Pharmaceutics,
Год журнала:
2024,
Номер
16(8), С. 1043 - 1043
Опубликована: Авг. 6, 2024
Chitosan
nanoparticles
(CSNPs)
are
promising
vehicles
for
targeted
and
controlled
drug
release.
Recognized
their
biodegradability,
biocompatibility,
low
toxicity,
ease
of
production,
CSNPs
represent
an
effective
approach
to
delivery.
Encapsulating
drugs
within
(NPs)
provides
numerous
benefits
compared
free
drugs,
such
as
increased
bioavailability,
minimized
toxic
side
effects,
improved
delivery,
the
incorporation
additional
features
like
release,
imaging
agents,
combination
therapies
with
multiple
drugs.
Keys
parameters
in
nanomedicines
loading
content
efficiency.
Most
current
NP
systems
struggle
loading,
presenting
a
significant
challenge
field.
This
review
summarizes
recent
research
on
developing
high
capacity,
focusing
various
synthesis
strategies.
It
examines
CSNP
using
different
materials
providing
details
methods,
loadings,
encapsulation
efficiencies,
release
profiles,
stability,
applications
Additionally,
discusses
factors
affecting
valuable
guidelines
future
CSNPs’
development.
Processes,
Год журнала:
2023,
Номер
11(9), С. 2617 - 2617
Опубликована: Сен. 2, 2023
Silver
nanoparticles,
also
known
as
AgNPs,
have
been
extensively
researched
due
to
their
one-of-a-kind
characteristics,
including
optical,
antibacterial,
and
electrical
capabilities.
In
the
era
of
antibiotics
crisis,
with
an
increase
in
antimicrobial
resistance
(AMR)
a
decrease
newly
developed
drugs,
AgNPs
are
potential
candidates
because
substantial
activity,
limited
development,
extensive
synergistic
effect
when
combined
other
drugs.
The
depends
on
delivery
system,
compound
combination,
own
properties,
such
shape
size,
which
heavily
influenced
by
synthesis
process.
Reduction
using
chemicals
or
light,
irradiation
gamma
ray,
laser,
electron
beams
microwave
biological
combination
these
techniques
notable
examples
AgNP
methods.
this
work,
updated
methods
together
strength
shortcomings
reviewed.
Further,
factors
affecting
process
discussed.
Finally,
recent
advances
challenges
considered.
Molecules,
Год журнала:
2022,
Номер
27(17), С. 5451 - 5451
Опубликована: Авг. 25, 2022
Iron
is
the
most
abundant
mineral
in
human
body
and
plays
essential
roles
sustaining
life,
such
as
transport
of
oxygen
to
systemic
organs.
The
Fenton
reaction
between
iron
hydrogen
peroxide,
generating
hydroxyl
radical,
which
highly
reactive
toxic
living
cells.
"Ferroptosis",
a
programmed
cell
death
closely
involved,
has
recently
received
much
attention.
Furthermore,
various
applications
have
been
reported
medical
nutritional
fields,
cancer
treatment
or
sterilization.
Here,
this
review
summarizes
recent
growing
interest
usefulness
its
biological
relevance
through
basic
practical
information
reports.
Nanomaterials,
Год журнала:
2024,
Номер
14(18), С. 1527 - 1527
Опубликована: Сен. 20, 2024
Recently,
silver
nanoparticles
(NPs)
have
attracted
significant
attention
for
being
highly
desirable
nanomaterials
in
scientific
studies
as
a
result
of
their
extraordinary
characteristics.
They
are
widely
known
effective
antibacterial
agents
that
capable
targeting
wide
range
pathogens.
Their
distinct
optical
characteristics,
such
localized
surface
plasmon
resonance,
enlarge
utilization,
particularly
the
fields
biosensing
and
imaging.
Also,
capacity
to
control
charge
modify
them
using
biocompatible
substances
offers
improved
durability
specific
interactions
with
biological
systems.
Due
exceptional
stability
minimal
chemical
reactivity,
NPs
suitable
diverse
array
applications.
These
produced
through
chemical,
biological,
physical
processes,
each
which
has
advantages
disadvantages.
Chemical
techniques
often
encounter
issues
complicated
purification,
reactive
substances,
excessive
energy
usage.
However,
eco-friendly
approaches
exist,
even
though
they
require
longer
processing
times.
A
key
factor
affecting
stability,
size
distribution,
purity
is
synthesis
process
selected.
This
review
focuses
on
how
essential
it
choose
appropriate
method
order
optimize
characteristics
use
NPs.
OpenNano,
Год журнала:
2022,
Номер
8, С. 100082 - 100082
Опубликована: Сен. 10, 2022
Zinc
oxide
nanoparticles
(ZnO
NPs)
have
been
the
subject
of
extensive
research
due
to
their
peculiar
physical
and
chemical
properties.
Numerous
studies
used
NPs
as
photocatalytic
antibacterial
agents
because
high
surface-to-volume
ratio,
miniature
size,
antimicrobial
activity,
semiconducting
However,
some
aforementioned
features
also
exhibit
limitations
in
ZnO
NPs.
It
seems
possible
circumvent
these
increase
utilization
by
doping
them
with
silver
selenium
elements.
Therefore,
a
thorough
review
use
or
doped
for
objectives
was
conducted
this
study.
Additionally,
emphasis
placed
on
synthesis
using
principally
sol-gel,
mechanochemical,
green
techniques.
The
results
showed
that
considerably
improved
intrinsic
qualities
ROS
production
capability,
bandgap,
stability,
etc.,
which
consequently
features.
As
result,
they
excelled
at
photo-catalytic
breakdown
organic
pollutants
treatment
bacterial
illnesses.
ACS Nano,
Год журнала:
2022,
Номер
16(10), С. 15627 - 15652
Опубликована: Сен. 19, 2022
Biological
barriers
are
essential
physiological
protective
systems
and
obstacles
to
drug
delivery.
Nanoparticles
(NPs)
can
access
the
paracellular
route
of
biological
barriers,
either
causing
adverse
health
impacts
on
humans
or
producing
therapeutic
opportunities.
This
Review
introduces
structural
functional
influences
NPs
key
components
that
govern
route,
mainly
tight
junctions,
adherens
cytoskeletons.
Furthermore,
we
evaluate
their
interaction
mechanisms
address
influencing
factors
determine
ability
open
which
provides
a
better
knowledge
how
in
safer
more
controllable
way.
Finally,
summarize
limitations
research
models
methodologies
existing
field
provide
future
direction.
demonstrates
in-depth
causes
for
reversible
opening
destruction
integrity
generated
by
NPs;
importantly,
it
contributes
insights
into
design
NP-based
medications
boost
delivery
efficiency.
Nutrition Reviews,
Год журнала:
2022,
Номер
80(12), С. 2288 - 2300
Опубликована: Апрель 14, 2022
In
the
late
2010s,
artificial
intelligence
(AI)
technologies
became
complementary
to
research
areas
of
food
science
and
nutrition.
This
review
aims
summarize
these
technological
advances
by
systematically
describing
following:
use
AI
in
other
fields
(eg,
engineering,
pharmacy,
medicine);
history
relation
nutrition;
currently
used
agricultural
industries;
some
important
applications
such
as
immunity-boosting
foods,
dietary
assessment,
gut
microbiome
profile
analysis,
toxicity
prediction
ingredients.
These
are
likely
be
great
demand
near
future.
can
provide
a
starting
point
for
brainstorming
generating
new
nutrition
that
have
yet
imagined.
