Graviola

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Graviola

 

http://www.rain-tree.com/graviola.htm

 

Family: Annonaceae

Genus: Annona

Species: muricata

 

Synonyms: Annona macrocarpa, A. bonplandiana, A. cearensis, Guanabanus

muricatus

 

Common names: Graviola, soursop, Brazilian paw paw, guanábana,

guanábano, guanavana, guanaba, corossol épineux, huanaba,

toge-banreisi, durian benggala, nangka blanda, cachiman épineux

Part Used: Leaves, fruit, seeds, bark, roots

 

 

From The Healing Power of Rainforest Herbs:

 

GRAVIOLA

HERBAL PROPERTIES AND ACTIONS

Main Actions Other Actions Standard Dosage

# kills cancer cells

# relieves depression

Leaves

# slows tumor growth

# reduces spasms

Infusion: 1 cup 3 times daily

# kills bacteria

# kills viruses

Tincture: 2-4 ml 3 times daily

# kills parasites

# reduces fever

Capsules: 2 g 3 times daily

# reduces blood pressure

# expels worms

 

# lowers heart rate

# stimulates digestion

 

# dilates blood vessels

# stops convulsions

 

# sedates

 

 

Graviola is a small, upright evergreen tree, 5–6 m high, with large,

glossy, dark green leaves. It produces a large, heart-shaped, edible

fruit that is 15–20 cm in diameter, is yellow-green in color, and has

white flesh inside. Graviola is indigenous to most of the warmest

tropical areas in South and North America, including the Amazon. The

fruit is sold in local markets in the tropics, where it is called

guanábana in Spanish-speaking countries and graviola in Brazil. The

fruit pulp is excellent for making drinks and sherbets and, though

slightly sour-acid, can be eaten out of hand.

Tribal & Herbal Medicine Uses

 

All parts of the graviola tree are used in natural medicine in the

tropics, including the bark, leaves, roots, fruit, and fruit seeds.

Different properties and uses are attributed to the different parts of

the tree. Generally, the fruit and fruit juice are taken for worms and

parasites, to cool fevers, to increase mother's milk after childbirth,

and as an astringent for diarrhea and dysentery. The crushed seeds are

used against internal and external parasites, head lice, and worms.

The bark, leaves, and roots are considered sedative, antispasmodic,

hypotensive, and nervine, and a tea is made for various disorders

toward those effects.

 

Graviola has a long, rich history of use in herbal medicine as well as

a lengthy recorded indigenous use. In the Peruvian Andes, a leaf tea

is used for catarrh (inflammation of mucous membranes) and the crushed

seed is used to kill parasites. In the Peruvian Amazon the bark,

roots, and leaves are used for diabetes and as a sedative and

antispasmodic. Indigenous tribes in Guyana use a leaf and/or bark tea

as a sedative and heart tonic. In the Brazilian Amazon a leaf tea is

used for liver problems, and the oil of the leaves and unripe fruit is

mixed with olive oil and used externally for neuralgia, rheumatism,

and arthritis pain. In Jamaica, Haiti, and the West Indies the fruit

and/or fruit juice is used for fevers, parasites and diarrhea; the

bark or leaf is used as an antispasmodic, sedative, and nervine for

heart conditions, coughs, flu, difficult childbirth, asthma,

hypertension, and parasites.

 

Plant Chemicals

 

Many active compounds and chemicals have been found in graviola, as

scientists have been studying its properties since the 1940s. Most of

the research on graviola focuses on a novel set of chemicals called

Annonaceous acetogenins. Graviola produces these natural compounds in

its leaf and stem, bark, and fruit seeds. Three separate research

groups have confirmed that these chemicals have significant

antitumorous properties and selective toxicity against various types

of cancer cells (without harming healthy cells) publishing eight

clinical studies on their findings. Many of the acetogenins have

demonstrated selective toxicity to tumor cells at very low dosages—as

little as 1 part per million. Four studies were published in 1998

which further specify the chemicals and acetogenins in graviola which

are demonstrating the strongest anticancerous, antitumorous, and

antiviral properties. In a 1997 clinical study, novel alkaloids found

in graviola fruit exhibited antidepressive effects in animals.

 

Annonaceous acetogenins are only found in the Annonaceae family (to

which graviola belongs). These chemicals in general have been

documented with antitumorous, antiparasitic, insecticidal, and

antimicrobial activities. Mode of action studies in three separate

laboratories have recently determined that these acetogenins are

superb inhibitors of enzyme processes that are only found in the

membranes of cancerous tumor cells. This is why they are toxic to

cancer cells but have no toxicity to healthy cells. Purdue University,

in West Lafayette, Indiana, has conducted a great deal of the research

on the acetogenins, much of which, has been funded by The National

Cancer Institute and/or the National Institute of Health (NIH). Thus

far, Purdue University and/or its staff have filed at least nine U.S.

and/or international patents on their work around the antitumorous and

insecticidal properties and uses of these acetogenins.

 

In 1997, Purdue University published information with promising news

that several of the Annonaceous acetogenins were " . . . not only are

effective in killing tumors that have proven resistant to anti-cancer

agents, but also seem to have a special affinity for such resistant

cells. " In several interviews after this information was publicized,

the head pharmacologist in Purdue's research explained how this

worked. As he explains it, cancer cells that survive chemotherapy can

develop resistance to the agent originally used as well as to other,

even unrelated, drugs. This phenomenon is called multi-drug resistance

(MDR). One of the main ways that cancer cells develop resistance to

chemotherapy drugs is by creating an intercellular pump which is

capable of pushing anticancer agents out of the cell before they can

kill it. On average, only about two percent of the cancer cells in any

given person might develop this pump—but they are the two percent that

can eventually grow and expand to create multi-drug-resistant tumors.

Some of the latest research on acetogenins reported that they were

capable of shutting down these intercellular pumps, thereby killing

multi-drug-resistant tumors. Purdue researchers reported that the

acetogenins preferentially killed multi-drug-resistant cancer cells by

blocking the transfer of ATP—the chief source of cellular energy—into

them. A tumor cell needs energy to grow and reproduce, and a great

deal more to run its pump and expel attacking agents. By inhibiting

energy to the cell , it can no longer run its pump. When acetogenins

block ATP to the tumor cell over time, the cell no longer has enough

energy to operate sustaining processes—and it dies. Normal cells

seldom develop such a pump; therefore, they don't require large

amounts of energy to run a pump and, generally, are not adversely

affected by ATP inhibitors. Purdue researchers reported that 14

different acetogenins tested thus far demonstrate potent ATP-blocking

properties (including several found only in graviola). They also

reported that 13 of these 14 acetogenins tested were more potent

against MDR breast cancer cells than all three of the standard drugs

(adriamycin, vincristine, and vinblastine) they used as controls.

 

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

 

Biological Activites and Clinical Research

 

In an 1976 plant screening program by the National Cancer Institute,

graviola leaves and stem showed active toxicity against cancer cells

and researchers have been following up on these findings since. Thus

far, specific acetogenins in graviola and/or extracts of graviola have

been reported to be selectively toxic in vitro to these types of tumor

cells: lung carcinoma cell lines; human breast solid tumor lines;

prostate adenocarcinoma; pancreatic carcinoma cell lines; colon

adenocarcinoma cell lines; liver cancer cell lines; human lymphoma

cell lines; and multi-drug resistant human breast adenocarcinoma.

Researchers in Taiwan reported in 2003 that the main graviola

acetogenin, annonacin, was highly toxic to ovarian, cervical, breast,

bladder and skin cancer cell lines at very low dosages saying; " . . .

annonacin is a promising anti-cancer agent and worthy of further

animal studies and, we would hope, clinical trials. "

An interesting in vivo study was published in March of 2002 by

researchers in Japan, 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. "

 

Current Practical Uses

 

Cancer research is ongoing on these important Annona plants and plant

chemicals, as several pharmaceutical companies and universities

continue to research, test, patent, and attempt to synthesize these

chemicals into new chemotherapeutic drugs. In fact, graviola seems to

be following the same path as another well known cancer drug – Taxol.

From the time researchers first discovered an antitumorous effect in

the bark of the pacific yew tree and a novel chemical called taxol was

discovered in its bark - it took thirty years of research by numerous

pharmaceutical companies, universities, and government agencies before

the first FDA-approved Taxol drug was sold to a cancer patient (which

was based on the natural taxol chemical they found in the tree bark).

With graviola, it has taken researchers almost 10 years to

successfully synthesize (chemically reproduce) the main antitumorous

chemical, annonacin. These acetogenin chemicals have a unique waxy

center and other unique molecular energy properties which thwarted

earlier attempts, and at least one major pharmaceutical company gave

up in the process (despite knowing how active the natural chemical was

against tumors). Now that scientists have the ability to recreate this

chemical and several other active acetogenins in the laboratory, the

next step is to change the chemical just enough (without losing any of

the antitumorous actions in the process) to become a novel chemical

which can be patented and turned into a new patented cancer drug.

(Naturally-occurring plant chemicals cannot be patented.) Thus far,

scientists seem to be thwarted again—every time they change the

chemical enough to be patentable, they lose much of the antitumorous

actions. Like the development of taxol, it may well take government

agenies like the National Cancer Institute and the National Institute

of Health to step forward and launch full-scale human cancer research

on the synthesized unpatentable natural plant chemical (which will

allow any pharmaceutical company to develop a cancer drug utilizing

the research as happened with taxol) to be able to make this promising

therapy available to cancer patients in a timely fashion.

 

In the meantime, many cancer patients and health practitioners are not

waiting… they are adding the natural leaf and stem of graviola (with

over 40 documented naturally-occurring acetogenins including

annonacin) as a complementary therapy to their cancer protocols. After

all, graviola has a long history of safe use as a herbal remedy for

other conditions for many years, and research indicates that the

antitumorous acetogenins are selectively toxic to just cancer cells

and not healthy cells—and in miniscule amounts. While research

confirms that these antitumorous acetogenins also occur in high

amounts in the fruit seeds and roots of graviola, different alkaloid

chemicals in the seeds and roots have shown some preliminary in vitro

neurotoxic effects. Researchers have suggested that these alkaloids

might be linked to atypical Parkinson's disease in countries where the

seeds are employed as a common herbal parasite remedy. Therefore,

using the seeds and root of graviola is not recommended at this time.

 

The therapuetic dosage of graviola leaf, (which offers just as high of

an amount of acetogenins as the root and almost as much as the seed)

is reported to be 2-3 grams taken 3 or 4 times daily. Graviola

products (capsules and tinctures) are becoming more widely available

in the U.S. market, and now offered under several different

manufacturer's labels in health food stores. As one of graviola's

mechanisms of action is to deplete ATP energy to cancer cells,

combining it with other supplements and natural products which

increase or enhance cellular ATP may reduce the effect of graviola.

The main supplement which increases ATP is a common antioxidant called

Coenzyme Q10 and for this reason, it should be avoided when taking

graviola.

 

Graviola is certainly a promising natural remedy and one that again

emphasizes the importance of preserving our remaining rainforest

ecosystems. Perhaps—if enough people believe that the possible cure

for cancer truly is locked away in a rainforest plant—we will take the

steps needed to protect our remaining rainforests from destruction.

One researcher studying graviola summarized this idea eloquently: " At

the time of preparation of this current review, over 350 Annonaceous

acetogenins have been isolated from 37 species. Our preliminary

efforts show that about 50%, of over 80 Annonaceous species screened,

are significantly bioactive and are worthy of fractionation; thus,

this class of compounds can be expected to continue to grow at an

exponential rate in the future, provided that financial support for

such research efforts can be found. With the demise of the world's

tropical rain forests, such work is compelling before the great

chemical diversity, contained within these endangered species, is lost. "

 

GRAVIOLA PLANT SUMMARY

Main Actions (in order):

anticancerous, antitumorous, antimicrobial, antiparasitic, hypotensive

(lowers blood pressure)

 

Main Uses:

 

1. for cancer (all types)

2. as a broad-spectrum internal and external antimicrobial to treat

bacterial and fungal infections

3. for internal parasites and worms

4. for high blood pressure

5. for depression, stress, and nervous disorders

 

Properties/Actions Documented by Research:

antibacterial, anticancerous, anticonvulsant, antidepressant,

antifungal, antimalarial, antimutagenic (cellular protector),

antiparasitic, antispasmodic, antitumorous, cardiodepressant, emetic

(causes vomiting), hypotensive (lowers blood pressure), insecticidal,

sedative, uterine stimulant, vasodilator

 

Other Properties/Actions Documented by Traditional Use:

antiviral, cardiotonic (tones, balances, strengthens the heart),

decongestant, digestive stimulant, febrifuge (reduces fever), nervine

(balances/calms nerves), pediculicide (kills lice), vermifuge (expels

worms)

 

Cautions: It has cardiodepressant, vasodilator, and hypotensive

(lowers blood pressure) actions. Large dosages can cause nausea and

vomiting. Avoid combining with ATP-enhancers like CoQ10.

 

 

Traditional Preparation: The therapeutic dosage is reported to be 2 g

three times daily in capsules or tablets. A standard infusion (one cup

3 times daily) or a 4:1 standard tincture (2–4 ml three times daily)

can be substituted if desired. See Traditional Herbal Remedies

Preparation Methods page if necessary for definitions.

 

Contraindications:

 

* Graviola has demonstrated uterine stimulant activity in an

animal study (rats) and should therefore not be used during pregnancy.

* Graviola has demonstrated hypotensive, vasodilator, and

cardiodepressant activities in animal studies and is contraindicated

for people with low blood pressure. People taking antihypertensive

drugs should check with their doctors before taking graviola and

monitor their blood pressure accordingly (as medications may need

adjusting).

* Graviola has demonstrated significant in vitro antimicrobial

properties. Chronic, long-term use of this plant may lead to die-off

of friendly bacteria in the digestive tract due to its antimicrobial

properties. Supplementing the diet with probiotics and digestive

enzymes is advisable if this plant is used for longer than 30 days.

* Graviola has demonstrated emetic properties in one animal study

with pigs. Large single dosages may cause nausea or vomiting. Reduce

the usage accordingly if this occurs.

* One study with rats given a stem-bark extract intragastrically

(at 100 mg/kg) reported an increase in dopamine, norepinephrine, and

monomine oxidase activity, as well as a inhibition of serotonin

release in stress-induced rats.

* Alcohol extracts of graviola leaf showed no toxicity or side

effects in mice at 100 mg/kg; however, at a dosage of 300 mg/kg, a

reduction in explorative behavior and mild abdominal constrictions was

observed. If sedation or sleepiness occurs, reduce the amount used.

 

Drug Interactions: None have been reported; however, graviola may

potentiate antihypertensive and cardiac depressant drugs. It may

potentiate antidepressant drugs and interfere with MAO-inhibitor

drugs. See contraindications above.

 

WORLDWIDE ETHNOMEDICAL USES

Brazil for abscesses, bronchitis, chest problems, cough, diabetes,

diarrhea, dysentery, edema, fever, intestinal colic, intestinal

parasites, liver problems, neuralgia, nervousness, pain, parasites,

rheumatism, spasms, worms

Caribbean for chills, fever, flu, indigestion, nervousness,

palpitations, rash, spasms, skin disease, and as a sedative

Curaçao for childbirth, gallbladder problems, nervousness, and as a

sedative and tranquilizer

Haiti for digestive sluggishness, coughs, diarrhea, fever, flu, heart

conditions, lactation aid, lice, nerves, parasites, pain, pellagra,

sores, spasms, weakness, wounds, and as a sedative

Jamaica for asthma, fevers, heart conditions, hypertension, lactation

aid, nervousness, parasites, spasms, water retention, weakness, worms,

and as a sedative

 

Malaysia for boils, coughs, diarrhea, dermatosis, hypertension,

rheumatism, and to reduce bleeding

Mexico for diarrhea, dysentery, fever, chest colds, ringworm, scurvy,

and to reduce bleeding

Panama for diarrhea, dyspepsia, kidney, stomach ulcers, worms

Peru for diabetes, diarrhea, dysentery, fever, hypertension,

indigestion, inflammation, lice, liver disorders, parasites, spasms,

tumors, ulcers (internal), and as a sedative

Trinidad for blood cleansing, fainting, flu, high blood pressure,

insomnia, lactation aid, palpitations, ringworms

U.S.A. for cancer, depression, fungal infections, hypertension,

intestinal parasites, tumors

West Indies for asthma, childbirth, diarrhea, hypertension, lactation

aid, parasites, worms

Elsewhere for arthritis, asthma, bile insufficiency, childbirth,

cancer, diarrhea, dysentery, fever, heart problems, kidney problems,

lactation aid, lice, liver disorders, malaria, pain, ringworm, scurvy,

stomach problems, and as a sedative

 

 

 

 

The above text has been printed from The Healing Power of

Rainforest Herbs by Leslie Taylor, copyrighted © 2005

All rights reserved. No part of this document may be reproduced or

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