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antitrypanosomal

Antitrypanosomal refers to drugs that act against Trypanosoma parasites, notably Trypanosoma brucei, which causes African trypanosomiasis (sleeping sickness), and Trypanosoma cruzi, which causes American trypanosomiasis (Chagas disease). These drugs are used in humans and, in many cases, in veterinary medicine. Treatments are stage- and subspecies-specific and require careful clinical decision-making.

In African trypanosomiasis, therapy depends on the subspecies and disease stage. Early, blood-borne infections (T. b.

For American trypanosomiasis, the main antitrypanosomal agents are nifurtimox and benznidazole. These drugs are most effective

Mechanisms of action differ among agents: eflornithine inhibits polyamine synthesis, while nifurtimox and benznidazole generate reactive

Overall, antitrypanosomal therapy requires species- and stage-appropriate regimens, with ongoing challenges in toxicity management, drug resistance,

gambiense
or
T.
b.
rhodesiense)
may
be
treated
with
suramin
(often
for
T.
b.
rhodesiense)
or
pentamidine
(for
T.
b.
gambiense).
Late-stage
disease
with
central
nervous
system
involvement
requires
drugs
that
cross
the
blood–brain
barrier.
Eflornithine,
sometimes
in
combination
with
nifurtimox
(NECT),
is
used
for
T.
b.
gambiense,
while
melarsoprol
is
reserved
for
cases
where
other
treatments
are
not
effective
or
available
due
to
its
significant
toxicity.
during
acute
infection
and
are
used
with
varying
success
in
chronic
cases.
Treatment
choices
consider
age,
clinical
status,
and
potential
adverse
effects,
such
as
dermatitis,
neuropathy,
and
gastrointestinal
symptoms.
oxygen
species
to
damage
parasite
components.
Suramin
and
pentamidine
disrupt
parasite
metabolism
but
are
not
effective
against
CNS
stages.
Safety
concerns
include
severe
toxicity
with
arsenical
melarsoprol,
which
limits
its
use,
and
a
range
of
tolerability
issues
with
other
drugs.
and
access
in
endemic
regions.