Pharmaceuticals,
Journal Year:
2024,
Volume and Issue:
17(3), P. 315 - 315
Published: Feb. 28, 2024
Cancer
continues
to
pose
one
of
the
most
critical
challenges
in
global
healthcare.
Despite
wide
array
existing
cancer
drugs,
primary
obstacle
remains
selectively
targeting
and
eliminating
cells
while
minimizing
damage
healthy
ones,
thereby
reducing
treatment
side
effects.
The
revolutionary
approach
utilizing
nanomaterials
for
delivering
therapeutic
agents
has
significantly
enhanced
efficacy
safety
chemotherapeutic
drugs.
This
crucial
shift
is
attributed
unique
properties
nanomaterials,
enabling
nanocarriers
transport
tumor
sites
both
passive
active
modes,
drug
elimination
from
delivery
systems.
Furthermore,
these
can
be
designed
respond
internal
or
external
stimuli,
thus
facilitating
controlled
release.
However,
production
nanomedications
therapy
encounters
various
that
impede
progress
this
field.
review
aims
provide
a
comprehensive
overview
current
state
nanomedication
treatment.
It
explores
variety
focusing
on
their
are
overcoming
limitations
conventional
chemotherapy.
Additionally,
delves
into
functionalities
nanocarriers,
highlighting
significant
impact
evolution
nanomedicine.
also
critically
assesses
recent
advancements
systems,
covering
range
innovative
methodologies.
Finally,
succinctly
addresses
encountered
developing
nanomedications,
offering
insightful
perspectives
guide
future
research
Polymers,
Journal Year:
2023,
Volume and Issue:
15(6), P. 1525 - 1525
Published: March 19, 2023
Biological
macromolecules
like
polysaccharides/proteins/glycoproteins
have
been
widely
used
in
the
field
of
tissue
engineering
due
to
their
ability
mimic
extracellular
matrix
tissue.
In
addition
this,
these
are
found
higher
biocompatibility
and
no/lesser
toxicity
when
compared
synthetic
polymers.
recent
years,
scaffolds
made
up
proteins,
polysaccharides,
or
glycoproteins
highly
tensile
strength,
biodegradability,
flexibility.
This
review
is
about
fabrication
methods
applications
using
various
biological
macromolecules,
including
polysaccharides
chitosan,
agarose,
cellulose,
dextran
proteins
soy
zein
etc.
Biopolymer-based
nanocomposite
production
its
application
limitations
also
discussed
this
review.
emphasizes
importance
natural
polymers
rather
than
ones
for
developing
scaffolds,
as
unique
properties,
high
biocompatibility,
accessibility,
stability,
absence
toxicity,
low
cost.
Agronomy,
Journal Year:
2024,
Volume and Issue:
14(2), P. 341 - 341
Published: Feb. 7, 2024
Nanotechnology,
nanosensors
in
particular,
has
increasingly
drawn
researchers’
attention
recent
years
since
it
been
shown
to
be
a
powerful
tool
for
several
fields
like
mining,
robotics,
medicine
and
agriculture
amongst
others.
Challenges
ahead,
such
as
food
availability,
climate
change
sustainability,
have
promoted
pushed
forward
the
use
of
agroindustry
environmental
applications.
However,
issues
with
noise
confounding
signals
make
these
tools
non-trivial
technical
challenge.
Great
advances
artificial
intelligence,
more
particularly
machine
learning,
provided
new
that
allowed
researchers
improve
quality
functionality
nanosensor
systems.
This
short
review
presents
latest
work
analysis
data
from
using
learning
agroenvironmental
It
consists
an
introduction
topics
application
field
nanosensors.
The
rest
paper
examples
techniques
utilisation
electrochemical,
luminescent,
SERS
colourimetric
classes.
final
section
discussion
conclusion
concerning
relevance
material
discussed
future
sector.
Pharmaceuticals,
Journal Year:
2024,
Volume and Issue:
17(3), P. 315 - 315
Published: Feb. 28, 2024
Cancer
continues
to
pose
one
of
the
most
critical
challenges
in
global
healthcare.
Despite
wide
array
existing
cancer
drugs,
primary
obstacle
remains
selectively
targeting
and
eliminating
cells
while
minimizing
damage
healthy
ones,
thereby
reducing
treatment
side
effects.
The
revolutionary
approach
utilizing
nanomaterials
for
delivering
therapeutic
agents
has
significantly
enhanced
efficacy
safety
chemotherapeutic
drugs.
This
crucial
shift
is
attributed
unique
properties
nanomaterials,
enabling
nanocarriers
transport
tumor
sites
both
passive
active
modes,
drug
elimination
from
delivery
systems.
Furthermore,
these
can
be
designed
respond
internal
or
external
stimuli,
thus
facilitating
controlled
release.
However,
production
nanomedications
therapy
encounters
various
that
impede
progress
this
field.
review
aims
provide
a
comprehensive
overview
current
state
nanomedication
treatment.
It
explores
variety
focusing
on
their
are
overcoming
limitations
conventional
chemotherapy.
Additionally,
delves
into
functionalities
nanocarriers,
highlighting
significant
impact
evolution
nanomedicine.
also
critically
assesses
recent
advancements
systems,
covering
range
innovative
methodologies.
Finally,
succinctly
addresses
encountered
developing
nanomedications,
offering
insightful
perspectives
guide
future
research
