Page 59 - 78_01
P. 59
NURIA
E.
CAMPILO
y
col.
11.
Reyes--Chilpa,
R.,
Estrada--Muniz,
E.,
Vega--Avila,
E.,
Abe,
F.,
Kinjo,
J.,
&
Hernandez--Ortega,
S.
(2008).
Trypanocidal
constituents
in
plants:
7.
Mammea--type
coumarins.
Mem
Inst
Oswaldo
Cruz
103(5),
431--436.
12.
Flores,
N.,
Jimenez,
I.
A.,
Gimenez,
A.,
Ruiz,
G.,
Gutierrez,
D.,
Bourdy,
G.,
&
Bazzocchi,
I.
L.
(2008).
Benzoic
acid
derivatives
from
Piper
species
and
their
antiparasitic
activity.
J
Nat
Prod
71(9),
1538--1543.
13.
Batista,
J.
M.,
Jr.,
Lopes,
A.
A.,
Ambrosio,
D.
L.,
Regasini,
L.
O.,
Kato,
M.
J.,
Bolzani
Vda,
S.,
Cicarelli,
R.
M.,
&
Furlan,
M.
(2008).
Natural
chromenes
and
chromene
derivatives
as
potential
anti--trypanosomal
agents.
Biol
Pharm
Bull
31(3),
538--540.
14.
Lopes,
A.
A.,
Lopez,
S.
N.,
Regasini,
L.
O.,
Junior,
J.
M.,
Ambrosio,
D.
L.,
Kato,
M.
J.,
da
Silva
Bolzani,
V.,
Cicarelli,
R.
M.,
&
Furlan,
M.
(2008).
In
vitro
activity
of
compounds
isolated
from
Piper
crassinervium
against
Trypanosoma
cruzi.
Nat
Prod
Res
22(12),
1040--1046.
15.
Felippe,
L.
G.,
Baldoqui,
D.
C.,
Kato,
M.
J.,
Bolzani
Vda,
S.,
Guimaraes,
E.
F.,
Cicarelli,
R.
M.,
&
Furlan,
M.
(2008).
Trypanocidal
tetrahydrofuran
lignans
from
Peperomia
blanda.
Phytochemistry
69(2),
445--450.
16.
Vik,
A.,
Proszenyak,
A.,
Vermeersch,
M.,
Cos,
P.,
Maes,
L.,
&
Gundersen,
L.
L.
(2009).
Screening
of
agelasine
D
and
analogs
for
inhibitory
activity
against
pathogenic
protozoa;
identification
of
hits
for
visceral
leishmaniasis
and
Chagas
disease.
Molecules
14(1),
279--288.
17.
Rosa,
L.
H.,
Machado,
K.
M.,
Rabello,
A.
L.,
Souza--Fagundes,
E.
M.,
Correa--Oliveira,
R.,
Rosa,
C.
A.,
&
Zani,
C.
L.
(2009).
Cytotoxic,
immunosuppressive,
trypanocidal
and
antileishmanial
activities
of
Basidiomycota
fungi
present
in
Atlantic
Rainforest
in
Brazil.
Antonie
Van
Leeuwenhoek
95(3),
227--237.
18.
Abe,
F.,
Nagafuji,
S.,
Yamauchi,
T.,
Okabe,
H.,
Maki,
J.,
Higo,
H.,
Akahane,
H.,
Aguilar,
A.,
Jimenez--Estrada,
M.,
&
Reyes--Chilpa,
R.
(2002).
Trypanocidal
constituents
in
plants
1.
Evaluation
of
some
Mexican
plants
for
their
trypanocidal
activity
and
active
constituents
in
Guaco,
roots
of
Aristolochia
taliscana.
Biol
Pharm
Bull
25(9),
1188--1191.
19.
Abegaz,
B.
M.,
Bezabih,
M.,
Msuta,
T.,
Brun,
R.,
Menche,
D.,
Muhlbacher,
J.,
&
Bringmann,
G.
(2002).
Gaboroquinones
A
and
B
and
4'--O--demethylknipholone--4'--O--beta--D--
glucopyranoside,
phenylanthraquinones
from
the
roots
of
Bulbine
frutescens.
J
Nat
Prod
65(8),
1117--1121.
20.
Ambrosio,
S.
R.,
Arakawa,
N.
S.,
Esperandim,
V.
R.,
de
Albuquerque,
S.,
&
Da
Costa,
F.
B.
(2008).
Trypanocidal
activity
of
pimarane
diterpenes
from
Viguiera
arenaria
(Asteraceae).
Phytother
Res
22(10),
1413--1415.
21.
Sartorelli,
P.,
Carvalho,
C.
S.,
Reimao,
J.
Q.,
Ferreira,
M.
J.,
&
Tempone,
A.
G.
(2009).
Antiparasitic
activity
of
biochanin
A,
an
isolated
isoflavone
from
fruits
of
Cassia
fistula
(Leguminosae).
Parasitol
Res
104(2),
311--314.
22.
Vieira,
N.
C.,
Espindola,
L.
S.,
Santana,
J.
M.,
Veras,
M.
L.,
Pessoa,
O.
D.,
Pinheiro,
S.
M.,
de
Araujo,
R.
M.,
Lima,
M.
A.,
&
Silveira,
E.
R.
(2008).
Trypanocidal
activity
of
a
new
pterocarpan
and
other
secondary
metabolites
of
plants
from
Northeastern
Brazil
flora.
Bioorg
Med
Chem
16(4),
1676--1682.
23.
Chagas,
C.
(1909).
Nova
tripanozomiase
humana.
Estudos
sobre
a
morfologia
e
o
ciclo
evolutivo
do
Schizotrypanum
cruzi
n.
gen.,
n.
sp.,
agente
etiológico
de
nova
entidade
mórbida
do
homem.
Mem
Inst
Oswaldo
Cruz
1:
159--218.
24.
Food
and
Drug
Administration
(FDA).
http://www.fda.gov.
25.
Center
for
Disease
Control
and
Prevention.
Division
of
Parasitic
Diseases
(DPD),
Antiparasitic
treatment
of
Chagas
disease
Available
at.
http://www.cdc.gov/chagas/hcp/tx.html.
26.
Porcal,
W.,
Hernandez,
P.,
Boiani,
L.,
Boiani,
M.,
Ferreira,
A.,
Chidichimo,
A.,
Cazzulo,
J.
J.,
Olea--
Azar,
C.,
Gonzalez,
M.,
&
Cerecetto,
H.
(2008).
New
trypanocidal
hybrid
compounds
from
the
association
of
hydrazone
moieties
and
benzofuroxan
heterocycle.
Bioorg
Med
Chem
16(14),
6995--7004.
56
