Cellular Microbiology,
Journal Year:
2024,
Volume and Issue:
2024(1)
Published: Jan. 1, 2024
Pseudomonas
aeruginosa
,
an
antibiotic‐resistant
opportunistic
pathogen,
poses
significant
challenges
in
treating
infections,
particularly
immunocompromised
individuals.
This
review
explores
current
and
future
innovative
approaches
to
suppress
its
growth
virulence.
We
delve
into
the
bacterium’s
virulence
factors,
discussing
existing
strategies
like
antibiotics,
bacteriophages,
probiotics,
small‐molecule
inhibitors.
Additionally,
novel
approaches,
including
RNA
interference,
CRISPR‐Cas
systems,
nanotechnology,
show
promise
preclinical
studies.
Despite
advancements,
persist,
prompting
need
for
a
multifaceted
approach
targeting
various
aspects
of
P.
pathogenesis
effective
infection
management.
provides
comprehensive
perspective
on
status
directions
against
aeruginosa.
Applied Nano,
Journal Year:
2024,
Volume and Issue:
5(4), P. 205 - 226
Published: Oct. 10, 2024
Wound
healing
is
rarely
seen
as
a
problem
in
healthy
individuals;
however,
under
certain
pathophysiological
conditions,
this
process
can
be
impaired,
leading
to
the
emergence
of
chronic
wounds,
which
are
themselves
serious
public
health
problem.
This
work
aimed
review
most
important
recent
literature
on
use
nanoparticles
Ag,
Au,
and
Zn
produced
from
plant
extracts
their
application
agents.
To
that
end,
we
provide
an
insight
into
pathophysiology
wound
main
routes
obtaining
metallic
nanoparticles.
The
methodology
synthesis,
part
so-called
green
has
been
focus
several
studies
medicinal
plants
substrate
produce
silver,
gold,
zinc
Their
agents
closely
related
natural
antimicrobial,
anti-inflammatory,
cicatrizing
properties.
Finally,
address
vitro
vivo
efficiency
(MNPs)
synthesized
applied
different
pharmaceutical
forms.
For
instance,
excellent
contraction
rates
obtained
silver
gold
NPs,
respectively,
were
Euphorbia
milii
(92%)
Plectranthus
aliciae
(almost
97%)
analyses.
Based
satisfactory
results,
find
MNPs
potential
therapeutic
alternative
compared
traditional
synthetic
foresee
production
new
drugs.
Microbial Cell Factories,
Journal Year:
2024,
Volume and Issue:
23(1)
Published: Oct. 15, 2024
The
world
society
is
still
suffering
greatly
from
waterborne
infections,
with
developing
countries
bearing
most
of
the
morbidity
and
death
burden,
especially
concerning
young
children.
Moreover,
microbial
resistance
one
prevalent
global
problems
that
extends
need
for
self-medication
healing
period,
or
it
may
be
linked
to
treatment
failure
results
in
further
hospitalization,
higher
healthcare
expenses,
mortality
rates.
Thus,
innovative
synthesis
new
antimicrobial
materials
required
preserve
environment
enhance
human
health.
Nanotechnology Reviews,
Journal Year:
2024,
Volume and Issue:
13(1)
Published: Jan. 1, 2024
Abstract
Nanotechnology
holds
excessive
potential
for
addressing
agricultural
challenges
such
as
soil
deprivation,
nutrient
deficiencies,
low
harvests,
and
leaching.
Nanofertilizers
enable
more
efficient
absorption
by
plants
due
to
their
enlarged
surface
area,
bestowing
viable
solutions.
Urea–hydroxyapatite
hybrid
(urea–HA
hybrid)
was
successfully
synthesized
via
a
coprecipitation
approach
doping
nanohydroxyapatite
with
copper
zinc
along
urea.
The
nanohybrids
were
analyzed
applying
various
techniques
Fourier
transform
infrared
spectroscopy,
energy-dispersive
spectroscopy
(EDS),
scanning
electron
microscopy,
X-ray
powder
diffraction
(XRD).
evidence
the
crystalline
structure
of
HA
confirmed
peaks
present
in
XRD
analysis
at
25.89°,
28.77°,
32.11°,
while
urea
validated
39.29°.
nanosized
hexagonal
nanorods
approximately
16
±
1.5
nm,
incorporation
urea,
Cu,
Zn.
components
urea–HA
(Ca,
P,
C,
O,
N)
EDS
traces
Si.
Antibacterial
antifungal
activities
investigated
against
phytopathogenic
microbes.
nanohybrid
significantly
inhibits
growth
Clavibacter
michiganensis
,
Xanthomonas
campestris
Macrophomina
phaseolina
Sclerotium
rolfsii
.
A
fertilization
trial
using
on
Citrus
limon
has
demonstrated
30
cm
within
8
weeks
treatment,
accompanied
brighter-colored
leaves.
Thus,
enabled
slow
release
nutrients,
which
had
significant
impact
plant
will
also
effectively
manage
disease
control
phytopathogens.
this
innovative
addresses
regarding
delivery
effectively.
Discover Materials,
Journal Year:
2024,
Volume and Issue:
4(1)
Published: Nov. 1, 2024
In
this
study,
a
novel
approach
for
the
environmentally
conscious
extraction
of
titanium
dioxide
from
ilmenite
ore
while
limiting
environmental
impact
and
enhancing
advantage
an
economic
process.
Leaching
conditions
were
tested
with
different
acids
effective
separation
TiO2
optimized
concerning
experimental
parameters.
TiO2NPs
characterized
using
tools.
Catechol
polyurethane
foam
immobilized
was
prepared
its
antimicrobial
action
against
Gram-negative
bacterium
E.
coli,
Gram-positive
B.
cereus,
fungus
A.
niger.
CAT-PUF
/TiO2NPs
showed
effect
niger
inhibition
zones
27
±
0.14,
12
22
0.06
mm,
respectively.
Incorporating
bioinformatics,
research
contributes
to
burgeoning
field
nanotechnology-enabled
materials,
offering
insights
into
potential
applications
CAT-PUF/TiO2NPs
in
combating
microbial
threats.
Through
bio-informatics
tools,
toxicity
synthesized
nanoparticles
assessed,
providing
valuable
their
safety
profile
impact.
Furthermore,
simulating
binding
affinity
between
target
biomolecules,
such
as
cell
membrane
proteins
or
enzyme
receptors,
aspect
sheds
light
on
mechanistic
underpinnings
efficacy.
Cellular Microbiology,
Journal Year:
2024,
Volume and Issue:
2024(1)
Published: Jan. 1, 2024
Pseudomonas
aeruginosa
,
an
antibiotic‐resistant
opportunistic
pathogen,
poses
significant
challenges
in
treating
infections,
particularly
immunocompromised
individuals.
This
review
explores
current
and
future
innovative
approaches
to
suppress
its
growth
virulence.
We
delve
into
the
bacterium’s
virulence
factors,
discussing
existing
strategies
like
antibiotics,
bacteriophages,
probiotics,
small‐molecule
inhibitors.
Additionally,
novel
approaches,
including
RNA
interference,
CRISPR‐Cas
systems,
nanotechnology,
show
promise
preclinical
studies.
Despite
advancements,
persist,
prompting
need
for
a
multifaceted
approach
targeting
various
aspects
of
P.
pathogenesis
effective
infection
management.
provides
comprehensive
perspective
on
status
directions
against
aeruginosa.
