Theranostics,
Journal Year:
2023,
Volume and Issue:
13(6), P. 1974 - 2014
Published: Jan. 1, 2023
Chemodynamic
therapy
(CDT)
is
well-known
for
using
the
tumor
microenvironment
to
activate
Fenton
reaction
or
Fenton-like
generate
strong
oxidative
hydroxyl
radicals
tumor-specific
treatment.
It
highly
selective
and
safe,
without
depth
limitation
of
tissue
penetration,
shows
its
potential
as
a
new
green
therapeutic
method
with
great
clinical
application.
However,
catalytic
efficiency
reagents
involved
in
severely
affected
by
inherent
microenvironmental
limitations
tumors
strict
reaction-dependent
conditions.
With
increasing
application
nanotechnology
medical
field,
combined
therapies
based
on
different
types
functional
nanomaterials
have
opened
up
avenues
development
next-generation
CDT-enhanced
system.
This
review
will
comprehensively
exemplify
representative
results
CDT
other
antitumor
such
chemotherapy,
phototherapy,
sonodynamic
therapy,
radiation
magnetic
hyperthermia
immunotherapy,
starvation
gas
gene
oncosis
combination
thereof
improving
from
hundreds
latest
literature,
introduce
strategies
ingenious
design
nanomedicines
regulations
enhance
further
summarize
challenges
future
perspective
CDT-based
multimodal
anticancer
therapy.
JCIS Open,
Journal Year:
2021,
Volume and Issue:
4, P. 100027 - 100027
Published: Oct. 20, 2021
There
has
been
an
increasing
number
of
studies
in
magnetic
nanoparticles
with
auspicious
applications
medicine.
Among
the
oxides
nanoparticles,
iron
oxide
emerged
as
indispensable
tool
nanotechnology,
particularly
bio-nanotechnology.
This
is
attributed
to
its
exceptional
properties
such
size,
shape,
magnetism,
and
biocompatibility.
In
this
review,
were
exploited
different
model
organisms
ranging
from
prokaryotes
eukaryotes,
elucidating
their
cellular
functions
relative
antibacterial
activity,
drug
delivery,
toxicity.
Theranostics,
Journal Year:
2023,
Volume and Issue:
13(6), P. 1974 - 2014
Published: Jan. 1, 2023
Chemodynamic
therapy
(CDT)
is
well-known
for
using
the
tumor
microenvironment
to
activate
Fenton
reaction
or
Fenton-like
generate
strong
oxidative
hydroxyl
radicals
tumor-specific
treatment.
It
highly
selective
and
safe,
without
depth
limitation
of
tissue
penetration,
shows
its
potential
as
a
new
green
therapeutic
method
with
great
clinical
application.
However,
catalytic
efficiency
reagents
involved
in
severely
affected
by
inherent
microenvironmental
limitations
tumors
strict
reaction-dependent
conditions.
With
increasing
application
nanotechnology
medical
field,
combined
therapies
based
on
different
types
functional
nanomaterials
have
opened
up
avenues
development
next-generation
CDT-enhanced
system.
This
review
will
comprehensively
exemplify
representative
results
CDT
other
antitumor
such
chemotherapy,
phototherapy,
sonodynamic
therapy,
radiation
magnetic
hyperthermia
immunotherapy,
starvation
gas
gene
oncosis
combination
thereof
improving
from
hundreds
latest
literature,
introduce
strategies
ingenious
design
nanomedicines
regulations
enhance
further
summarize
challenges
future
perspective
CDT-based
multimodal
anticancer
therapy.
