Antimalarial Evaluation of Magnesium Nanoparticlres of Bioactive Compounds Derived From Crinum Jagus Rhizome
Kabir Salsabilu
No information about this author
Research Square (Research Square),
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 7, 2025
Abstract
Magnesium
Nanoparticles
(MgNPs),
are
biocompatible
and
have
shown
promise
in
various
biomedical
applications,
including
antimicrobial
antimalarial
treatments.
Synthesis
of
magnesium
nanoparticles
from
crude
extract
isolated
compound
crinum
jagus
rhizome
their
activity
were
reported.
mediated
by
characterized
UV-visible
spectroscopy,
SEM
TEM
analyses.
The
absorption
results
the
synthesized
showed
that
varies
slightly
across
wavelength
range
343
nm
to
353
nm,
with
a
peak
value
1.52934
at
345
nm.
data
for
(lupeol)
shows
significant
values
relatively
high,
where
absorbance
is
0.88005.
MgNPs
exhibited
best
(IC50
=
0.1310),
significantly
outperforming
both
lupeol-based
0.9103)
chloroquine
0.2762).
enhanced
extract-based
may
be
attributed
synergistic
effects
multiple
bioactive
compounds
present
extract.
observed
this
study
highlights
potential
combining
traditional
plant-based
medicine
nanotechnology.
lower
IC50
(0.1310)
compared
(0.2762)
demonstrate
promising
future
approach
overcoming
drug
resistance
improving
efficacy
Language: Английский
Evaluation and toxicity of Indian plant extracts to the larvae of the malaria vector Anopheles stephensi Liston 1901 (Diptera: Culicidae)
Subramanian Arivoli,
No information about this author
Samuel Tennyson
No information about this author
Journal of Natural Pesticide Research,
Journal Year:
2025,
Volume and Issue:
unknown, P. 100113 - 100113
Published: Jan. 1, 2025
Language: Английский