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We
also suggest for the Cancer diet, to include the Camu
Camu, because its high content of Vitamin C and
and Cats Claw two
powerful natural herbs that certainly will help with
your disease and are 100% Natural. We recently include in to your weapons as anti cancer herbs the Graviola Tea. ( this is the most natural and powerful way to fight against tumors and cancer cells.( Read a recent report of Purdue University about their findings in the Graviola leaves. |
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Mate
de Coca or coca leaves may help to reduce anxiety and help
with the treatments
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CANCER
A Natural
Treatment with
Graviola* ( Guanabana leaves)
(Annona
muricata )
Anti
cancerous, antitumoral, cellular protector, hypotensive
a
powerful Peruvian herbal remedy (used actually as fruit) a recent research
indicates that the antitumorous acetogenins are selectively toxic to
just cancer cells.The annonacin is main natural active substance. Graviola
may be used as a complementary therapy to cancer protocols
Graviola contains Annonaceous Acetogenins which have
remarkable cytotoxic, anti-tumor activities. Their research identified
more than 40 compounds with anti-cancer properties capable of killing
cancer cells. One of the compounds ‘bullatacin’ was reported to kill
multi-resistant cells on human mammary cancer cells by inhibiting the
production of an ATP (adenosine triphosphate) which is energy-carrying
molecules found in the cells of all living things, that is essential
to all cell processes.
In Peru there are several anti cancer herbs, medicinal herbs
or as an alternative cancer treatments but the Guanaba or the Graviola
Annonaceous acetogenins are effective in killing tumors
that have proven resistant to anti-cancer agents, but may also to destroy
it
Some of the most
powerful herbs are very useful for cancer alternative treatments:are
Graviola (Guanabana) , Cats Claw, Achiote,
Purple Corn, Camu
Camu
A Reserch
study held in Japan on March 2002 who were studying various acetogenins
found in several species of plants. They inoculated mice with lung cancer
cells. One third received nothing (the control group), one third received
the chemotherapy drug adriamycin, and one third received the main graviola
acetogenin, annonacin (at a dosage of 10 mg/kg). At the end of two weeks,
five of the six in the untreated control group were still alive and
lung tumor sizes were then measured. The adriamycin group showed a 54.6%
reduction of tumor mass over the control group—but 50% of the animals
had died from toxicity (three of six). The mice receiving annonacin
were all still alive, and the tumors were inhibited by 57.9%—slightly
better than adriamycin—and without toxicity. This led the researchers
to summarize;
“This suggested that annonacin was less toxic in mice. On considering
the antitumor activity and toxicity, annonacin might be used as a lead
to develop a potential anticancer agent.
The Annonaceous acetogenins discovered in graviola thus far include:
annocatalin, annohexocin, annomonicin, annomontacin, annomuricatin A
& B, annomuricin A thru E, annomutacin, annonacin, annonacinone,
annopentocin A thru C, cis-annonacin, cis-corossolone, cohibin A thru
D, corepoxylone, coronin, corossolin, corossolone, donhexocin, epomuricenin
A & B, gigantetrocin, gigantetrocin A & B, gigantetrocinone,
gigantetronenin, goniothalamicin, iso-annonacin, javoricin, montanacin,
montecristin, muracin A thru G, muricapentocin, muricatalicin, muricatalin,
muri-catenol, muricatetrocin A & B muricatin D, muricatocin A thru
C muricin H, muricin I, muricoreacin, murihexocin 3, murihexocin A thru
C, murihexol, murisolin, robustocin, rolliniastatin 1 & 2, saba-delin,
solamin, uvariamicin I & IV, xylomaticin
he studies, published in two separate journal articles, show that the
Graviola, also known as Paw paw, compounds not only are effective in
killing tumors that have resistance to anti-cancer agents, but also
seem to have a special affinity for such resistant cells. The findings
were detailed in the journal Cancer Letters and the Journal of Medicinal
Chemistry.
References:
Kim, G. S., et al. “Two new mono-tetrahydrofuran ring acetogenins, annomuricin
E and muricapentocin, from the leaves of Annona muricata.” J. Nat. Prod.
1998; 61(4): 432-36.
Nicolas, H., et al. “Structure-activity relationships of diverse Annonaceous
acetogenins against multidrug resistant human mammary adenocarcinoma
(MCF-7/Adr) cells.” J. Med. Chem. 1997; 40(13): 2102-6.
Zeng, L., et al. “Five new monotetrahydrofuran ring acetogenins from
the leaves of Annona muricata.” J. Nat. Prod. 1996; 59(11): 1035-42.
Wu, F. E., et al. “Two new cytotoxic monotetrahydrofuran Annonaceous
acetogenins, annomuricins A and B, from the leaves of Annona muricata.Chang,
F. R., et al. “Novel cytotoxic Annonaceous acetogenins from Annona muricata.”
J. Nat. Prod. 2001; 64(7): 925-31.
Jaramillo, M. C., et al. “Cytotoxicity and antileishmanial activity
of Annona muricata pericarp.” Fitoterapia. 2000; 71 (2): 183-6.
Betancur-Galvis, L., et al. “Antitumor and antiviral activity of Colombian
medicinal plant extracts.” Mem. Inst. Oswaldo Cruz. 1999; 94(4): 531-35.
Kim, G. S., et al. “Muricoreacin and murihexocin C, mono-tetrahydrofuran
acetogenins, from the leaves of Annona muricata.” Phytochemistry. 1998;
49(2): 565-71.” J. Nat. Prod. 1995; 58(6): 830-36.
Oberlies, N. H., et al. “Tumor cell growth inhibition by several Annonaceous
acetogenins in an in vitro disk diffusion assay.” Cancer Lett. 1995;
96(1): 55-62.
Wu, F. E., et al. “Additional bioactive acetogenins, annomutacin and
(2,4-trans and cis)-10R-annonacin-A-ones, from the leaves of Annona
muricata.” J. Nat. Prod. 1995; 58(9): 1430-37.
Wu, F. E., et al. “New bioactive monotetrahydrofuran Annonaceous acetogenins,
annomuricin C and muricatocin C, from the leaves of Annona muricata.”
J. Nat. Prod. 1995; 58(6): 909-5.
suggested dose : 2 tabs three times a day after two weeks discontinue
the treatment for (2) days then re-start again
*Do
not be used during pregnancy.
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