Royal Society of Chemistry eBooks,
Год журнала:
2024,
Номер
unknown, С. 251 - 285
Опубликована: Ноя. 15, 2024
The
encapsulation
of
active
pharmaceutical
ingredients
(APIs)
in
microbeads
is
an
essential
step
drug
delivery;
however,
it
also
inherently
associated
with
the
need
to
control
particle
size
and
release
profiles.
Nevertheless,
most
conventional
methods
microencapsulation
fail
provide
consistent
results.
A
new
method
called
vibration-assisted
microbead
coating
a
novel
unified
technique
utilizing
mechanical
vibrations
enable
controlled,
uniform
on
APIs.
This
chapter
discusses
technology
performed
by
authors
through
formation
physical
activity
focuses
achieving
final
coated
surface
API,
shape,
size,
loading
vibration
parameters.
Additionally,
this
biocompatibility
stability
surface.
means
has
high
potential
for
delivery.
reduces
traditional
challenges
encapsulation,
if
not
eliminates
them,
more
reliable.
Based
abovementioned
findings,
propose
following
main
areas
their
further
work:
optimisation
parameters
various
APIs,
research
into
long-term
loading–release
profile,
possible
use
targeted
Deleted Journal,
Год журнала:
2024,
Номер
2(1), С. 1326 - 1326
Опубликована: Июнь 18, 2024
In
this
study
the
ecotoxicity
of
3D
printing
material
[polylactic
acid
(PLA)
investigated
with
marine
echinoderm;
sea
urchin
Paracentrotus
lividus.
To
achieve
goal,
(i)
fertilization
success,
spermiyotoxicity
and
embriyotoxicity
exposed
to
PLA
concentrations
(0.001,
0.005,
0.01,
0.1
1
g/L)
were
assessed
for
72
h.
For
purpose,
our
is
important
make
comprehensive
evaluations
ensure
safety
bioplastic
formulations
take
measures
regulate
use
additives.
At
same
time,
additive
used
increase
durability
materials
will
also
allow
us
understand
long-term
effects
on
ecosystems,
wildlife
human
health.
Our
aim
minimize
possible
harm
that
overall
environmental
impact
bioplastics
remains
positive.
Deleted Journal,
Год журнала:
2024,
Номер
2(2), С. 1326 - 1326
Опубликована: Июль 18, 2024
In
this
study,
the
ecotoxicity
of
3D
printing
material
[polylactic
acid
(PLA)]
was
investigated
with
marine
echinoderms;
sea
urchin
Paracentrotus
lividus.
To
achieve
goal,
(i)
fertilization
success,
spermiyotoxicity,
and
embriyotoxicity
exposed
to
PLA
concentrations
(0.001,
0.005,
0.01,
0.1,
1
g/L)
were
assessed
for
72
h.
For
purpose,
our
study
is
important
make
comprehensive
evaluations
ensure
safety
bioplastic
formulations
take
measures
regulate
use
additives.
At
same
time,
additive
used
increase
durability
materials
will
also
allow
us
understand
long-term
effects
on
ecosystems,
wildlife,
human
health.
Our
aim
minimize
possible
harm
that
overall
environmental
impact
bioplastics
remains
positive.
Royal Society of Chemistry eBooks,
Год журнала:
2024,
Номер
unknown, С. 251 - 285
Опубликована: Ноя. 15, 2024
The
encapsulation
of
active
pharmaceutical
ingredients
(APIs)
in
microbeads
is
an
essential
step
drug
delivery;
however,
it
also
inherently
associated
with
the
need
to
control
particle
size
and
release
profiles.
Nevertheless,
most
conventional
methods
microencapsulation
fail
provide
consistent
results.
A
new
method
called
vibration-assisted
microbead
coating
a
novel
unified
technique
utilizing
mechanical
vibrations
enable
controlled,
uniform
on
APIs.
This
chapter
discusses
technology
performed
by
authors
through
formation
physical
activity
focuses
achieving
final
coated
surface
API,
shape,
size,
loading
vibration
parameters.
Additionally,
this
biocompatibility
stability
surface.
means
has
high
potential
for
delivery.
reduces
traditional
challenges
encapsulation,
if
not
eliminates
them,
more
reliable.
Based
abovementioned
findings,
propose
following
main
areas
their
further
work:
optimisation
parameters
various
APIs,
research
into
long-term
loading–release
profile,
possible
use
targeted