathway
but
also
induces
ferroptosis
various
mechanisms,
including
increasing
levels
Fe2+
intracellular
iron
pool,
downregulating
expression
FPN1
inhibit
efflux,
activating
p53
signaling
cause
failure
SLC7A11-GSH-GPX4
axis.
Upon
treatment
with
FZOH,
4T1
cells
undergo
both
pyroptosis,
exhibiting
strong
immunogenic
response.
remodeling
response
induced
by
collectively
compensate
limitations
immunotherapy
significantly
enhance
antitumor
checkpoint
inhibitor
αPD-1.
This
study
proposes
perspective
therapy
cancer.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(25)
Published: March 6, 2024
Combination
cancer
immunotherapy
based
on
electromagnetic
energy
and
shows
potent
anti-cancer
efficacy.
However,
as
a
factor
that
mediates
tumor
metastasis
immune
suppression,
the
impact
of
exosomes
therapy
under
stimulation
remains
unclear.
Herein,
findings
indicate
sonodynamic
(SDT)
increases
serum
exosome
levels
by
inducing
apoptotic
loosening
extracellular
matrix,
promoting
lung
metastasis.
To
address
this
problem,
an
exosome-inhibiting
polymeric
sonosensitizer
(EIPS)
selectively
inhibiting
generation
in
response
to
biomarker
is
synthesized.
EIPS
consists
semiconducting
polymer
backbone
capable
SDT
poly(ethylene
glycol)
layer
conjugated
with
tumor-specific
enzyme-responsive
inhibitor
prodrug.
After
being
cleaved
Cathepsin
B,
releases
active
inhibitors,
preventing
exosome-mediated
suppression
As
result,
elicits
robust
antitumor
effects
through
synergistic
effect
inhibition,
completely
establishing
long-term
memory
effect.
This
first
example
showing
combining
inhibition
can
elicit
without
help
typical
agonists.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(12), P. 6399 - 6444
Published: Jan. 1, 2024
This
review
highlights
recent
advances
in
immunological
nanomaterials
against
metastasis
and
summarizes
various
nanomaterial-mediated
immunotherapy
strategies.
Advanced Science,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 8, 2025
Sonodynamic
therapy
(SDT)
represents
a
promising
approach
for
cancer
treatment.
Compared
to
photodynamic
therapy,
SDT
offers
increased
penetration
depth
and
higher
precision.
However,
the
practical
application
of
is
constrained
by
low
water
solubility,
poor
tumor
specificity,
metabolic
susceptibility
most
sonosensitizers.
Recent
research
has
explored
use
piezoelectric
materials
as
sonosensitizers
in
treatment
inhibition
bacterial
growth.
Upon
ultrasound
excitation,
separation
electron-hole
(e--h+)
pairs
occurs
within
material.
By
improving
crystal
structure
material
or
incorporating
other
nanoparticles
prevent
rapid
recombination
e--h+
pairs,
accumulates
charges
conduction
band
valence
band,
achieving
redox
potential
O2/·O2
-.
This
enables
serve
sonosensitizer,
leading
concept
termed
Sono-Piezo
Dynamic
Therapy
(SPDT).
review
aims
define
SPDT,
provide
systematic
overview
historical
development
SDT,
elucidate
mechanisms
which
act
Importantly,
various
will
be
discussed
terms
their
feasibility,
advantages,
disadvantages
sonosensitizers,
offering
new
perspectives
identifying
Advanced Science,
Journal Year:
2023,
Volume and Issue:
10(18)
Published: April 28, 2023
Near-infrared
fluorescence
imaging
is
vital
for
exploring
the
biological
world.
The
short
emissions
(<650
nm)
and
small
Stokes
shifts
(<30
of
current
xanthene
dyes
obstruct
their
applications
since
a
long
time.
Recently,
potent
universal
THQ
structural
modification
technique
that
emission
to
NIR-I/II
range
enables
substantial
shift
(>100
THQ-modified
established.
Thus,
timely
discussion
THQ-xanthene
its
extensive.
Hence,
advent,
working
principles,
development
trajectory,
dyes,
especially
in
fields
probe-based
sensing
imaging,
cancer
theranostics,
super-resolution
are
introduced.
It
envisioned
tactic
simple
yet
exceptional
approach
upgrade
performance
conventional
dyes.
will
advance
strides
xanthene-based
potentials
early
fluorescent
diagnosis
diseases,
imaging-guided
surgery.
