The
collagen
derived
from
marine
sources
such
as
scales
and
bones
of
fishes
has
achieved
focus
in
pharmaceutical
industry.
Its
recent
innovation
a
biocompatible
hydrogel
raw
material
also
enhanced
the
interest
among
researchers
particular
fields
due
to
their
specific
characteristics.
industry
utilizes
drug
delivery
tool,
with
capability
promote
controlled
release
excellent
bioavailability
properties.
biocompatibility
lower
risk
immunogenicity
qualify
an
ideal
choice
for
healing
wounds,
engineering
tissue
including
regenerative
medicinal
functions.
In
application
hydrogel,
it
exhibits
crucial
characteristics
by
assisting
establishing
matrix
that
simulate
extracellular
conditions.
Such
hydrogels
are
applied
systems
capacity
sustained
therapeutic
drugs.
Furthermore,
innate
bioactivity
advocates
cell
connection
propagation,
which
fundamental
repair.
versatile
nature,
paired
its
availability
environment,
emphasizes
prospective
enhancing
preparations
hydrogel-based
technologies,
aiding
develop
novel
solutions
biotechnology
medicine.
This
chapter
discusses
applications
isolated
resources.
Journal of Biochemical and Molecular Toxicology,
Год журнала:
2024,
Номер
38(6)
Опубликована: Май 20, 2024
Abstract
Achieving
targeted,
customized,
and
combination
therapies
with
clarity
of
the
involved
molecular
pathways
is
crucial
in
treatment
as
well
overcoming
multidrug
resistance
(MDR)
cancer.
Nanotechnology
has
emerged
an
innovative
promising
approach
to
address
problem
drug
resistance.
Developing
nano‐formulation‐based
using
therapeutic
agents
poses
a
synergistic
effect
overcome
MDR
In
this
review,
we
aimed
highlight
important
progression
cancer
mediated
through
nanotechnology‐based
approaches
that
have
been
employed
circumvent
them
recent
years.
Here,
also
discussed
potential
use
marine
metabolites
treat
cancer,
utilizing
active
drug‐targeting
nanomedicine‐based
techniques
enhance
selective
accumulation
cells.
The
discussion
provides
future
insights
for
developing
complex
multistage
responsive
nanomedical
delivery
systems
effective
treatments.
We
propose
more
combinational
studies
their
validation
possible
marine‐based
nanoformulations
development.
The
collagen
derived
from
marine
sources
such
as
scales
and
bones
of
fishes
has
achieved
focus
in
pharmaceutical
industry.
Its
recent
innovation
a
biocompatible
hydrogel
raw
material
also
enhanced
the
interest
among
researchers
particular
fields
due
to
their
specific
characteristics.
industry
utilizes
drug
delivery
tool,
with
capability
promote
controlled
release
excellent
bioavailability
properties.
biocompatibility
lower
risk
immunogenicity
qualify
an
ideal
choice
for
healing
wounds,
engineering
tissue
including
regenerative
medicinal
functions.
In
application
hydrogel,
it
exhibits
crucial
characteristics
by
assisting
establishing
matrix
that
simulate
extracellular
conditions.
Such
hydrogels
are
applied
systems
capacity
sustained
therapeutic
drugs.
Furthermore,
innate
bioactivity
advocates
cell
connection
propagation,
which
fundamental
repair.
versatile
nature,
paired
its
availability
environment,
emphasizes
prospective
enhancing
preparations
hydrogel-based
technologies,
aiding
develop
novel
solutions
biotechnology
medicine.
This
chapter
discusses
applications
isolated
resources.
