Advanced Healthcare Materials,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 22, 2024
Abstract
Glioblastoma
continues
to
pose
a
major
global
health
challenge
due
its
incurable
nature.
The
need
for
new
strategies
combat
this
devastating
tumor
is
therefore
paramount.
Nanotechnology
offers
unique
opportunities
develop
innovative
and
more
effective
therapeutic
approaches.
However,
most
nanosystems
developed
treat
glioblastomas,
especially
those
based
on
metallic
nanoparticles
(NPs),
have
proven
unsuccessful
their
inability
efficiently
target
these
tumors,
which
are
particularly
inaccessible
the
restrictions
imposed
by
blood‐brain
barrier
(BBTB).
Here,
an
strategy
presented
NPs
glioblastomas
through
glucose
transporters
(GLUT)
overexpressed
endothelial
cells
of
glioblastoma
microvasculature,
GLUT1.
Specifically,
Iron
Oxide
Nanoparticles
(IONPs)
functionalized
with
glucuronic
acid
promote
GLUT‐mediated
transcytosis
drastically
boosted
inducing
mild
hypoglycemia.
This
metabolically‐driven
active
targeting
has
yielded
unprecedented
efficacy
in
glioblastomas.
Moreover,
IONPs,
designed
act
as
magnetic
hyperthermia
(MH)
mediators,
used
conduct
proof‐of‐concept
preclinical
study
MRI‐tracked
MH
therapy
following
intravenous
administration,
resulting
significant
growth
delay.
These
findings
demonstrate
unparalleled
efficiency
lay
ground
developing
alternative
glioblastoma.
Chemical Society Reviews,
Год журнала:
2021,
Номер
50(20), С. 11614 - 11667
Опубликована: Янв. 1, 2021
Magnetic
hyperthermia
(MHT)
is
a
therapeutic
modality
for
the
treatment
of
solid
tumors
that
has
now
accumulated
more
than
30
years
experience.
In
ongoing
MHT
clinical
trials
brain
and
prostate
tumors,
iron
oxide
nanoparticles
are
employed
as
intra-tumoral
agents
under
patient-safe
100
kHz
alternating
magnetic
field
(AMF)
applicator.
Although
currently
approved
by
FDA
imaging
purposes
anemia,
(MNPs)
designed
efficient
must
respond
to
specific
physical-chemical
properties
in
terms
magneto-energy
conversion,
heat
dose
production,
surface
chemistry
aggregation
state.
Accordingly,
past
few
decades,
these
requirements
have
boosted
development
new
generation
MNPs
specifically
aimed
MHT.
this
review,
we
present
an
overview
on
their
assemblies
produced
via
different
synthetic
routes,
focusing
which
MNP
features
allowed
unprecedented
heating
efficiency
levels
be
achieved
highlighting
nanoplatforms
prevent
loss
intracellular
environment.
Moreover,
review
advances
MNP-based
embrace
concept
multimodal
therapy,
aims
combine
with
chemotherapy,
radiotherapy,
immunotherapy,
photodynamic
or
phototherapy.
Next,
better
control
temperature
at
tumor,
focus
studies
optimized
maintain
gold-standard
performance
also
tackling
aim
quantitatively
assess
amount
tumor
site
regulate
conditions.
To
conclude,
future
perspectives
guidance
how
advance
therapy
will
provided.
Materials,
Год журнала:
2022,
Номер
15(7), С. 2601 - 2601
Опубликована: Апрель 1, 2022
Magnetite
nanoparticles
with
different
surface
coverages
are
of
great
interest
for
many
applications
due
to
their
intrinsic
magnetic
properties,
nanometer
size,
and
definite
morphology.
widely
used
medical-biological
while
usage
in
optics
is
not
as
widespread.
In
recent
years,
nanomagnetite
suspensions,
so-called
ferrofluids,
applied
magneto-optical
properties.
This
review
gives
an
overview
synthesis
its
addition,
the
preparation
application
nanofluids
optics,
nanophotonics,
imaging
described.
Chemistry,
Год журнала:
2022,
Номер
4(3), С. 872 - 930
Опубликована: Авг. 27, 2022
Magnetic
nanoparticles
(MNPs)
have
evolved
tremendously
during
recent
years,
in
part
due
to
the
rapid
expansion
of
nanotechnology
and
their
active
magnetic
core
with
a
high
surface-to-volume
ratio,
while
surface
functionalization
opened
door
plethora
drug,
gene
bioactive
molecule
immobilization.
Taming
reactivity
was
achieved
by
various
techniques,
producing
MNPs
tailored
for
diagnosis
treatment
cardiovascular
or
neurological
disease,
tumors
cancer.
Superparamagnetic
iron
oxide
(SPIONs)
are
established
at
drug-delivery
systems
could
act
as
efficient
agents
MFH
(magnetic
fluid
hyperthermia).
Depending
on
intrinsic
morphological
features,
now
cover
broad
scope
which
current
review
aims
overview.
Considering
exponential
field,
will
be
limited
roughly
past
three
years.
International Journal of Molecular Sciences,
Год журнала:
2022,
Номер
23(3), С. 1339 - 1339
Опубликована: Янв. 25, 2022
Humans
are
exposed
to
a
complex
mix
of
man-made
electric
and
magnetic
fields
(MFs)
at
many
different
frequencies,
home
work.
Epidemiological
studies
indicate
that
there
is
positive
relationship
between
residential/domestic
occupational
exposure
extremely
low
frequency
electromagnetic
some
types
cancer,
although
other
no
relationship.
In
this
review,
after
an
introduction
on
the
MF
definition
description
natural/anthropogenic
sources,
epidemiology
MFs
cancer
reviewed,
with
reference
leukemia,
brain,
breast
cancer.
The
in
vivo
vitro
effects
reviewed
considering
both
human
animal
cells,
particular
involvement
reactive
oxygen
species
(ROS).
application
diagnostic
therapy
(theranostic)
also
by
describing
use
resonance
imaging
(MRI)
applications
for
detection
several
cancers.
Finally,
nanoparticles
described
terms
treatment
nanomedical
precise
delivery
anticancer
drugs,
nanosurgery
magnetomechanic
methods,
selective
killing
cells
hyperthermia.
supplementary
tables
provide
quantitative
data
methodologies
epidemiological
cell
biology
studies.
Although
scientists
do
not
generally
agree
cause-effect
might
be
direct
cause
but
may
contribute
produce
ROS
generate
oxidative
stress,
which
could
trigger
or
enhance
expression
oncogenes.
Advanced Healthcare Materials,
Год журнала:
2024,
Номер
13(22)
Опубликована: Апрель 29, 2024
Catalytic
nanoparticles
(CNPs)
as
heterogeneous
catalyst
reveals
superior
activity
due
to
their
physio-chemical
features,
such
high
surface-to-volume
ratio
and
unique
optical,
electric,
magnetic
properties.
The
CNPs,
based
on
nature,
can
either
increase
the
reactive
oxygen
species
(ROS)
level
for
tumor
antibacterial
therapy
or
eliminate
ROS
cytoprotection,
anti-inflammation,
anti-aging.
In
addition,
catalytic
of
nanozymes
specifically
trigger
a
specific
reaction
accompanied
by
optical
feature
change,
presenting
feasibility
biosensor
bioimaging
applications.
Undoubtedly,
CNPs
play
pivotal
role
in
pushing
evolution
technologies
medical
clinical
fields,
advanced
strategies
nanomaterials
rely
input
chemical
experts
develop.
Herein,
systematic
comprehensive
review
challenges
recent
development
biomedical
applications
is
presented
from
viewpoint
nanomaterial
with
additional
functions.
Furthermore,
biosafety
issue
applying
biodegradable
non-biodegradable
future
perspectives
are
critically
discussed
guide
promising
direction
developing
span-new
more
intelligent
overcoming
current
limitations.
Journal of Controlled Release,
Год журнала:
2024,
Номер
372, С. 751 - 777
Опубликована: Июль 4, 2024
Despite
significant
advances,
cancer
remains
a
leading
global
cause
of
death.
Current
therapies
often
fail
due
to
incomplete
tumor
removal
and
nonspecific
targeting,
spurring
interest
in
alternative
treatments.
Hyperthermia,
which
uses
elevated
temperatures
kill
cells
or
boost
their
sensitivity
radio/chemotherapy,
has
emerged
as
promising
alternative.
Recent
advancements
employ
nanoparticles
(NPs)
heat
mediators
for
selective
cell
destruction,
minimizing
damage
healthy
tissues.
This
approach,
known
NP
hyperthermia,
falls
into
two
categories:
photothermal
(PTT)
magnetothermal
(MTT).
PTT
utilizes
NPs
that
convert
light
heat,
while
MTT
magnetic
activated
by
alternating
fields
(AMF),
both
achieving
localized
damage.
These
methods
offer
advantages
like
precise
minimal
invasiveness,
reduced
systemic
toxicity.
However,
the
efficacy
hyperthermia
depends
on
many
factors,
particular,
properties,
microenvironment
(TME),
TME-NP
interactions.
Optimizing
this
treatment
requires
accurate
monitoring
strategies,
such
nanothermometry
biologically
relevant
screening
models
can
better
mimic
physiological
features
human
body.
review
explores
state-of-the-art
NP-mediated
discussing
available
nanomaterials,
strengths
weaknesses,
characterization
methods,
future
directions.
Our
particular
focus
lies
preclinical
techniques,
providing
an
updated
perspective
relevance
journey
towards
clinical
trials.
