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.
Pharmaceuticals,
Год журнала:
2025,
Номер
18(3), С. 286 - 286
Опубликована: Фев. 20, 2025
It
is
widely
recognized
that
prostate
cancer
a
multifaceted
illness
the
second
most
common
cause
of
cancer-related
fatalities
among
males.
Natural
sources
from
both
plants
and
marine
organisms
have
long
been
used
in
treating
various
diseases
discovery
new
pharmaceutical
compounds.
Medicinal
plants,
particular,
provide
bioactive
substances
like
alkaloids,
phenolic
compounds,
terpenes,
steroids.
In
addition,
natural
products
play
crucial
role
search
for
novel
treatments.
A
substantial
number
anticancer
drugs
derived
sources,
including
organisms,
microorganisms.
fact,
over
past
60
years,
80%
chemical
entities
originated
which
are
generally
considered
safer
than
synthetic
This
review
seeks
to
emphasize
phytochemical
compounds
plant
cancer,
highlighting
their
potential
therapeutic
impact.
also
intended
support
global
researchers
working
on
identification
natural-based
treatments
cancer.
Journal of Asian Natural Products Research,
Год журнала:
2025,
Номер
unknown, С. 1 - 22
Опубликована: Фев. 22, 2025
This
study
investigates
the
extraction
of
partially
purified
sulphated
polysaccharides
from
marine
bivalves
through
enzymatic
digestion
followed
by
sequential
deproteinization
and
evaluates
their
anti-gastric
cancer
activity.
Chemical
analysis
confirmed
high
uronic
acid
sulfate
content,
with
FT-IR
validating
characteristic
functional
groups.
Donax
variabilis
polysaccharide
demonstrated
significant,
dose-dependent
anti-proliferative
effects
against
AGS
cells.
Mechanistic
studies
revealed
morphological
changes,
ROS
generation,
LDH
release,
mitochondrial
membrane
disruption,
leading
to
apoptosis.
Flow
cytometry
G0/G1
phase
arrest.
These
findings
suggest
that
D.
exhibit
potent
properties,
likely
oxidative
stress
dysfunction,
warranting
further
investigation
for
therapeutic
applications.
Current Issues in Molecular Biology,
Год журнала:
2025,
Номер
47(3), С. 175 - 175
Опубликована: Март 7, 2025
Marine-derived
biomaterials
are
emerging
as
promising
candidates
for
tissue
regeneration
due
to
their
sustainability,
biocompatibility,
bioactivity,
and
unique
chemical
structure.
This
review
provides
an
overview
of
different
marine-derived
inorganic
organic
materials,
such
calcium
carbonate,
magnesium
salts,
silica,
polysaccharides,
bioactive
peptides,
lipid-based
compounds,
effects
in
promoting
osteogenesis.
Specifically,
the
osteoinductive,
osteoconductive,
osteointegrative
activities
traditional
innovative
materials
that
influence
key
molecular
pathways
BMP/Smad
Wnt/β-catenin
signaling
underlying
bone
formation
will
be
evaluated.
also
prospects
approaches,
i.e.,
phage
display
technology,
optimize
peptides
targeted
regeneration.
In
context
sustainable
this
suggests
some
interesting
applications
unusual
able
overcome
limitations
conventional
ones
stimulate
cellular
by
activating
specific
pathways.
Marine Drugs,
Год журнала:
2025,
Номер
23(4), С. 151 - 151
Опубликована: Март 30, 2025
Bone
tissue
injuries
are
a
significant
health
risk,
and
their
repair
is
challenging.
While
various
materials
have
potential
for
bone
repair,
issues
like
sourcing
immune
rejection
limit
use.
Marine-derived
collagen,
abundant
free
from
religious
disease
transmission
concerns,
promising
biomaterial
in
engineering.
Cross-linking
modification
can
enhance
its
mechanical
properties
degradation
rate,
making
it
more
suitable
repair.
However,
detailed
analysis
of
cross-linking
methods,
property
changes
post-cross-linking,
impact
on
needed.
This
review
examines
marine
collagen’s
improved
characteristics,
providing
foundation
effective
use
Journal of materials research/Pratt's guide to venture capital sources,
Год журнала:
2024,
Номер
39(12), С. 1741 - 1757
Опубликована: Апрель 30, 2024
Abstract
Fabrications
of
nanomotors
(NMs)
are
at
the
forefront
exploring
true
potential
nanotechnology.
Tubular
(TNMs)
have
been
attracting
huge
interest
recently.
NMs
based
on
2D-hexagonal
mesoporous
silica
(SBA-15)
prepared
through
surfactant-assisted
sol–gel
method.
Copper
and/or
iron
oxide
nanoparticles
impregnated
in
SBA-15
to
form
catalytic
tubular
nanomotors.
Characterization
has
investigated
by
XPS,
XRD,
HR-TEM,
SEM–EDS,
and
BET.
The
electrochemical
measurements
were
used
confirm
motion
By
increasing
loading
metal
nanoparticles,
decreases;
this
could
be
observed
from
current
loss.
anti-cancer
synthesized
against
two
cell
lines
(A549
H460)
human
lung
carcinoma
tested.
Among
all
tested
NMs,
high-metal
oxide-loaded
materials
containing
CuO
only
as
well
Fe
2
O
3
potent
significant
apoptotic
death
for
cancer
treatment.
Graphical
abstract
Journal of Biomedical Materials Research Part A,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 7, 2024
In
recent
years,
the
exploration
of
sustainable
alternatives
in
field
bone
tissue
engineering
has
led
researchers
to
focus
on
marine
waste
byproducts
as
a
valuable
resource.
These
resources,
often
overlooked
remnants
various
industries,
exhibit
rich
composition
hydroxyapatite,
collagen,
calcium
carbonate,
and
other
minerals
essential
complex
framework
structure.
Marine
by-products
can
emit
gases
such
methane
carbon
dioxide,
highlighting
urgency
repurpose
these
materials
for
innovative
regeneration
solutions,
offering
approach
address
environmental
challenges
while
advancing
medical
science.
Using
discarded
offers
promising
pathway
development
regenerative
medicine.
This
review
investigates
distinctive
properties
byproducts,
emphasizing
their
capacity
be
recycled
effectively
contribute
rebuilding
cartilage
during
processes.
We
also
highlight
compatibility
resources
with
biological
platelet-rich
plasma
(PRP),
stem
cells,
exosomes,
natural
bioproducts,
well
nanoparticles
(NPs)
polymers.
By
using
potential
we
simultaneously
promote
solutions
skeletal
engineering,
initiating
new
era
environmentally
green
biomedical
research.
ACS Photonics,
Год журнала:
2023,
Номер
10(12), С. 4205 - 4214
Опубликована: Ноя. 28, 2023
This
study
aims
to
determine
the
maximum
possible
energy
conversion
efficiency
of
visibly
transparent
solar
cells
using
detailed
balance
limit
(also
known
as
Shockley–Queisser
limit)
and
compare
it
traditional
single-junction
cells.
To
achieve
this,
a
new
optical
nanoantenna
has
been
designed
absorb
incoming
light
selectively,
enhancing
average
visible
transmission
while
maintaining
high
absorption
in
infrared
UV
regions.
The
color
appearance
antennas
also
evaluated
through
colorimetrical
characterization.
Our
findings
indicate
that
is
transparency
over
80
18%,
respectively,
by
carefully
selecting
semiconductor
materials.
Such
are
versatile
enough
be
integrated
seamlessly
into
smart
windows,
agrivoltaic
concepts
open
protected
cultivation,
mobile
devices,
appliances
without
compromising
their
or
functionality.
dimensions
optics
proposed
have
thoroughly
discussed.
