Abstract
The
use
of
nanotechnology
has
the
potential
to
revolutionize
detection
and
treatment
cancer.
Developments
in
protein
engineering
materials
science
have
led
emergence
new
nanoscale
targeting
techniques,
which
offer
renewed
hope
for
cancer
patients.
While
several
nanocarriers
medicinal
purposes
been
approved
human
trials,
only
a
few
authorized
clinical
cells.
In
this
review,
we
analyze
some
formulations
discuss
challenges
translating
findings
from
lab
clinic.
This
study
highlights
various
compounds
that
can
be
used
selective
tumor
inherent
difficulties
therapy.
Nanotechnology
provides
promising
platform
improving
future,
but
further
research
is
needed
overcome
current
limitations
translation.
Graphical
Biosensors,
Год журнала:
2023,
Номер
13(3), С. 333 - 333
Опубликована: Март 1, 2023
With
its
fatal
effects,
cancer
is
still
one
of
the
most
important
diseases
today’s
world.
The
underlying
fact
behind
this
scenario
probably
due
to
late
diagnosis.
That
why
necessity
for
detection
different
types
obvious.
Cancer
studies
including
diagnosis
and
therapy
have
been
laborious
tasks.
Since
early
significantly
affects
following
steps,
very
important.
Despite
researchers’
best
efforts,
accurate
rapid
challenging
difficult
investigate.
It
known
that
electrochemical
techniques
successfully
adapted
into
field.
Electrochemical
sensor
platforms
are
brought
together
with
excellent
selectivity
biosensing
elements,
such
as
nucleic
acids,
aptamers
or
antibodies,
put
forth
successful
outputs.
One
remarkable
achievements
these
biomolecule-attached
sensors
their
lack
need
additional
labeling
which
bring
extra
burdens
interference
effects
demanding
modification
protocols.
In
review,
we
aim
outline
label-free
use
methods
acquire
signals.
classification
sensing
generally
presented
according
recognition
element,
recent
by
using
attractive
substrates
described
in
detail.
addition,
current
challenges
discussed.
Biosensors,
Год журнала:
2023,
Номер
13(1), С. 80 - 80
Опубликована: Янв. 3, 2023
Breast
cancer
(BC)
is
the
most
common
in
women,
which
also
second
public
worldwide.
When
detected
early,
BC
can
be
treated
more
easily
and
prevented
from
spreading
beyond
breast.
In
recent
years,
various
biosensor
strategies
have
been
studied,
including
optical,
electrical,
electrochemical,
mechanical
biosensors.
particular,
high
sensitivity
short
detection
time
of
electrochemical
biosensors
make
them
suitable
for
recognition
biomarkers.
Moreover,
increased
by
incorporating
nanomaterials.
this
respect,
outstanding
electrical
performances
graphene
led
to
an
increasingly
intense
study
graphene-based
materials
Hence,
present
review
examines
latest
advances
biosensing.
For
each
biosensor,
limit
(LOD),
linear
range
(LR),
diagnosis
technique
are
analyzed.
This
followed
a
discussion
prospects
current
challenges,
along
with
potential
enhancing
performance
RSC Advances,
Год журнала:
2024,
Номер
14(10), С. 7142 - 7156
Опубликована: Янв. 1, 2024
Carbon
nanomaterials
have
attracted
significant
attention
in
the
biomedical
field,
including
for
biosensing,
drug
delivery,
and
tissue
engineering
applications.
Based
on
their
inherent
properties
such
as
unique
structure
high
conductivity,
carbon
can
overcome
current
limitations
research
poor
stability
of
biomolecules,
low
sensitivity
selectivity
biosensors,
difficulty
precise
delivery.
In
addition,
recently,
several
novel
been
integrated
with
to
develop
carbon-based
nanocomposites
application
research.
this
review,
we
discuss
recent
studies
First,
representative
composed
other
nanomaterials.
Next,
applications
field
are
discussed
according
topics
field.
We
engineering.
conclusion,
believe
that
review
provides
potential
applicability
suggests
future
directions
Cancers,
Год журнала:
2021,
Номер
13(13), С. 3194 - 3194
Опубликована: Июнь 26, 2021
The
timely
diagnosis
of
cancer
represents
the
best
chance
to
increase
treatment
success
and
reduce
deaths.
Nanomaterials-based
biosensors
containing
graphene
quantum
dots
(GQDs)
as
a
sensing
platform
show
great
promise
in
early
sensitive
detection
biomarkers,
due
their
unique
chemical
physical
properties,
large
surface
area
ease
functionalization
with
different
biomolecules
able
recognize
relevant
biomarkers.
In
this
review,
we
report
advanced
strategies
for
synthesis
GQDs
agents
selectively
convert
into
signal
specific
biomarkers
such
antigens,
enzymes,
hormones,
proteins,
related
byproducts,
exposed
on
cells
changes
pH.
developed
optical,
electrochemical
chemiluminescent
based
have
been
shown
ensure
effective
several
diseases
well
possibility
evaluate
effectiveness
anticancer
therapy.
wide
linear
range
low
limits
recorded
most
reported
highlight
potential
clinics
management
cancer.
