Journal of Materials Chemistry B,
Journal Year:
2023,
Volume and Issue:
11(9), P. 1829 - 1848
Published: Jan. 1, 2023
Although
degradable
nanomaterials
have
been
widely
designed
and
applied
for
cancer
bioimaging
various
treatments,
few
reviews
of
biodegradable
reported.
Herein,
we
summarized
the
representative
research
advances
with
respect
to
mechanism
degradation
their
application
in
tumor
imaging
therapy.
First,
four
kinds
microenvironment
(TME)
responsive
are
presented,
including
pH,
glutathione
(GSH),
hypoxia
matrix
metalloproteinase
(MMP)
degradation.
Second,
external
stimulation
is
briefly.
Next,
outlined
applications
bioimaging.
Finally,
focused
on
some
typical
examples
radiotherapy
(RT),
photothermal
therapy
(PTT),
starvation
therapy,
photodynamic
(PDT),
chemotherapy,
chemodynamic
(CDT),
sonodynamic
(SDT),
gene
immunotherapy
combination
ACS Nano,
Journal Year:
2022,
Volume and Issue:
17(1), P. 421 - 436
Published: Dec. 27, 2022
Glioblastoma
(GBM)
is
the
most
devastating
brain
tumor
and
highly
resistant
to
conventional
chemotherapy.
Herein,
we
introduce
biomimetic
nanosonosensitizer
systems
(MDNPs)
combined
with
noninvasive
ultrasound
(US)
actuation
for
orthotopic
GBM-targeted
delivery
sonodynamic-enhanced
MDNPs
were
fabricated
biodegradable
pH-sensitive
polyglutamic
acid
(PGA)
chemotherapeutic
agent
sonosensitizer
doxorubicin
(DOX),
camouflaged
human
GBM
U87
cell
membranes.
presented
homologous
targeting
accumulation
in
vivo
long-term
circulation
ability.
They
effectively
passed
through
blood-brain
barrier
(BBB)
under
US
assistance
reached
site.
exhibited
controllable
US-elicited
sonodynamic
effect
by
generation
of
reactive
oxygen
species
(ROS).
ROS
not
only
induced
cancer
apoptosis
but
also
downregulated
drug-resistance-related
factors
disrupt
chemoresistance
increase
sensitivity
The
study
treatments
further
proved
that
US-augmented
synergistic
antitumor
efficacy
strongly
prolonged
survival
rate
mice.
use
low-dose
DOX
safety
enabled
repeated
treatment
(4
times)
without
obvious
cardiotoxicity.
This
effective
safe
US-enhanced
chemotherapy
strategy
advantages
high
drug
holds
great
promise
deep-seated
drug-resistant
tumors.
Bioactive Materials,
Journal Year:
2022,
Volume and Issue:
22, P. 239 - 253
Published: Oct. 7, 2022
Chemodynamic
therapy
(CDT),
a
noninvasive
strategy,
has
emerged
as
promising
alternative
to
conventional
chemotherapy
for
treating
tumors.
However,
its
therapeutic
effect
is
limited
by
the
amount
of
H2O2,
pH
value,
hypoxic
environment
tumors,
and
it
suboptimal
tumor-targeting
ability.
In
this
study,
tumor
cell
membrane-camouflaged
mesoporous
Fe3O4
nanoparticles
loaded
with
perfluoropentane
(PFP)
glucose
oxidase
(GOx)
are
used
microenvironment-adaptive
nanoplatform
([email
protected]2-G),
which
synergistically
enhances
antitumor
CDT.
Mesoporous
selected
inducers
photothermal
Fenton
reactions
nanocarriers.
GOx
depletes
within
cells
starving
cells,
while
producing
H2O2
subsequent
·OH
generation.
Moreover,
PFP,
can
carry
O2,
relieves
hypoxia
in
provides
O2
cascade
reaction.
Finally,
camouflaged
osteosarcoma
membranes,
endowing
homologous
targeting
immune
escape
abilities.
Both
vivo
vitro
evaluations
reveal
high
synergistic
efficacy
[email
protected]2-G,
desirable
tumor-inhibition
rate
(90.50%),
indicates
great
potential
platform
clinical
cancer.
Analytical Chemistry,
Journal Year:
2022,
Volume and Issue:
94(29), P. 10470 - 10478
Published: July 11, 2022
Accurate
diagnosis
and
effective
treatment
of
malignant
tumors
under
the
interference
complex
diverse
tumor
microenvironments
(TMEs)
have
become
focus
research.
Herein,
an
innovative
TME-activated
biomimetic
nanocatalyst
with
quad-modal
imaging
capabilities
second
near-infrared
(NIR-II)
"turn-on"
fluorescence
imaging,
magnetic
resonance
(MRI),
photoacoustic
(PAI),
photothermal
(PTI)
was
designed
developed
for
self-enhanced
photothermal/chemodynamic
synergistic
therapy.
The
catalyst
fabricated
by
loading
glucose
oxidase
(GOD)
Ag2S
quantum
dots
(QDs)
on
MnO2
nanosheets
coating
them
a
4T1
cell
membrane
(AMG@CM),
which
enables
to
successfully
escape
immune
clearance
appealing
tumor-targeting
ability
biocompatibility.
NIR-II
at
1130
nm
QDs
quenched
could
be
recovered
in
vivo
through
glutathione
(GSH)-induced
degradation
MnO2,
enabling
excellent
TME-responsive
visualization.
Simultaneously,
released
Mn2+
can
catalyze
H2O2
produce
abundant
hydroxyl
radicals
(•OH),
achieving
synergistically
enhanced
chemodynamic
therapy
(CDT)
radiation.
Moreover,
CDT
GOD
due
extra
produced
H2O2.
This
work
demonstrates
novel
highly
efficient
multimodal
imaging-guided
integrated
strategy
dual-enhanced
precise
treatment.
Frontiers in Pharmacology,
Journal Year:
2023,
Volume and Issue:
13
Published: Jan. 9, 2023
Background:
Ultrasound-triggered
sonodynamic
therapy
(SDT),
as
a
non-invasive
approach,
has
attracted
considerable
attention
in
wide
variety
of
malignant
tumors
and
other
diseases.
Over
the
past
2
decades,
number
scientific
publications
on
SDT
increased
rapidly.
However,
there
is
still
lack
one
comprehensive
report
that
summarizes
global
research
trends
knowledge
landscapes
field
detail.
Thus,
we
performed
bibliometric
analysis
from
2000
to
2021
track
current
hotspots
highlight
future
directions.
Methods:
We
collected
Web
Science
Core
Collection
database.
The
annual
citations,
major
contributors,
popular
journals,
international
collaborations,
co-cited
references
co-occurrence
keywords
were
analyzed
visualized
with
CiteSpace,
VOSviewer,
R-bibliometrix.
Results:
A
total
701
included.
publication
output
5
175
2021,
average
growth
rate
was
18.4%.
China
most
productive
country
463
documents
(66.05%),
Harbin
Medical
University
prolific
institution
(N
=
73).
Ultrasound
Medicine
Biology
published
papers
related
SDT.
Materials
,
Chemistry
areas
receiving
interest.
All
divided
into
four
different
clusters
including
studies
mechanisms,
drug
delivery
nanoparticles,
cancer
therapy,
well
ultrasound
sonosensitizers.
In
addition
nanomaterials-related
mesoporous
silica
nanosheets,
liposomes,
microbubble
TiO
nanoparticle,
following
directions
such
immunogenic
cell
death,
metal-organic
framework,
photothermal
hypoxia,
tumor
microenvironment,
chemodynamic
combination
resistance,
intensity
focused
ultrasound,
delivery,
Staphylococcus
aureus
also
deserve
further
may
continue
explode
future.
Conclusion:
bright
treatment,
nanomaterials
have
increasingly
influenced
development
nano-technology.
Overall,
this
study
first
attempt
analyze
SDT,
which
could
provide
valuable
for
later
researchers
better
understand
trends,
frontiers
domain.
Advanced Functional Materials,
Journal Year:
2023,
Volume and Issue:
33(25)
Published: March 21, 2023
Abstract
The
sensitization
performance
of
sonosensitizers
plays
a
key
role
in
the
sonodynamic
therapy
(SDT)
effect.
Herein,
ZnSnO
3
:Nd
nanoparticles
with
R
3c
phase/amorphous
heterogeneous
structure
are
developed
by
phase
engineering
strategy
and
applied
as
an
ideal
sonosensitizer.
In
crystalline
perovskite‐type
:Nd,
substitution
Zn
2+
Nd
3+
causes
O
2p
non‐bonded
state
to
move
toward
Fermi
level,
which
optimizes
band
for
ultrasound
reducing
bandgap.
Meanwhile,
unequal
charge
can
also
form
electron
traps
oxygen
vacancies
shorten
migration
distance,
accelerates
electron–hole
separation
inhibits
carrier
recombination,
thus
improving
acoustic
sensitivity.
Moreover,
dangling
bonds
exposed
on
surface
amorphous
provide
more
active
sites,
localized
states
may
promote
separation,
resulting
synergistic
SDT
particular,
released
from
acidic
tumor
microenvironment
(TME)
reduces
adenosine
triphosphate
production
inhibiting
transport
chain
,
promotes
cell
apoptosis
through
destroying
redox
balance
TME.
Combining
inherent
second
near
infrared
computed
tomography
imaging
capabilities,
this
nanoplatform
shows
promising
perspective
clinic
field.
Small,
Journal Year:
2024,
Volume and Issue:
20(26)
Published: Jan. 15, 2024
Abstract
Although
chemotherapy
has
the
potential
to
induce
tumor
immunotherapy
via
immunogenic
cell
death
(ICD)
effects,
how
control
intensity
of
immune
responses
still
deserves
further
exploration.
Herein,
a
controllable
ultrasound
(US)‐triggered
chemo‐immunotherapy
nanoagonist
is
successfully
synthesized
by
utilizing
pH
and
reactive
oxygen
species
(ROS)
dual‐responsive
PEG‐polyphenol
assemble
sonosensitizer
zinc
oxide
(ZnO)
doxorubicin
(DOX).
The
PZnO@DOX
nanoparticles
have
an
intelligent
disassembly
release
DOX
ions
in
acidic
conditions.
Notably,
US
irradiation
generates
ROS
sonodynamic
therapy
accelerates
drug
process.
Interestingly,
after
PZnO@DOX+US
treatment,
injured
cells
double‐stranded
DNA
(dsDNA)
from
nucleus
mitochondria
into
cytosol.
Subsequently,
both
dsDNA
bind
with
cyclic
GMP‐AMP
synthase
activate
stimulator
interferon
genes
(STING)
pathway,
resulting
dendritic
maturation,
ultimately
promoting
DOX‐induced
ICD
effects
antigen‐specific
T
immunity.
Therefore,
chemotherapy‐induced
can
be
modulated
non‐invasive
US.
ACS Materials Letters,
Journal Year:
2024,
Volume and Issue:
6(3), P. 885 - 895
Published: Feb. 8, 2024
The
efficacy
of
chemodynamic
therapy
(CDT)
and
its
potential
to
induce
immunogenic
cell
death
(ICD)
are
highly
dependent
on
the
types
efficiency
generated
reactive
oxygen
species
(ROS).
Herein,
we
innovatively
develop
a
manganese
platinum
(MnPt)
nanozyme
with
dual
ROS
generation
for
magnetic
resonance
imaging
guided
CDT
ICD.
multivalence
state
Mn
ions
authorizes
MnPt
simultaneously
generate
hydroxyl
radical
singlet
under
high
H2O2
acid
condition,
which
obviously
increases
ROS.
Significantly,
mild
photothermal
conversion
enzyme-like
activity
endow
regulate
tumor
microenvironment
elevate
operating
rate,
further
increasing
in
vitro/vivo.
Moreover,
exaltation
both
significantly
enhances
immunogenicity
initiates
immune
response
limit
metastases.
This
study
provides
practical
strategy
accurate
diagnosis
efficient
tumors.
