ANTI MALARIALS FROM PLANTS
There are two new antimalarial plants , which
is found to be effective in curing malaria
From Brazil, Caesalpinia
pluviosa (stem bark) ethanol extract was effective against the two
main strains of the malaria parasite.
It’s important that
we continue to find new antimalarials because the parasite becomes resistant.
The current main therapy is ACT (artemisinin-based combination treatment),
introduced when the parasite became resistant to chloroquine, a quinine
derivative. Now artemisinin resistance is becoming increasingly common and no
new class of antimalarial has been introduced since 1996. The authors warn “the
discovery of new potential anti-malarial compounds is urgently needed.”
Caesalpinia is a legume with numerous local medicinal uses, many of which
have a rational basis. The plant is antiviral, antimicrobial, anti-inflammatory
and antioxidant. Apparently, it is also anti-malarial. In previous research,
the crude extract proved inactive. The current research started in
vitro testing various extracts against Plasmodium in
glassware. Finding activity, research moved to in vivo research
in infected mice. Chemical analysis showed that a new molecule, at first
thought to be quercitin, appears to be the most active compound against
malaria.
In the in
vitro test, two fractions were significantly effective. The crude
extract was not. In mice, the crude extract was somewhat effective, though not
as effective against chloroquine resistant malaria. The ethanol extract was
effective against both. What’s more, it was synergistic with the artemisinin
based drug artesunate, so the two together are more effective than the combined
effect of both. The plant extract alone was around 50% effective, artesunate
around 60% and the combination around 80%.
Halfway around the
world, in Senegal, an ethnopharmacological survey pointed to the local
medicinal plantIcacina senegalensis a native plant long used in
Senegal to treat malaria. Crude extract and various fractions proved
anti-plasmodial (Plasmodium is the malaria parasite) with no
toxicity.
Astonishingly, this is the first time the plant
has been tested, despite being the traditional remedy in perhaps the most
mosquito infested and malaria afflicted part of West Africa. “This is the first
scientific demonstration of the anti-plasmodial activity of I.
senegalensis leaf extracts in a standard in vitro assay
based on pLDH detection”
The crude methanol
extract and fractions were tested for both effectiveness and toxicity
(haemolytic effect). None of the extract fractions exhibited cytotoxicity to
the limit of detection. By far the most effective fraction was the nonpolar
(not water soluble) fraction of the methanol extract, with the polar fraction
being the least effective.
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