Nanomedicine,
Год журнала:
2024,
Номер
20(2), С. 225 - 241
Опубликована: Дек. 26, 2024
The
use
of
nanoparticles
(NPs)
in
treatment
diseases
have
increased
exponentially
recently,
giving
rise
to
the
science
nanomedicine.
safety
these
NPs
humans
has
also
led
nanotoxicology.
Due
a
dearth
both
readily
available
models
and
precise
bio-dispersion
characterization
techniques,
nanotoxicological
research
obviously
been
constrained.
However,
ensuing
years
were
notable
for
emergence
improved
synthesis
methods
tools.
Major
advances
made
linking
certain
physical
variables,
paralleling
improvements
size,
shape,
or
coating
factors
resulting
physiological
reactions.
Although
significant
progress
contribution
development
nanotoxicology,
however,
it
faces
numerous
difficulties
technical
constraints
distinct
from
those
conventional
toxicological
assessment
as
attempts
improve
therapeutic
effects
medicines.
Determining
thorough
standards,
standardizing
dosimetry,
assessing
kinetics
ions
dissolving
enhancing
accuracy
vitro-in
vivo
correlation
efficiency,
defining
restrictions
on
exposure
protection
are
some
most
important
pressing
concerns.
This
article
will
explore
past
advancement
potential
prospects
standard
models,
emphasizing
findings
earlier
studies
examining
current
challenges,
insight
way
forward.
Journal of Tissue Viability,
Год журнала:
2025,
Номер
34(2), С. 100858 - 100858
Опубликована: Янв. 14, 2025
Despite
extensive
clinical
studies
and
therapeutic
interventions,
addressing
significant
skin
wounds
remains
challenging,
necessitating
novel
approaches
for
effective
regeneration
therapy.
In
the
current
review,
we
analyzed
evaluated
application,
advancements,
future
directions
of
biomaterials-based
scaffolds
tissue
construct.
addition,
investigated
role
other
biological
substitutes
in
promoting
wound
healing
regeneration.
The
review
highlights
impact
biomaterial-based
on
healing.
After
presenting
physiological
process
regeneration,
emphasizes
different
biochemical
components
Subsequently,
it
delves
into
engineering.
Recent
advancements
nanotechnology
are
also
highlighted
with
a
specific
focus
utilization
nanomaterials
enhancing
healing,
facilitating
reconstruction.
Biomaterial
have
emerged
as
potential
intervention
forming
foundation
These
scaffolds,
intricate
three-dimensional
frameworks,
serve
carriers
cells,
medications,
genes,
their
delivery
body.
integration
degradable
porous
cells
offers
promising
avenue
repair.
Biomaterials
play
crucial
engineering,
providing
temporary
mechanical
support
cellular
processes
to
augment
Journal of Personalized Medicine,
Год журнала:
2024,
Номер
14(4), С. 391 - 391
Опубликована: Апрель 6, 2024
The
prevalence
of
schizophrenia,
affecting
approximately
1%
the
global
population,
underscores
urgency
for
innovative
therapeutic
strategies.
Recent
insights
into
role
neuroinflammation,
gut–brain
axis,
and
microbiota
in
schizophrenia
pathogenesis
have
paved
way
exploration
psychobiotics
as
a
novel
treatment
avenue.
These
interventions,
targeting
gut
microbiome,
offer
promising
approach
to
ameliorating
psychiatric
symptoms.
Furthermore,
advancements
artificial
intelligence
nanotechnology
are
set
revolutionize
psychobiotic
development
application,
enhance
their
production,
precision,
effectiveness.
This
interdisciplinary
heralds
new
era
management,
potentially
transforming
patient
outcomes
offering
beacon
hope
those
afflicted
by
this
complex
disorder.
Abstract
The
field
of
chronic
wound
care
has
been
rapidly
evolving.
With
a
market
size
for
wounds
in
billions
USD,
this
is
not
an
insignificant
area
to
encourage
more
sustainable
practices
and
processes.
sourcing
starting
materials
dressings
from
renewable
resources
the
first
crucial
step
ensuring
that
environmental
impact
minimized.
Next
important
choice
select
methodologies
accordance
with
principles
green
chemistry.
This
involves
utilizing
solvents
as
reaction
media
chemical
processes
preparing
dressing
materials.
In
many
cases,
like
production
hydrogels,
crosslinking
reagents
are
often
employed.
These
can
be,
general,
easily
replaced
by
enzymes
peroxidases,
tyrosinases
sortases.
Process
intensification
strategies
have
emerged
powerful
approach
ensure
economy
sustainability
at
large
scale.
Use
microwave
radiations
ultrasonication
instead
heat
accelerate
rates
helps
cases
inject
wounds.
review
attempts
highlight
ongoing
efforts
future
possibilities
development
cost-effective
methods.
Graphical
Bioengineering,
Год журнала:
2025,
Номер
12(2), С. 137 - 137
Опубликована: Янв. 31, 2025
Surgical
wound
infections
are
a
major
cause
of
postoperative
complications,
contributing
to
surgical
morbidity
and
mortality.
With
the
rise
antibiotic-resistant
pathogens,
it
is
crucial
develop
new
innovative
materials
manage
using
methods
that
facilitate
drug
delivery
agents
rely
on
other
than
antimicrobials.
Nanoparticles,
in
particular,
have
captured
researchers'
interest
recent
years
due
their
effectiveness
care.
They
can
be
classified
into
three
main
types:
inorganic
nanoparticles,
lipid-based
polymeric
nanoparticles.
Several
studies
demonstrated
these
technologies
enhancing
wound-healing
times
reducing
bacterial
burden.
However,
further
research
essential
thoroughly
evaluate
safety
toxicity
before
they
integrated
routine
practice.
Journal of Applied Biomedicine,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 10, 2025
A
substantial
threat
to
worldwide
health,
the
proliferation
of
antibiotic-resistant
bacteria
compels
researchers
seek
innovative
antibacterial
substances.
This
systematic
review
assesses
role
nanoparticles,
particularly
Calcium
oxide
and
Silicon
in
infection
control.
The
article
examines
mechanisms
by
which
these
nanoparticles
act
against
various
evaluates
their
potential
as
novel
agents
control
strategies.
literature
search
from
2015
2024
encompassing
Web
Science,
PubMed,
Wiley,
Science
Direct,
Google
Scholar,
yielded
70
publications
meeting
criteria.
comprehensive
methodology
provides
a
thorough
understanding
capabilities
limitations
agents.
aims
build
solid
foundation
for
utilization
addressing
obstacles
presented
antibiotic
resistance
combining
data
investigations.
Additionally,
it
explore
safety
environmental
implications
associated
with
use
clinical
settings,
providing
analysis
that
may
contribute
future
studies
real-world
applications
field
antimicrobial
technology.
