Food Science of Animal Resources,
Journal Year:
2024,
Volume and Issue:
45(1), P. 126 - 144
Published: Nov. 28, 2024
Rapid
population
growth
and
a
corresponding
increase
in
the
demand
for
animal-derived
proteins
have
led
to
food
supply
challenges
need
alternative
sustainable
meat
production
methods.
Therefore,
this
study
explored
importance
of
cell
engineering
technology-based
three-dimensional
bioprinting
bioinks,
which
play
key
roles
cultured
production.
In
production,
bioinks
significant
effect
on
growth,
differentiation,
mechanical
stability.
Hence,
study,
characteristics
animal-,
plant-,
marine-based
were
compared
analyzed,
impact
each
bioink
was
evaluated.
particular,
animal-based
potential
produce
that
is
similar
conventional
are
considered
most
suitable
commercialization.
Although
plant-
ecofriendly
fewer
religious
restrictions,
they
limited
terms
stability
consumer
acceptance.
further
research
required
develop
apply
optimal
commercialization
meat,
particularly
improve
its
compatibility.
Over
the
past
decade,
nanotechnology
has
gained
considerable
attention
among
academia
and
industry
professionals,
playing
a
pivotal
role
in
advancing
this
sector.
Chemical
functionalization
of
textiles
using
ushered
an
era
advanced
materials
with
superior
properties
functionalities.
This
Review
delves
into
current
progress
future
prospects
rapidly
evolving
field,
focusing
on
key
advancements
such
as
antimicrobial
properties,
UV
protection,
self-cleaning
capabilities,
enhanced
mechanical
strength,
smart
textiles.
provides
comprehensive
overview
15
years
functional
nanotechnology.
Several
types
nanomaterials
based
their
dimensions
functionalities
have
been
discussed
summarized.
Fabrication
techniques
electrospinning,
coating
technologies,
printing
methods
enabled
integration
textiles,
offering
benefits
like
improved
durability,
functionality.
While
brought
about
significant
positive
environmental
impacts
by
enhancing
textile
functionality,
there
are
also
concerns
regarding
potential
adverse
due
to
nanomaterial
leaching.
The
highlights
collaborative
efforts
professionals
developing
mitigation
strategies
exploration
biodegradable
nanomaterials,
which
being
used
address
these
challenges,
reassuring
audience
industry.
Journal of Manufacturing and Materials Processing,
Journal Year:
2025,
Volume and Issue:
9(4), P. 129 - 129
Published: April 14, 2025
Three-dimensional
(3D)
bioprinting
using
biocompatible
polymers
has
emerged
as
a
revolutionary
technique
in
tissue
engineering
and
regenerative
medicine.
These
biopolymers
mimic
the
extracellular
matrix
(ECM)
enhance
cellular
behavior.
The
current
review
presents
recent
advancements
additive
manufacturing
processes
including
Stereolithography
(SLA),
Fused
Filament
Fabrication
(FFF),
Selective
Laser
Sintering
(SLS),
inkjet
printing.
It
also
explores
fundamentals
of
3D
printing
properties
for
bioprinting.
By
mixing
biopolymers,
enhancing
rheological
characteristics,
adding
bioactive
components,
further
have
been
made
organ
transplantation,
drug
development,
engineering.
As
research
progresses,
potential
to
fundamentally
transform
healthcare
system
is
becoming
obvious
clear.
However,
therapeutic
printed
structures
hindered
by
issues
such
material
anisotropy,
poor
mechanical
properties,
need
more
biodegradable
architectures.
Future
should
concentrate
on
optimizing
process
sophisticated
computational
techniques,
systematically
examining
characteristics
customizing
bioinks
different
cell
types,
exploring
sustainable
materials.
