Industrial Crops and Products,
Journal Year:
2024,
Volume and Issue:
216, P. 118690 - 118690
Published: May 20, 2024
In
Vietnam,
"Sam
Bo
Chinh"
[Abelmoschus
sagittifolius
(Kurz.)
Merr.,
Malvaceae]
market
has
rapidly
expanded
following
the
COVID-19
pandemic
due
to
its
health
benefits.
Since
19th
century,
root
been
utilized
in
Traditional
Vietnamese
Medicine
with
properties
similar
fresh
Ginseng,
particularly
for
treating
fatigue,
neurasthenia,
sore
throat,
and
stomach
ache.
Similar
applications
of
are
documented
Chinese
Medicine,
but
leaf
fruit
also
employed
detoxification,
phlegm
expulsion,
liver
softening,
kidney
nourishment.
However,
further
evidence
is
required
assess
medicinal
value
explore
additional
avenues
development.
Articles
were
searched
on
PubMed,
CNKI,
Google
Scholar,
ResearchGate,
VISTA
using
four
commonly
used
synonyms
as
keywords.
Duplications
articles
other
species
then
screened
out.
Related
books,
articles,
websites
discussed.
The
unique
characteristics
that
distinctive
from
Malvaceae
species.
medicine
practitioners
describe
A.
qi
yin
tonifying
material.
Various
traditional
formulas
patents
illustrate
values
root,
leaf,
or
treat
digestive,
respiratory,
neuropsychological,
genitourinary
disorders.
Pharmacological
research
phytochemical
profiles
highlight
ability
be
an
adjuvant
treatment
post-COVID-19
symptoms
gastric
protection,
stamina
enhancement,
antioxidant,
anti-inflammatory,
anti-cancer
activities,
simultaneously,
they
suggest
more
potential
such
neuroprotection,
immunomodulatory
anti-hypertention.
Moreover,
cultivating
processing
techniques
simple.
So,
production
can
industrialized
developed
into
medicines
functional
foods.
plant
not
countries
well-studied,
so
a
rigorous
assessment
pharmacological
needed.
Its
have
different
uses
potential.
Molecules,
Journal Year:
2025,
Volume and Issue:
30(2), P. 284 - 284
Published: Jan. 13, 2025
Essential
oils
(EOs)
are
highly
valued
in
the
cosmetic
and
food
industries
for
their
diverse
properties.
However,
traditional
extraction
methods
often
result
low
yields,
inconsistent
compositions,
lengthy
times,
use
of
potentially
harmful
solvents.
Natural
deep
eutectic
solvents
(NADES)
have
emerged
as
promising
alternatives,
offering
advantages
such
higher
efficiency,
cost-effectiveness,
biodegradability,
tunable
This
review
explores
application
NADES
enhancing
EO
extraction,
focusing
on
current
methodologies,
key
insights,
practical
applications.
It
examines
factors
that
influence
with
NADES,
including
optimization
physicochemical
properties,
techniques,
operational
conditions,
role
sample
pretreatment
improving
efficiency.
Additionally,
this
covers
chemical
characterization
biological
activities
EOs
extracted
using
NADES.
By
providing
a
comprehensive
overview,
it
highlights
potential
to
improve
suggests
directions
future
research
field.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(13), P. 6879 - 6879
Published: June 22, 2024
Phytopathogenic
fungi
are
responsible
for
diseases
in
commercially
important
crops
and
cause
major
supply
problems
the
global
food
chain.
Plants
were
able
to
protect
themselves
from
disease
before
humans
played
an
active
role
protecting
plants.
They
known
synthesize
a
variety
of
secondary
metabolites
(SMs),
such
as
terpenes,
alkaloids,
phenolic
compounds,
which
can
be
extracted
using
conventional
unconventional
techniques
formulate
biofungicides;
plant
extracts
have
antifungal
activity
various
mechanisms
action
against
these
organisms.
In
addition,
they
considered
non-phytotoxic
potentially
effective
control.
sustainable
economically
viable
alternative
use
agriculture,
is
why
biofungicides
increasingly
recognized
attractive
option
solve
caused
by
synthetic
fungicides.
Currently,
organic
farming
continues
grow,
highlighting
importance
developing
environmentally
friendly
alternatives
crop
production.
This
review
provides
compilation
literature
on
biosynthesis,
phytopathogens,
extraction
formulation
biofungicides,
biological
phytopathogenic
fungi,
regulation,
advantages,
disadvantages
overview
current
agriculture.
Pharmaceuticals,
Journal Year:
2024,
Volume and Issue:
17(3), P. 355 - 355
Published: March 9, 2024
The
methods
and
solvents
employed
in
routine
extraction
protocols
essentially
impact
the
composition
of
resulting
extracts,
i.e.,
relative
abundances
individual
biologically
active
metabolites
quality
stability
isolates.
Natural
deep
eutectic
(NADESs)
represent
a
new
class
environmentally
friendly
solvents,
which
are
recognized
as
promising
extractants
alternative
to
conventional
organic
liquids.
However,
their
efficiencies
when
applied
different
workflows
still
poorly
characterized.
Therefore,
here,
we
compare
potential
three
for
natural
products
from
Aralia
elata
var.
mandshurica
with
selected
using
non-targeted
metabolomics
approach.
metabolite
profiling
relied
on
reversed-phase
ultra-high-performance
liquid
chromatography–high-resolution
mass
spectrometry
(RP-UHPLC-HR-MS).
roots
A.
were
extracted
by
maceration,
ultrasound-assisted
(UAE),
vibrocavitation-assisted
(VAE).
Principal
component
analysis
(PCA)
revealed
clear
separation
extracts
obtained
NADES1
(choline
chloride/malic
acid)
NADES2
(sorbitol/malic
acid/water).
Based
results
hierarchical
clustering
normalized
further
statistical
evaluation
t-test,
it
could
be
concluded
that
showed
superior
efficiency
all
addressed.
this
NADES
was
more
detail.
PCA
followed
t-test
yielded
only
3
efficiently
whereas
46
compounds
abundant
VAE.
When
VAE
UAE
compared,
108
appeared
VAE,
1
recovered
UAE.
These
facts
clearly
indicate
advantage
method
over
maceration
Seven
twenty-seven
tentatively
identified
tandem
(MS/MS)
found
first
time.
Additional
studies
necessary
understand
applicability
other
plant
materials.
PLoS ONE,
Journal Year:
2024,
Volume and Issue:
19(3), P. e0300969 - e0300969
Published: March 29, 2024
This
study
employed
novel
extraction
methods
with
natural
deep
eutectic
solvents
(NADES)
to
extract
bioactive
compounds
and
proteins
from
Bacopa
monnieri
leaves.
The
conditional
influence
of
ultrasonic-assisted
(UAE),
microwave-assisted
(MAE),
enzymatic-assisted
(EAE)
on
the
recovery
efficiency
phenolics,
proteins,
flavonoids,
terpenoids
was
evaluated.
conditions
UAE
were
50
mL/g
LSR,
600W
ultrasonic
power,
30%
water
content
40°C
for
1
min
obtain
highest
protein
contents.
MAE
40
400W
microwave
power
3
reach
contents
biological
compounds.
EAE
30
20
U/g
enzyme
concentration
L-Gly-Na
molar
ratio
at
2:4:1,
40%
60
acquire
compound
Scanning
electron
microscopy
(SEM)
is
analyze
surface
leaves
before
after
extraction.
Comparing
seven
conducted
find
most
favorable
ones.
result
showed
that
UMEAE
method
effective
way
exploit
suggested
effectively
extracts
terpenoids,
DBMP.
The
era
of
green
chemistry
has
prompted
extensive
exploration
into
novel
solvents
for
extracting
natural
products
(NPs)
as
alternatives
to
traditional
toxic
organic
solvents.
Recently,
deep
eutectic
(DESs)
have
emerged
promising
substitutes
NPs
extraction.
At
the
same
time,
extraction
techniques
are
being
replaced
reduce
energy
consumption,
improve
efficiency
and
meet
market
demands.
This
review
explores
synergistic
benefits
combining
DESs
with
modern
such
ultrasound-assisted
(UAE),
microwave-assisted
(MAE),
pressurized
liquid
(PLE),
enzyme-assisted
(EAE),
while
also
delving
factors
that
influence
process.
These
innovative
approaches
not
only
yield
time
but
help
preserve
bioactivity
extracted
compounds.
In
conclusion,
combination
demonstrates
significant
potential
bioactive
Ongoing
research
development
in
this
field
poised
unlock
new
applications
pharmaceutical,
food,
cosmetic
industries,
driving
innovation
product
methodologies.
