Nanoscience & Nanotechnology-Asia,
Journal Year:
2024,
Volume and Issue:
14(4)
Published: Aug. 1, 2024
:
The
utilization
of
chemotherapy
remains
an
established
therapeutic
strategy
in
the
ongoing
fight
against
cancer.
Nevertheless,
it
has
been
impeded
by
occurrence
several
fatal
adverse
reactions
caused
non-specific
toxicity
often
associated
with
chemotherapy.
Nanotechnology
is
emerging
field
research
that
experiencing
rapid
growth
and
widely
recognized
as
a
highly
promising
approach
for
advanced
cancer
therapy.
Biosynthesized
green
nanomaterials
are
tools
treatment
diagnosis.
Metal
nanoparticles
have
developed
use
applications,
including
magnetically
sensitive
medication
delivery,
photothermal
treatment,
photoimaging.
Nanomaterials
containing
metals,
such
iron,
cobalt,
silver,
which
generated
from
various
bio-sources,
described.
boundless
capabilities
already
had
profound
impact
on
human
existence.
potential
effects
health
consistently
instilled
apprehension.
A
thorough
investigation
intricate
nature
facilitated
emergence
nanotoxicology,
examines
fundamental
origins
these
problems.
introduction
chemistry
principles
aimed
to
provide
safer
techniques
production
management
nanomaterials,
resulting
nanotechnology.
This
review
article
highlights
uses
nanotechnology
detection
tumors,
challenges
they
face
reaching
clinical
trials.
Journal of Materials Chemistry B,
Journal Year:
2024,
Volume and Issue:
12(6), P. 1404 - 1428
Published: Jan. 1, 2024
Magnetic
2D
nanocomposites
exhibit
advanced
antitumor
applications,
including
magnetically
targeted
hyperthermia,
drug
delivery,
phototherapy,
nanozyme
therapy,
immunotherapy
and
multimodal
imaging.
Nanotechnology,
Journal Year:
2024,
Volume and Issue:
36(4), P. 042003 - 042003
Published: Oct. 12, 2024
Abstract
Magnetic
nanoparticles
(MNPs)
represent
a
class
of
small
particles
typically
with
diameters
ranging
from
1
to
100
nanometers.
These
are
composed
magnetic
materials
such
as
iron,
cobalt,
nickel,
or
their
alloys.
The
nanoscale
size
MNPs
gives
them
unique
physicochemical
(physical
and
chemical)
properties
not
found
in
bulk
counterparts.
Their
versatile
nature
behavior
make
valuable
wide
range
scientific,
medical,
technological
fields.
Over
the
past
decade,
there
has
been
significant
surge
MNP-based
applications
spanning
biomedical
uses,
environmental
remediation,
data
storage,
energy
catalysis.
Given
size,
can
be
manipulated
guided
using
external
This
characteristic
is
harnessed
applications,
where
these
directed
specific
targets
body
for
imaging,
drug
delivery,
hyperthermia
treatment.
Herein,
this
roadmap
offers
an
overview
current
status,
challenges,
advancements
various
facets
MNPs.
It
covers
properties,
synthesis,
functionalization,
characterization,
sample
enrichment,
bioassays,
hyperthermia,
neuromodulation,
tissue
engineering,
drug/gene
delivery.
However,
increasingly
explored
vivo
concerns
have
emerged
regarding
cytotoxicity,
cellular
uptake,
degradation,
prompting
attention
both
researchers
clinicians.
aims
provide
comprehensive
perspective
on
evolving
landscape
MNP
research.
Research Square (Research Square),
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 26, 2025
Abstract
Iron
oxide
nanoparticles
have
gained
increasing
attention
in
various
biomedical
and
industrial
sectors
due
to
their
physicochemical
magnetic
properties.
In
this
study,
superparamagnetic
Fe3O4
with
small
particle
size
were
synthesized
by
co-precipitation
method,
coated
dextran,
modified
epoxy
functional
groups
1,4-butanediol
diglycidyl
ether.
The
prepared
composites
was
characterized
transmission
electron
microscopy,
thermogravimetry,
fourier
transform
infrared
spectroscopy,
X-ray
diffraction,and
vibrating
sample
magnetometry.
rat
serum
albumin
protein(rSA)
then
coupled
the
epoxide
group
on
nanoparticle
ability
of
conjugate
Protein
tested
BCA
Assay
Kit.
At
same
time,
we
used
CD4
antibody
detect
sorting
T
cells
flow
cytometry.
This
work
shows
that
our
epoxy-modified
iron
excellent
potential
applications
biology.
Frontiers in Human Neuroscience,
Journal Year:
2025,
Volume and Issue:
19
Published: April 28, 2025
Neuromodulation,
the
targeted
regulation
of
nerve
activity,
has
emerged
as
a
promising
approach
for
treating
various
neurological
and
psychiatric
disorders.
While
deep
brain
stimulation
shown
efficacy,
its
invasive
nature
poses
substantial
risks,
including
surgical
complications
high
costs.
In
contrast,
non-invasive
neuromodulation
techniques,
particularly
those
utilizing
magnetic
fields
(MFs),
have
gained
increasing
attention
safer,
more
accessible
alternatives.
Magnetothermal
an
innovative
method
that
enables
precise
modulation
neuronal
ion
channels
through
localized
heating
induced
by
interaction
MF
with
biological
tissues.
This
review
discusses
principles
MF-based
highlights
critical
role
in
synaptic
transmission,
therapeutic
potential
these
advanced
techniques.
Additionally,
it
key
challenges
such
spatial
targeting
precision,
safety
considerations,
long-term
effects
exposure
on
function.
The
findings
presente
promise
non-invasive,
highly
strategy
conditions
epilepsy,
movement
disorders,
neurodegenerative
diseases,
applications
chronic
pain
management
future
clinical
interventions.
Molecules,
Journal Year:
2024,
Volume and Issue:
29(8), P. 1848 - 1848
Published: April 18, 2024
In
recent
years,
the
frequency
of
strokes
has
been
on
rise
year
by
and
become
second
leading
cause
death
around
world,
which
is
characterized
a
high
mortality
rate,
recurrence
disability
rate.
Ischemic
account
for
large
percentage
strokes.
A
reperfusion
injury
in
ischemic
complex
cascade
oxidative
stress,
neuroinflammation,
immune
infiltration,
mitochondrial
damage.
Conventional
treatments
are
ineffective,
presence
blood–brain
barrier
(BBB)
leads
to
inefficient
drug
delivery
utilization,
so
researchers
turning
their
attention
nano-drug
systems.
Functionalized
systems
have
widely
studied
applied
study
cerebral
diseases
due
favorable
biocompatibility,
efficiency,
strong
specificity,
specific
targeting
ability.
this
paper,
we
briefly
describe
pathological
process
injuries
focus
therapeutic
research
progress
strokes,
aiming
provide
certain
references
understand
(NDDSs).
