Wiley Interdisciplinary Reviews Nanomedicine and Nanobiotechnology,
Journal Year:
2022,
Volume and Issue:
15(1)
Published: Aug. 12, 2022
Glioblastoma
multiforme
(GBM)
represents
the
most
common
and
fatal
form
of
primary
invasive
brain
tumors
as
it
affects
a
great
number
patients
each
year
has
median
overall
survival
approximately
14.6
months
after
diagnosis.
Despite
intensive
treatment,
almost
all
with
GBM
experience
recurrence,
their
5-year
rate
is
5%.
At
present,
main
clinical
treatment
strategy
includes
surgical
resection,
radiotherapy,
chemotherapy.
However,
tumor
heterogeneity,
blood-brain
barrier,
glioma
stem
cells,
DNA
damage
repair
mechanisms
hinder
efficient
treatment.
The
emergence
nanometer-scale
diagnostic
therapeutic
approaches
in
cancer
medicine
due
to
establishment
nanotechnology
provides
novel
promising
tools
that
will
allow
us
overcome
these
difficulties.
This
review
summarizes
application
recent
progress
nanotechnology-based
monotherapies
(e.g.,
chemotherapy)
combination
strategies
(chemotherapy-based
combined
therapy)
for
describes
synergistic
enhancement
between
therapies
well
current
standard
therapy
its
deficiencies.
These
can
reduce
individual
drug-related
toxicities
significantly
enhance
efficiency
have
recently
undergone
rapid
development.
underlying
different
photodynamic
chemodynamic
been
systematically
summarized
here
an
attempt
developments
identify
directions
future
research.
clinically
significant
insights
GBM,
which
importance.
article
categorized
under:
Therapeutic
Approaches
Drug
Discovery
>
Nanomedicine
Oncologic
Disease
Diagnostic
Tools
In
Vivo
Nanodiagnostics
Imaging.
ACS Nano,
Journal Year:
2023,
Volume and Issue:
17(16), P. 15962 - 15977
Published: Aug. 3, 2023
Treatment
of
diabetic
foot
ulcers
(DFU)
needs
to
reduce
inflammation,
relieve
hypoxia,
lower
blood
glucose,
promote
angiogenesis,
and
eliminate
pathogenic
bacteria,
but
the
therapeutic
efficacy
is
greatly
limited
by
diversity
synergy
drug
functions
as
well
DFU
microenvironment
itself.
Herein,
an
ultrasound-augmented
multienzyme-like
nanozyme
hydrogel
spray
was
developed
using
hyaluronic
acid
encapsulated
l-arginine
ultrasmall
gold
nanoparticles
Cu1.6O
coloaded
phosphorus
doped
graphitic
carbon
nitride
nanosheets
(ACPCAH).
This
possesses
five
types
enzyme-like
activities,
including
superoxide
dismutase
(SOD)-,
catalase
(CAT)-,
glucose
oxidase
(GOx)-,
peroxidase
(POD)-,
nitric
oxide
synthase
(NOS)-like
activities.
The
kinetics
reaction
mechanism
sonodynamic/sonothermal
synergistic
enhancement
SOD-CAT-GOx-POD/NOS
cascade
ACPCAH
are
fully
investigated.
Both
in
vitro
vivo
tests
demonstrate
that
this
can
be
activated
thus
accelerating
wound
healing
effectively.
study
highlights
a
competitive
approach
based
on
nanozymes
for
development
all-in-one
therapies.
Chemical Reviews,
Journal Year:
2023,
Volume and Issue:
123(11), P. 7326 - 7378
Published: March 13, 2023
Cancer
thermal
therapy,
also
known
as
hyperthermia
has
long
been
exploited
to
eradicate
mass
lesions
that
are
now
defined
cancer.
With
the
development
of
corresponding
technologies
and
equipment,
local
therapies
such
radiofrequency
ablation,
microwave
high-intensity
focused
ultrasound,
have
validated
effectively
ablate
tumors
in
modern
clinical
practice.
However,
they
still
face
many
shortcomings,
including
nonspecific
damages
adjacent
normal
tissues
incomplete
ablation
particularly
for
large
tumors,
restricting
their
wide
usage.
Attributed
versatile
physiochemical
properties,
biomaterials
specially
designed
potentiate
treatments
according
unique
working
principles.
Meanwhile,
biomaterial-based
delivery
systems
able
bridge
with
other
types
treatment
strategies
chemotherapy,
radiotherapy
immunotherapy.
Therefore,
this
review,
we
discuss
recent
progress
functional
reinforce
by
functioning
sensitizers
endow
more
efficient
tumor-localized
and/or
vehicles
synergize
therapeutic
modalities
combined
cancer
treatments.
Thereafter,
provide
a
critical
perspective
on
further
biomaterial-assisted
toward
applications.
Nano Letters,
Journal Year:
2023,
Volume and Issue:
23(7), P. 3038 - 3047
Published: March 23, 2023
Recent
progress
in
cuproptosis
sheds
light
on
the
development
of
treatment
approaches
for
advancing
sonodynamic
therapy
(SDT)
due
to
its
unique
cell
death
mechanism.
Herein,
we
elaborately
developed
an
intelligent
cell-derived
nanorobot
(SonoCu),
composed
macrophage-membrane-camouflaged
nanocarrier
encapsulating
copper-doped
zeolitic
imidazolate
framework-8
(ZIF-8),
perfluorocarbon,
and
sonosensitizer
Ce6,
synergistically
triggering
cuproptosis-augmented
SDT.
SonoCu
not
only
improved
tumor
accumulation
cancer-cell
uptake
through
cell-membrane
camouflaging
but
responded
ultrasound
stimuli
enhance
intratumor
blood
flow
oxygen
supply,
which
consequently
overcame
barriers
activated
cuproptosis.
Importantly,
SDT
effectiveness
could
be
further
amplified
by
multiple
mechanisms,
including
reactive
species
accumulation,
proteotoxic
stress,
metabolic
regulation,
sensitized
cancer
death.
Particularly,
exhibited
ultrasound-responsive
cytotoxicity
against
cells
healthy
cells,
endowing
it
with
good
biosafety.
Therefore,
present
first
anticancer
combination
cuproptosis,
may
inspire
studies
pursuing
a
rational
multimodal
strategy.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
35(17)
Published: Feb. 13, 2023
Abstract
Sonodynamic
therapy
(SDT)
has
been
a
promising
therapeutic
modality
for
cancer
because
of
its
superior
advantages
compared
with
other
strategies.
However,
the
current
sonosensitizers
used
SDT
normally
exhibit
low
activity
ultrasound
(US)‐induced
reactive
oxygen
species
(ROS)
generation.
Herein,
crystalline‐to‐amorphous
phase
transformation
is
reported
as
simple
but
powerful
strategy
to
engineer
ultrathin
2D
CoW‐LDH
and
NiW‐LDH
nanosheets
highly
efficient
SDT.
The
from
polycrystalline
amorphous
ones
achieved
through
acid
etching
treatment.
Importantly,
one,
(a‐CoW‐LDH)
possess
higher
ROS
generation
under
US
irradiation,
which
≈17
times
commercial
TiO
2
sonosensitizer.
results
suggest
that
enhanced
performance
a‐CoW‐LDH
US‐induced
may
be
attributed
transformation‐induced
defect
electronic
structure
changes.
After
polyethylene
glycol
modification,
can
serve
high‐efficiency
sonosensitizer
achieve
cell
death
in
vitro
tumor
eradication
vivo
irradiation.
Military Medical Research,
Journal Year:
2022,
Volume and Issue:
9(1)
Published: June 9, 2022
Abstract
Glioblastoma
multiforme
(GBM)
is
the
most
common
primary
malignant
brain
tumor,
and
it
associated
with
poor
prognosis.
Its
characteristics
of
being
highly
invasive
undergoing
heterogeneous
genetic
mutation,
as
well
presence
blood–brain
barrier
(BBB),
have
reduced
efficacy
GBM
treatment.
The
emergence
a
novel
therapeutic
method,
namely,
sonodynamic
therapy
(SDT),
provides
promising
strategy
for
eradicating
tumors
via
activated
sonosensitizers
coupled
low-intensity
ultrasound.
SDT
can
provide
tumor
killing
effects
deep-seated
tumors,
such
tumors.
However,
conventional
cannot
effectively
reach
region
kill
additional
cells,
especially
cells.
Efforts
should
be
made
to
develop
method
help
agents
pass
through
BBB
accumulate
in
With
development
multifunctional
nanosensitizers
newly
emerging
combination
strategies,
ability
selectivity
greatly
improved
are
accompanied
fewer
side
effects.
In
this
review,
we
systematically
summarize
findings
previous
studies
on
GBM,
focus
recent
developments
directions
future
research.
Materials Chemistry Frontiers,
Journal Year:
2023,
Volume and Issue:
7(8), P. 1684 - 1693
Published: Jan. 1, 2023
2D
Al-TCPP
MOF
nanosheets
were
prepared
via
a
simple
solvothermal
synthesis
method
without
the
need
for
any
surfactants
and
found
to
be
an
effective
sonosensitizer
sonodynamic
cancer
therapy.
Materials Today Bio,
Journal Year:
2023,
Volume and Issue:
19, P. 100559 - 100559
Published: Jan. 21, 2023
With
the
widespread
prevalence
of
drug-resistant
pathogens,
traditional
antibiotics
have
limited
effectiveness
and
do
not
yield
desired
outcomes.
Recently,
alternative
antibacterial
therapies
based
on
ultrasound
(US)
been
explored
to
overcome
crisis
bacterial
pathogens.
Antimicrobial
sonodynamic
therapy
(aSDT)
offers
an
excellent
solution
that
relies
US
irradiation
produce
reactive
oxygen
species
(ROS)
achieve
antibiotic-free
mediated
antimicrobial
effects.
In
addition,
aSDT
possesses
advantage
superior
tissue
penetrability
compared
light
irradiation,
demonstrating
great
feasibility
in
treating
deep
infections.
Although
existing
conventional
sonosensitizers
can
ROS
for
activity,
some
limitations,
such
as
low
penetration
rate,
nonspecific
distribution
poor
production
under
hypoxic
conditions,
result
suboptimal
sterilization
aSDT.
emerging
nanosonosensitizers
enormous
advantages
high-performance
agents
aSDT,
which
deficiencies
described
above.
Thus,
nanosonosensitizer-mediated
has
a
bright
future
management
This
review
classifies
current
available
provides
overview
mechanisms,
biomedical
applications,
recent
advances
perspectives
Small,
Journal Year:
2023,
Volume and Issue:
19(12)
Published: Jan. 15, 2023
Sonodynamic
therapy
(SDT)
has
considerably
revolutionized
the
healthcare
sector
as
a
viable
noninvasive
therapeutic
procedure.
It
employs
combination
of
low-intensity
ultrasound
and
chemical
entities,
known
sonosensitizer,
to
produce
cytotoxic
reactive
oxygen
species
(ROS)
for
cancer
antimicrobial
therapies.
With
nanotechnology,
several
unique
nanoplatforms
are
introduced
sonosensitizers,
including,
titanium-based
nanomaterials,
thanks
their
high
biocompatibility,
catalytic
efficiency,
customizable
physicochemical
features.
Additionally,
developing
sonosensitizers
facilitates
integration
SDT
with
other
treatment
modalities
(for
example,
chemotherapy,
chemodynamic
therapy,
photodynamic
photothermal
immunotherapy),
hence
increasing
overall
results.
This
review
summarizes
most
recent
developments
in
tissue
engineering
using
titanium
mediated
SDT.
The
synthesis
strategies
biosafety
aspects
Titanium-based
also
discussed.
Finally,
various
challenges
prospects
its
further
development
potential
clinical
translation
highlighted.
