Journal of Biomedical Materials Research Part A,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 29, 2024
Effectively
managing
inflammatory
bowel
disease
(IBD)
poses
difficulties
due
to
its
persistent
nature
and
unpredictable
episodes
of
exacerbation.
There
is
encouraging
evidence
that
personalized
medication
delivery
systems
can
improve
therapy
efficacy
while
reducing
the
negative
effects
standard
medicines.
Zein,
a
protein
produced
from
corn,
has
garnered
interest
as
possible
means
delivering
drugs
for
treatment
IBD.
This
review
delves
into
Zein-based
drug
systems,
showcasing
biodegradability,
controlled
release
capabilities,
biocompatibility.
Studies
have
shown
nanoparticles,
microcarriers,
core-shell
microparticles
capacity
increase
stability,
enhance
targeting
in
intestines,
decrease
toxicity
animal
models
The
highlights
promise
Zein
IBD
urges
more
study
clinical
use.
Open Access Journal of Microbiology & Biotechnology,
Год журнала:
2024,
Номер
9, С. 1 - 10
Опубликована: Апрель 1, 2024
This
brief
review
explores
the
burgeoning
field
of
antimicrobial
nanofiber
coating
technologies,
poised
to
redefine
standards
food
packaging
for
enhanced
safety
and
longevity.
With
global
imperative
reducing
spoilage
extending
shelf
life,
this
paper
highlights
revolutionary
role
nanofibers
infused
with
agents.
These
cuttingedge
coatings
promise
not
only
actively
combat
microbial
growth
but
also
maintain
sensory
nutritional
quality
products.
By
integrating
insights
from
recent
studies
technological
advancements,
underscores
necessity
interdisciplinary
collaboration
among
scientists,
industry
experts,
policymakers.
The
aim
is
accelerate
development,
scalability,
regulatory
approval
these
innovative
materials,
thereby
setting
a
new
benchmark
futureproofing
against
contamination.
Asian Journal of Chemistry,
Год журнала:
2024,
Номер
36(6), С. 1308 - 1314
Опубликована: Май 31, 2024
This
work
describes
the
green
synthesis
of
magnesium
sulfide
nanoparticles
(MgS
NPs)
using
an
extract
from
Hordeum
vulgare
leaves
and
characterized
by
X-ray
diffraction
(XRD),
UV-visible
spectroscopy
scanning
electron
microscopy
(SEM)
techniques.
The
MgS
NPs
generated
were
spherical
had
a
high
level
purity.
They
band
gap
2.0
eV,
uniform
distribution
average
crystal
size
14
nm.
synthesized
exhibited
several
geometrical
morphologies,
including
spherical,
rod-shaped
bean-shaped
structures.
5
nm
with
precisely
4.85
eV.
efficacy
on
Brassica
nigra
Trigonella
foenum-graecum
for
seed
priming,
germination
rate
time,
root
length
shoot
has
also
been
assessed
different
doses.
optimal
occurs
at
concentrations
15
mg/100
mL
20
mL,
while
is
impeded
when
concentration
exceed
30
mL.
exhibit
diminutive
reactivity,
which
allows
them
to
augment
water
absorption
nutrient
control
capacities
seeds.
Consequently,
this
promotes
process
plant
growth
decreasing
duration
germination.
Seeds
that
subjected
treatment
enhanced
lengths,
as
well
accelerated
study
suggests
possibilities
environmental
friendly
nanotechnology
improve
agricultural
practices.
Journal of Biomedical Materials Research Part A,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 29, 2024
Effectively
managing
inflammatory
bowel
disease
(IBD)
poses
difficulties
due
to
its
persistent
nature
and
unpredictable
episodes
of
exacerbation.
There
is
encouraging
evidence
that
personalized
medication
delivery
systems
can
improve
therapy
efficacy
while
reducing
the
negative
effects
standard
medicines.
Zein,
a
protein
produced
from
corn,
has
garnered
interest
as
possible
means
delivering
drugs
for
treatment
IBD.
This
review
delves
into
Zein-based
drug
systems,
showcasing
biodegradability,
controlled
release
capabilities,
biocompatibility.
Studies
have
shown
nanoparticles,
microcarriers,
core-shell
microparticles
capacity
increase
stability,
enhance
targeting
in
intestines,
decrease
toxicity
animal
models
The
highlights
promise
Zein
IBD
urges
more
study
clinical
use.
