Drugs and Drug Candidates,
Год журнала:
2025,
Номер
4(1), С. 8 - 8
Опубликована: Март 1, 2025
Background/Objectives:
This
systematic
review
explores
the
utilization
of
electrospinning
for
incorporation
natural
compounds,
focusing
on
their
pharmacological
applications.
Methods:
focused
studies
investigating
bioactive
compounds
into
nanofibers
produced
via
technique
The
search
was
conducted
English-language
articles
published
online
between
1
January
2013
and
10
December
2023.
followed
a
structured
approach,
excluding
articles,
clinical
studies,
gray
literature
such
as
unpublished
works,
non-peer-reviewed
journals,
theses,
industry
data.
Results:
99
highlighted
advantages
electrospun
in
tissue
regeneration,
infection
control,
controlled
drug
release,
with
notable
potential
oncology
targeted
antitumor
delivery.
It
discussed
influence
polymers
solvents
fiber
characteristics
identified
significant
gap
cosmetic
applications,
emphasizing
technique’s
prolonged
release
improved
ingredient
stability.
Additionally,
this
noted
underutilization
marine-derived
substances,
which
possess
rich
properties
that
could
benefit
biomedical
fields.
Conclusions:
highlights
including
promising
oncology.
However,
gaps
were
field
use
substances.
Future
advancements
technology
interdisciplinary
collaboration
are
essential
to
unlocking
its
full
medicine
cosmetics.
Heliyon,
Год журнала:
2025,
Номер
11(2), С. e41863 - e41863
Опубликована: Янв. 1, 2025
Electrospun
nanofibers
with
a
high
surface
area
are
attractive
materials
for
biomedical
applications.
They
have
potential
use
in
scaffolds,
drug
delivery,
bio
face
masks,
wound
dressings,
and
biosensors.
Various
modifications
been
developed
to
improve
their
chemical
physical
properties.
These
include
physical,
chemical,
biological,
nano-treatment
approaches.
The
modification
includes
annealing,
stretching,
plasma
treatment.
Chemical
functionalization
groups,
while
biological
involves
coating
proteins,
enzymes,
or
antibodies.
Nanotreatment
approaches
nanomaterials
modify
the
of
nanofibers.
enhance
characteristics
nanofibers,
making
them
more
effective
efficient
intended
review
summarizes
latest
research
on
electrospun
nanofiber
procedures,
strategies,
utilities
various
It
provides
insights
into
conditions
requirements
each
approach
effects
properties
Moreover,
it
emphasizes
importance
functionalizing
meet
most
important
specific
Chronic
kidney
disease
(CKD)
is
a
growing
global
health
issue,
marked
by
high
mortality
rate
and
significant
cardiovascular
risks.
Despite
advancements
in
treatment,
definitive
cure
remains
out
of
reach,
as
current
approaches
mainly
focus
on
managing
underlying
conditions.
The
progression
CKD
largely
influenced
oxidative
stress,
fibrosis,
inflammation,
which
present
the
key
areas
for
therapeutic
intervention.
Natural
therapies
encompassing
plant
extracts
bioactive
molecules
have
been
promising
nephroprotective
action
due
to
their
anti-inflammatory,
diuretic,
antioxidative,
anti-fibrotic
properties.
immense
exploration
availability
drugs
management,
hurdles
remain
formulation
development
active
drug
delivery
these
phytoconstituents.
A
thoughtful
examination
properties
phytoconstituents
selection
developing
them
ideal
dosage
forms
can
reduce
gap
phytopharmaceuticals.
Consequently,
loaded
nanocarriers
hold
promise
safe
effective
at
site
produce
desired
outcomes.
Incorporating
natural
compounds
into
nanotechnology-based
systems
could
revolutionize
treatment
approaches.
Additionally,
understanding
biochemical
pathways
offers
opportunities
renal-specific
targeting
optimized
use
review
examines
potential
utilization
phytopharmaceuticals
suitable
occurrence
mechanisms,
that
be
considered
delivery.
Materials,
Год журнала:
2025,
Номер
18(3), С. 673 - 673
Опубликована: Фев. 3, 2025
This
paper
outlines
the
current
design
trends
in
food
packaging,
its
main
environmentally
friendly
material
alternatives,
and
industrial
processing
technologies.
In
this
respect,
important
product
has
undergone
several
evolutions
throughout
history.
Initially
acting
as
a
containment
device,
it
later
evolved
into
source
of
information
even
marketing
platform
for
companies,
always
with
view
to
extending
shelf
life.
However,
these
functionalities
are
highly
dependent
on
materials
used
their
properties.
plastics
have
conquered
packaging
market
due
affordability
flexibility.
Nevertheless,
environmental
concerns
arisen
impact
environment,
addition
introduction
stricter
industry
regulations
increased
consumer
awareness.
Therefore,
work
found
that
toward
sustainability,
reducing
complexity,
easier
recycling,
selection
combines
both
sustainability
functionality.
case
bioplastics
sustainable
alternative,
there
is
still
room
improvement
production,
careful
consideration
raw
materials.
addition,
technical
performance
generally
lower,
challenges
barrier
properties
processability,
which
could
be
addressed
adoption
Industry
4.0.
Nanomaterials,
Год журнала:
2025,
Номер
15(5), С. 356 - 356
Опубликована: Фев. 25, 2025
Cellulose
nanofibers
(CNFs),
cellulose
nanomaterials
(CNMs),
and
cellulose-based
composites
represent
a
convergence
of
material
science,
sustainability,
advanced
engineering,
paving
the
way
for
innovative
eco-friendly
materials.
This
paper
presents
comprehensive
review
these
materials,
encompassing
their
extraction,
preparation
methods,
properties,
applications,
future
directions.
The
manufacturing
CNFs
CNMs
leverages
diverse
techniques-chemical,
mechanical,
enzymatic-with
each
offering
distinct
advantages
in
tailoring
characteristics
to
meet
specific
needs.
Strategies
functionalization
surface
modification
are
detailed,
highlighting
role
enhancing
properties
while
addressing
challenges
scaling
production
industrial
levels.
structural,
thermal,
optical,
electrical,
biocompatibility
CNFs,
CNMs,
explored,
underscoring
versatility
applications
across
various
industries.
Cellulose-based
composites,
particular,
demonstrate
exceptional
tunable
uses,
although
achieving
uniform
dispersion
remains
key
technical
hurdle.
These
materials
have
packaging,
automotive,
aerospace,
biomedical
devices,
energy
storage,
environmental
remediation.
Emerging
research
trends
emphasize
integration
with
technologies,
promoting
sustainable
practices
life
cycle
considerations
advancing
commercialization
potential.
rapidly
evolving
field
holds
immense
promise
global
by
creating
high-performance,
is
crucial
understanding
nanofibers,
nanomaterials,
providing
valuable
insights
that
will
drive
development
sustainable,
high-performance
wide
range
ultimately
challenges.
