Medicinal Research Reviews,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 9, 2025
ABSTRACT
In
recent
decades,
the
potentiality
of
marine
natural
products
(MNPs)
in
medical
field
has
been
increasingly
recognized.
Natural
compounds
derived
from
microorganisms,
algae,
and
invertebrates
have
shown
significant
promise
for
treating
inflammation‐related
diseases.
this
review,
we
cover
three
primary
sources
MNPs
their
diverse
unique
chemical
structures
bioactivities.
This
review
aims
to
summarize
progress
combating
Moreover,
functions
mechanisms
diseases,
highlighting
regulating
inflammatory
signaling
pathways,
cellular
stress
responses,
gut
microbiota,
among
others.
Meanwhile,
focus
on
key
technologies
scientific
methods
address
current
limitations
challenges
MNPs.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(2), P. 797 - 797
Published: Jan. 8, 2024
Seaweed,
a
miscellaneous
group
of
marine
algae,
has
long
been
recognized
for
its
rich
nutritional
composition
and
bioactive
compounds,
being
considered
nutraceutical
ingredient.
This
revision
delves
into
the
promising
role
seaweed-derived
nutrients
as
beneficial
resource
drug
discovery
innovative
product
development.
Seaweeds
are
abundant
sources
essential
vitamins,
minerals,
polysaccharides,
polyphenols,
unique
secondary
metabolites,
which
reveal
wide
range
biological
activities.
These
compounds
possess
potential
therapeutic
properties,
making
them
intriguing
candidates
leads
in
various
medical
applications
pharmaceutical
It
explores
their
pharmacological
including
antioxidant,
anti-inflammatory,
antimicrobial,
anticancer
activities,
shedding
light
on
agents.
Moreover,
manuscript
provides
insights
development
formulation
strategies
delivery
systems
to
enhance
bioavailability
stability
compounds.
The
also
discusses
challenges
opportunities
associated
with
integration
seaweed-based
industries.
Regulatory
considerations,
sustainability,
scalability
sustainable
seaweed
sourcing
cultivation
methods
addressed,
emphasizing
need
holistic
approach
harnessing
seaweed's
potential.
underscores
immense
valuable
reservoir
By
bridging
gap
between
biology,
pharmacology,
formulation,
this
research
contributes
critical
advancement
solutions
sectors.
The
environmental
impact
of
drug
manufacturing
raises
concerns
about
sustainability
in
healthcare.
To
address
this,
exploring
alternative
approaches
to
production
is
crucial.
This
review
focuses
on
seaweed
as
a
sustainable
resource
for
greening
processes.
Seaweed
offers
advantages
such
renewability,
abundance,
and
positive
footprint.
begins
by
providing
an
overview
practices
the
challenges
faced
achieving
sustainability.
It
then
discusses
resource,
including
cultivation
techniques
benefits.
has
various
applications
manufacturing,
extracting
purifying
bioactive
compounds
with
potential
therapeutic
properties.
Seaweed’s
role
developing
green
technologies,
seaweed-based
excipients,
biodegradable
packaging
materials,
source
energy
processes,
highlighted.
economic
implications
incorporating
solutions
are
discussed,
emphasizing
reduced
carbon
footprint
cost-effectiveness.
Regulatory
industrial
perspectives
addressed,
examining
challenges,
opportunities
implementing
manufacturing.
Collaboration
between
academia,
industry,
regulatory
bodies
crucial
successful
integration.
presents
future
directions
opportunities,
emerging
trends
innovations
areas
further
research,
policy
development,
industry
engagement
recommendations.
Incorporating
into
facilitates
reduction
impact,
promotes
efficiency,
contributes
showcases
means
foster
greener
addressing
concerns,
promoting
Carbohydrate Polymers,
Journal Year:
2024,
Volume and Issue:
348, P. 122845 - 122845
Published: Oct. 17, 2024
Polysaccharide
hydrogels,
which
can
mimic
the
natural
extracellular
matrix
and
possess
appealing
physicochemical
biological
characteristics,
have
emerged
as
significant
bioinks
for
3D
bioprinting.
They
are
highly
promising
applications
in
tissue
engineering
regenerative
medicine
because
of
their
ability
to
enhance
cell
adhesion,
proliferation,
differentiation
a
manner
akin
cellular
environment.
This
review
comprehensively
examines
fabrication
methods,
polysaccharide
hydrogel-driven
bioprinting,
underscoring
its
potential
engineering,
drug
delivery,
medicine.
To
contribute
pertinent
knowledge
future
research
this
field,
critically
key
aspects,
including
chemistry
carbohydrates,
manufacturing
techniques,
formulation
bioinks,
characterization
polysaccharide-based
hydrogels.
Furthermore,
explores
primary
advancements
3D-printed
encompassing
delivery
systems
with
controlled
release
kinetics
targeted
therapy,
along
tissue-engineered
constructs
bone,
cartilage,
skin,
vascular
regeneration.
The
use
these
bioprinted
hydrogels
innovative
fields,
disease
modeling
screening,
is
also
addressed.
Despite
notable
progress,
challenges,
modulating
properties
polysaccharides,
enhancing
bioink
printability
mechanical
properties,
achieving
long-term
vivo
stability,
been
highlighted.
International Journal of Biological Macromolecules,
Journal Year:
2024,
Volume and Issue:
265, P. 131007 - 131007
Published: March 18, 2024
Derived
from
bountiful
marine
organisms
(predominantly
algae,
fauna,
and
microorganisms),
polysaccharides
oligosaccharides
are
intricate
macromolecules
that
play
a
significant
role
in
the
growth
development
of
life.
Recently,
considerable
attention
has
been
paid
to
as
auspicious
natural
products
due
their
promising
biological
attributes.
Herein,
we
provide
an
overview
recent
advances
miscellaneous
activities
encompasses
anti-cancer,
anti-inflammatory,
antibacterial,
antiviral,
antioxidant,
anti-diabetes
mellitus,
anticoagulant
properties.
Furthermore,
furnish
concise
summary
underlying
mechanisms
governing
behavior
these
macromolecules.
We
hope
this
review
inspires
research
on
medicinal
applications
while
offering
fresh
perspectives
broader
facets.
Algal Research,
Journal Year:
2024,
Volume and Issue:
78, P. 103407 - 103407
Published: Jan. 29, 2024
The
term
“non-indigenous
species”
(NIS)
describes
creatures
that
have
colonized
previously
unoccupied
parts
of
the
globe.
They
enormous
ecological
and
economic
problems
everywhere
because
their
expanding
presence.
success
biological
invaders
in
this
setting
has
recently
been
a
hot
topic.
Of
thousands
marine
NIS
introduced
all
over
world,
seaweeds
(marine
macroalgae)
are
significant
part.
Global
investigations
conducted
past
ten
years
identified
>277
species
invasive
seaweeds.
More
than
100
seaweed
found
Europe,
northeastern
Atlantic
is
especially
renowned
for
harboring
large
number
these
species.
main
can
currently
be
waters
(Atlantic
Mediterranean)
Iberian
Peninsula
(including
respective
archipelagos)
will
topic
revision,
which
examine
processes
invasion
from
introduction
stage
vectors
to
success.
In
order
demonstrate
how
species,
endangering
ecosystem,
an
excellent
environmental
resource
bioactive
compounds
with
high
industrial
potential
socioeconomic
revenue,
management
as
well
uses
biofertilizers,
bioactivities,
feed,
food
were
also
addressed.
Comprehensive Reviews in Food Science and Food Safety,
Journal Year:
2024,
Volume and Issue:
23(4)
Published: June 25, 2024
Abstract
Seaweed
polysaccharides
are
natural
biomacromolecules
with
unique
physicochemical
properties
(e.g.,
good
gelling,
emulsifying,
and
film‐forming
properties)
diverse
biological
activities
anticoagulant,
antioxidant,
immunoregulatory,
antitumor
effects).
Furthermore,
they
nontoxic,
biocompatible
biodegradable,
abundant
in
resources.
Therefore,
have
been
widely
utilized
food,
cosmetics,
pharmaceutical
industries.
However,
their
bioactivities
sometimes
not
satisfactory
for
some
purposes.
Modification
of
can
impart
the
amphiphilicity
new
functions
to
biopolymers
change
structure
conformation,
thus
effectively
improving
functional
so
as
meet
requirement
targeted
applications.
This
review
outlined
modification
methods
representative
red
algae
(carrageenan
agar),
brown
(fucoidan,
alginate,
laminaran),
green
(ulvan)
that
potential
food
applications,
including
etherification,
esterification,
degradation,
sulfation,
phosphorylation,
selenylation,
on.
The
improved
modified
seaweed
applications
also
summarized.
Life,
Journal Year:
2023,
Volume and Issue:
13(9), P. 1831 - 1831
Published: Aug. 29, 2023
Diabetes
poses
a
significant
global
health
challenge,
necessitating
innovative
therapeutic
strategies.
Natural
products
and
their
derivatives
have
emerged
as
promising
candidates
for
diabetes
management
due
to
diverse
compositions
pharmacological
effects.
Algae,
in
particular,
garnered
attention
potential
source
of
bioactive
compounds
with
anti-diabetic
properties.
This
review
offers
comprehensive
overview
algae-derived
natural
management,
highlighting
recent
developments
future
prospects.
It
underscores
the
pivotal
role
care
delves
into
diversity
algae,
constituents,
underlying
mechanisms
efficacy.
Noteworthy
algal
substantial
are
briefly
elucidated,
along
specific
contributions
addressing
distinct
aspects
diabetes.
The
challenges
limitations
inherent
utilizing
algae
interventions
examined,
accompanied
by
strategic
recommendations
optimizing
effectiveness.
By
these
considerations,
this
aims
chart
course
research
refining
algae-based
approaches.
Leveraging
multifaceted
activities
chemical
components
holds
promise
pursuit
novel
antidiabetic
treatments.
Through
continued
fine-tuning
interventions,
burden
could
be
mitigated,
ultimately
leading
enhanced
patient
outcomes.
