Photodiagnosis and Photodynamic Therapy,
Journal Year:
2024,
Volume and Issue:
50, P. 104354 - 104354
Published: Oct. 9, 2024
This
paper
presents
a
case
report
of
patient
with
intestinal
obstruction
caused
by
metastasis
bladder
cancer
treated
sonodynamic
therapy.
Sonodynamic
therapy
is
novel
anti-tumor
that
safe,
effi-
cacious,
and
has
minimal
side
effects.
After
treatment,
the
patient's
was
effectively
relieved.
Nanoscale,
Journal Year:
2024,
Volume and Issue:
16(35), P. 16329 - 16343
Published: Jan. 1, 2024
Ultrasonic
nanotechnology
is
a
groundbreaking,
non-invasive
approach
for
treating
Staphylococcus
aureus
skin
infections,
effectively
addressing
antibiotic
resistance
and
biofilm
formation.
BME Frontiers,
Journal Year:
2024,
Volume and Issue:
5
Published: Jan. 1, 2024
Deep-tissue
solid
cancer
treatment
has
a
poor
prognosis,
resulting
in
very
low
5-year
patient
survival
rate.
The
primary
challenges
facing
tumor
therapies
are
accessibility,
incomplete
surgical
removal
of
tissue,
the
resistance
hypoxic
and
heterogeneous
microenvironment
to
chemotherapy
radiation,
suffering
caused
by
off-target
toxicities.
Here,
sonodynamic
therapy
(SDT)
is
an
evolving
therapeutic
approach
that
uses
low-intensity
ultrasound
target
deep-tissue
tumors.
ability
deliver
energy
safely
precisely
into
small
(>10
cm)
volumes
makes
SDT
more
effective
than
conventional
photodynamic
therapy.
While
currently
phase
1/2
clinical
trials
for
glioblastoma
multiforme,
its
use
other
treatments,
such
as
breast,
pancreatic,
liver,
prostate
cancer,
still
preclinical
stage,
with
further
investigation
required
improve
efficacy.
This
review,
therefore,
focuses
on
recent
advances
treatments.
We
describe
interaction
between
sonosensitizer
molecules
associated
transfer
mechanism
malignant
cells,
which
plays
central
role
SDT-mediated
cell
death.
Different
sensitizers
used
various
treatments
listed,
critical
parameters
reviewed.
also
discuss
approaches
efficacies
these
sonosensitizers,
3-dimensional
spheroid
vitro
investigations,
ultrasound-controlled
CAR-T
SDT-based
multimodal
therapy,
machine
learning
optimization,
could
facilitate
translation
SDT.
International Journal of Nanomedicine,
Journal Year:
2024,
Volume and Issue:
Volume 19, P. 12769 - 12791
Published: Nov. 1, 2024
Sonodynamic
therapy
(SDT)
utilizes
specific
sound
waves
to
activate
sonosensitizers,
generating
localized
biological
effects
eliminate
tumor
cells.
With
advancements
in
nanomedicine,
the
application
of
nano-acoustic
sensitizers
has
significantly
advanced
development
SDT.
BaTiO3
(BTO),
an
inorganic
sensitizer,
possesses
light
refraction
characteristics
and
a
high
dielectric
constant,
can
generate
electric
field
under
ultrasound
(US)
stimulation.
continuous
progress
multidisciplinary
fields
US
research,
scientists
have
developed
various
types
barium
titanate
nanoparticles
(BTNPs)
further
advance
SDT
research
applications
therapy.
In
this
review,
we
present
recently
proposed
representative
BTNPs,
including
their
pathways
action,
such
as
induction
cell
senescence,
ferroptosis,
glutathione
depletion
reshape
microenvironment,
well
surface
modifications.
Research
indicates
that
mechanisms
action
ultrasound-driven
BTNPs
are
multifaceted.
These
mechanisms,
whether
utilized
individually
or
synergistically,
offer
potent
targeted
strategy
for
cancer
treatment.
Furthermore,
discuss
types.
Finally,
summarize
current
challenges
future
prospects
clinical
translation
BTNPs.
