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.
Pharmaceutics,
Journal Year:
2023,
Volume and Issue:
15(3), P. 774 - 774
Published: Feb. 26, 2023
Nanomedicine
is
a
branch
of
medicine
using
nanotechnology
to
prevent
and
treat
diseases.
Nanotechnology
represents
one
the
most
effective
approaches
in
elevating
drug‘s
treatment
efficacy
reducing
toxicity
by
improving
drug
solubility,
altering
biodistribution,
controlling
release.
The
development
materials
has
brought
profound
revolution
medicine,
significantly
affecting
various
major
diseases
such
as
cancer,
injection,
cardiovascular
experienced
explosive
growth
past
few
years.
Although
clinical
transition
nanomedicine
not
very
satisfactory,
traditional
drugs
still
occupy
dominant
position
formulation
development,
but
increasingly
active
have
adopted
nanoscale
forms
limit
side
effects
improve
efficacy.
review
summarized
approved
nanomedicine,
its
indications,
properties
commonly
used
nanocarriers
nanotechnology.
Journal of Nanobiotechnology,
Journal Year:
2024,
Volume and Issue:
22(1)
Published: Jan. 8, 2024
Abstract
The
iron
oxide
nanoparticles
(IONPs),
possessing
both
magnetic
behavior
and
semiconductor
property,
have
been
extensively
used
in
multifunctional
biomedical
fields
due
to
their
biocompatible,
biodegradable
low
toxicity,
such
as
anticancer,
antibacterial,
cell
labelling
activities.
Nevertheless,
there
are
few
IONPs
clinical
use
at
present.
Some
approved
for
withdrawn
insufficient
understanding
of
its
applications.
Therefore,
a
systematic
summary
IONPs’
preparation
applications
is
crucial
the
next
step
entering
practice
from
experimental
stage.
This
review
summarized
existing
research
past
decade
on
biological
interaction
with
animal/cells
models,
human.
aims
provide
cutting-edge
knowledge
involved
effects
vivo
vitro,
improve
smarter
design
application
clinic
trials.
Graphical
Molecules,
Journal Year:
2022,
Volume and Issue:
27(22), P. 7931 - 7931
Published: Nov. 16, 2022
Iron
oxide
nanoparticle
(ION)-based
ferro-nanofluids
(FNs)
have
been
used
for
different
technological
applications
owing
to
their
excellent
magneto-rheological
properties.
A
comprehensive
overview
of
the
current
advancement
FNs
based
on
IONs
various
engineering
is
unquestionably
necessary.
Hence,
in
this
review
article,
important
advanced
ION-based
concerning
fields
are
critically
summarized.
The
chemical
mainly
focused
mass
transfer
processes.
Similarly,
electrical
and
electronics
magnetic
field
sensors,
FN-based
temperature
sensors
tilt
microelectromechanical
systems
(MEMS)
on-chip
components,
actuators,
cooling
electronic
devices
photovoltaic
thermal
systems.
On
other
hand,
environmental
encompass
water
air
purification.
Moreover,
mechanical
or
include
dampers
sealings.
This
article
provides
up-to-date
information
related
advancements
emerging
trends
FN
research
fields,
as
well
discusses
challenges
future
perspectives.
Ecotoxicology and Environmental Safety,
Journal Year:
2023,
Volume and Issue:
259, P. 115018 - 115018
Published: May 20, 2023
The
increasing
demand
for
plastic
in
our
daily
lives
has
led
to
global
pollution.
improper
disposal
of
resulted
a
massive
amount
atmospheric
microplastics
(MPs),
which
further
the
production
nanoplastics
(NPs).
Because
its
intimate
relationship
with
environment
and
human
health,
microplastic
nanoplastic
contamination
is
becoming
problem.
are
microscopic
light,
they
may
penetrate
deep
into
lungs.
Despite
several
studies
demonstrating
abundance
air,
potential
risks
remain
unknown.
small
size,
characterization
presented
significant
challenges.
This
paper
describes
sampling
procedures
nanoplastics.
study
also
examines
numerous
harmful
effects
particles
on
health
other
species.
There
void
research
toxicity
airborne
upon
inhalation,
toxicological
future.
Further
needed
determine
influence
pulmonary
diseases.
ACS Applied Bio Materials,
Journal Year:
2023,
Volume and Issue:
6(7), P. 2614 - 2621
Published: June 27, 2023
Neurological
disorders
remain
a
significant
health
and
economic
burden
worldwide.
Addressing
the
challenges
imposed
by
existing
drugs,
associated
side-
effects,
immune
responses
in
neurodegenerative
diseases
is
essential
for
developing
better
therapies.
The
activation
diseased
state
has
complex
treatment
protocols
results
hurdles
clinical
translation.
There
an
immense
need
development
of
multifunctional
nanotherapeutics
with
various
properties
to
address
different
limitations
interactions
exhibited
therapeutics.
Nanotechnology
proven
its
potential
improve
therapeutic
delivery
enhance
efficacy.
Promising
advancements
have
been
made
nanotherapies
that
can
be
combined
CRISPR/Cas9
or
siRNA
targeted
approach
unique
Engineering
natural
exosomes
derived
from
mesenchymal
stem
cells
(MSCs),
dendritic
(DCs),
macrophages
both
deliver
therapeutics
modulate
tumors
disease
(ND)
allow
personalized
approaches.
In
present
review,
we
summarize
overview
recent
advances
addressing
neuroimmune
ND
therapies
provide
insights
into
upcoming
nanotechnology-based
nanocarriers.
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2024,
Volume and Issue:
12
Published: April 25, 2024
The
significance
of
point-of-care
testing
(POCT)
in
early
clinical
diagnosis
and
personalized
patient
care
is
increasingly
recognized
as
a
crucial
tool
reducing
disease
outbreaks
improving
survival
rates.
Within
the
realm
POCT,
biosensors
utilizing
magnetic
nanoparticles
(MNPs)
have
emerged
subject
substantial
interest.
This
review
aims
to
provide
comprehensive
evaluation
current
landscape
emphasizing
its
growing
within
practice.
Subsequently,
status
combination
MNPs
Biological
detection
has
been
presented.
Furthermore,
it
delves
into
specific
domain
MNP-based
biosensors,
assessing
their
potential
impact
on
POCT.
By
combining
existing
research
spotlighting
pivotal
discoveries,
this
enhances
our
comprehension
advancements
promising
prospects
offered
by
context
It
seeks
facilitate
informed
decision-making
among
healthcare
professionals
researchers
while
also
promoting
further
exploration
field
study.
The
applicability
of
nanomaterials
has
evolved
in
biomedical
domains
thanks
to
advances
biocompatibility
strategies
and
the
mitigation
cytotoxic
effects,
allowing
diagnostics,
imaging,
therapeutic
approaches.
application
nanoparticles
(NP),
particularly
metal
(mNPs),
such
as
gold
(Au)
silver
(Ag),
includes
inherent
challenges
related
material
characteristics,
surface
modification,
bioconjugation
techniques.
By
tailoring
properties
through
appropriate
coating
with
biocompatible
molecules
or
functionalization
active
biomolecules,
researchers
can
reach
a
harmonious
interaction
biological
systems
samples
(mostly
fluids
tissues).
Thus,
this
review
highlights
mechanisms
associated
obtention
mNP
presents
comprehensive
overview
methods
that
facilitate
safe
efficient
production.
Therefore,
we
consider
be
valuable
resource
for
all
navigating
dynamic
field.
Biomedical Materials,
Journal Year:
2024,
Volume and Issue:
19(5), P. 052008 - 052008
Published: Aug. 22, 2024
Abstract
Soft-tissue
injuries
affecting
muscles,
nerves,
vasculature,
tendons,
and
ligaments
often
diminish
the
quality
of
life
due
to
pain,
loss
function,
financial
burdens.
Both
natural
healing
surgical
interventions
can
result
in
scarring,
which
potentially
may
impede
functional
recovery
lead
persistent
pain.
Scar
tissue,
characterized
by
a
highly
disorganized
fibrotic
extracellular
matrix,
serve
as
physical
barrier
regeneration
drug
delivery.
While
approaches
such
drugs,
biomaterials,
cells,
external
stimulation,
other
forces
show
promise
mitigating
scarring
promoting
regenerative
healing,
their
implementation
remains
limited
challenging.
Ultrasound,
laser,
electrical,
magnetic
forms
stimulation
have
been
utilized
promote
soft
tissue
well
neural
regeneration.
After
tissues
experience
increased
proliferation
Schwann
secretion
neurotropic
factors,
production
myelin,
growth
all
aimed
at
supporting
axon
innervation.
Yet,
outcomes
vary
depending
on
pathophysiology
damaged
nerve,
timing
following
injury,
specific
parameters
employed.
Increased
treatment
intensity
duration
noted
hinder
process
inducing
damage.
These
modalities,
either
alone
or
combination
with
nerve
guidance
conduits
scaffolds,
demonstrated
healing.
However,
literature
currently
lacks
detailed
understanding
used
for
applications.
In
this
article,
we
aim
address
gap
summarizing
existing
reports
providing
an
overview
alongside
associated
outcomes.
Frontiers in Bioengineering and Biotechnology,
Journal Year:
2024,
Volume and Issue:
12
Published: Aug. 8, 2024
Introduction
Parkinson’s
disease
(PD)
presents
a
significant
challenge
in
medical
science,
as
current
treatments
are
limited
to
symptom
management
and
often
carry
side
effects.
Our
study
introduces
an
innovative
approach
evaluate
the
effects
of
gdnf
overexpression
mediated
by
CRISPRa
vitro
model
disease.
The
expression
can
have
neuroprotective
effects,
being
related
modulation
neuroinflammation
pathways
associated
with
cell
survival,
differentiation,
growth.
Methods
We
developed
targeted
delivery
system
using
magnetite
nanostructured
vehicle
for
efficient
transport
genetic
material.
This
has
resulted
substantial
increase,
up
200-fold)
In
mixed
primary
culture
astrocytes,
neurons,
microglia.
Results
Discussion
exhibits
endosomal
escape
more
than
56%,
crucial
effective
activation
material
within
cells.
increased
correlates
notable
reduction
MAO-B
complex
activity,
reaching
basal
values
14.8
μU/μg
protein,
reactive
oxygen
species.
Additionally,
there
is
34.6%
increase
viability
treated
neurotoxin
MPTP.
shows
that
increasing
remediate
some
cellular
symptoms
novel
system.
