ChemistryOpen,
Journal Year:
2023,
Volume and Issue:
12(5)
Published: May 1, 2023
Copper
oxide
nanoparticles
(CuO-NPs)
were
functionalized
with
specific
antibodies
to
target
their
antibacterial
activity
against
Gram-positive
or
Gram-negative
bacteria.
The
CuO-NPs
covalently
cover
surface
antibodies.
differently
prepared
characterized
by
X-ray
diffraction,
transmission
electron
microscopy
and
dynamic
light
scattering.
activities
of
the
unmodified
antibody-functionalized
(CuO-NP-AbGram
Signal Transduction and Targeted Therapy,
Journal Year:
2024,
Volume and Issue:
9(1)
Published: Feb. 21, 2024
Abstract
Inflammation-associated
diseases
encompass
a
range
of
infectious
and
non-infectious
inflammatory
diseases,
which
continuously
pose
one
the
most
serious
threats
to
human
health,
attributed
factors
such
as
emergence
new
pathogens,
increasing
drug
resistance,
changes
in
living
environments
lifestyles,
aging
population.
Despite
rapid
advancements
mechanistic
research
development
for
these
current
treatments
often
have
limited
efficacy
notable
side
effects,
necessitating
more
effective
targeted
anti-inflammatory
therapies.
In
recent
years,
nanotechnology
has
provided
crucial
technological
support
prevention,
treatment,
detection
inflammation-associated
diseases.
Various
types
nanoparticles
(NPs)
play
significant
roles,
serving
vaccine
vehicles
enhance
immunogenicity
carriers
improve
targeting
bioavailability.
NPs
can
also
directly
combat
pathogens
inflammation.
addition,
facilitated
biosensors
pathogen
imaging
techniques
This
review
categorizes
characterizes
different
NPs,
summarizes
their
applications
It
discusses
challenges
associated
with
clinical
translation
this
field
explores
latest
developments
prospects.
conclusion,
opens
up
possibilities
comprehensive
management
Molecules,
Journal Year:
2021,
Volume and Issue:
26(10), P. 3008 - 3008
Published: May 18, 2021
Hydrophilic
cotton
textiles,
used
in
hospitals
and
sportswear,
are
prone
to
the
growth
of
microorganisms
(bacteria,
fungi)
resulting
hygiene
health
risks.
Thus,
healthcare
concerns
have
motivated
interest
for
development
multifunctional
antimicrobial
fabrics.
Moreover,
textiles
also
medical
applications
such
as
wound
dressings.
Their
functionalization
with
anti-inflammatory
agents
is
desirable
order
accelerate
cicatrisation
treatment
chronic
wounds.
This
review
summarizes
recent
advances
(from
January
2016
2021)
on
modification
coating
fabrics
nanostructures
(mainly
metal
oxide
nanoparticles,
functionalized
silica
nanoparticles)
provide
them
(antibacterial
antifungal)
properties.
Nanomaterials,
Journal Year:
2025,
Volume and Issue:
15(3), P. 209 - 209
Published: Jan. 28, 2025
Dental
diseases
represent
a
significant
global
health
concern,
with
traditional
treatment
methods
often
proving
costly
and
lacking
in
long-term
efficacy.
Emerging
research
highlights
nanoparticles
as
promising,
cost-effective
therapeutic
alternative,
owing
to
their
unique
properties.
This
review
aims
provide
comprehensive
overview
of
the
application
antimicrobial
antioxidant
management
dental
diseases.
Silver
gold
have
shown
great
potential
for
inhibiting
biofilm
formation
thus
preventing
caries,
gingivitis,
periodontitis.
Various
products
can
integrate
copper
nanoparticles,
known
properties,
combat
oral
infections.
Similarly,
zinc
oxide
enhance
performance
materials,
including
adhesives
cements.
Titanium
dioxide
cerium
possess
photocatalytic
rendering
them
advantageous
materials
hygiene
products.
Chitosan
are
effective
pathogens
reducing
inflammation
periodontal
tissues.
Additionally,
curcumin
antimicrobial,
anti-inflammatory,
overall
care
Incorporating
these
diverse
into
holds
significantly
reduce
risk
infection,
control
formation,
improve
health.
underscores
importance
continued
development
this
promising
field
realize
full
care.
