keskiviikko 18. syyskuuta 2019

Graviola aka Soursop, the cancer cell eliminator. US Patent Collection db Annonaceous Acetogenins


The most significant part of the Catholic University of South Korea report is that Soursop was shown to selectively target the cancer cells, leaving healthy cells untouched.

Unlike chemotherapy, which indiscriminately targets all actively reproducing cells (such as stomach and hair cells), causing the often devastating side effects of nausea and hair loss in cancer patients.

A study at Purdue University recently found that leaves from the Soursop tree killed
cancer cells among six human cell lines and were especially effective against prostate, pancreatic and lung cancers.



Graviola aka Soursop cancer cell eliminator.

US Patent Collection db Annonaceous  Acetogenins






PAT. NO.Title
110,407,439Full-TextStereochemically defined polypropionates and methods for making and using the same
210,392,396Full-Text1,5-disubstituted 1,2,3-triazoles are inhibitors of RAC/CDC42 GTPases
310,376,535Full-TextTherapy for malignant disease
410,314,918Full-TextJasmonate derivatives and compositions thereof
510,287,365Full-TextAnti-GD2 antibodies
610,272,241Full-TextMethods for modulating autophagy using remote ischemic conditioning
710,252,052Full-TextMethods relating to the use of remote ischemic conditioning
810,245,332Full-TextContrast agents for applications including perfusion imaging
910,167,341Full-TextHigh affinity anti-GD2 antibodies
1010,160,768Full-TextStereochemically defined polypropionates and methods for making and using the same
1110,125,106Full-TextContrast agents for myocardial perfusion imaging
1210,022,462Full-TextMethods and apparatus for synthesizing imaging agents, and intermediates thereof
139,981,980Full-Text1,5-Disubstituted 1,2,3-triazoles are inhibitors of Rac/Cdc42 GTPases
149,980,982Full-TextHE4 based therapy for malignant disease
159,931,412Full-TextTargeted theranostics
169,919,064Full-TextCompositions, methods, and systems for the synthesis and use of imaging agents
179,878,984Full-TextAnti-cancer compounds
189,849,138Full-Text1,4-benzodiazepone-2,5-diones and related compounds with therapeutic properties
199,775,871Full-TextHerbal compositions and methods for treating hepatic disorders
209,718,786Full-TextContrast agents for myocardial perfusion imaging
219,713,651Full-TextCompositions, methods, and systems for the synthesis and use of imaging agents
229,688,772Full-TextAnti-GD2 antibodies
239,687,571Full-TextStabilization of radiopharmaceutical compositions using ascorbic acid
249,618,513Full-TextCompositions and methods for detecting and treating colorectal cancer
259,603,951Full-TextMethods and apparatus for synthesizing imaging agents, and intermediates thereof
269,427,425Full-TextExtracts, fractions and compositions comprising acetogenins and their applications
279,408,927Full-TextContrast agents for applications including perfusion imaging
289,402,911Full-TextMultifunctional small molecules
299,315,585Full-TextAnti-GD2 antibodies
309,315,514Full-Text1,3-dioxanomorphides and 1,3-dioxanocodides
319,220,714Full-TextNitrofuran compounds for the treatment of cancer and angiogenesis
329,161,997Full-TextContrast agents for myocardial perfusion imaging
339,126,978Full-Text1,4-benzodiazepine-2,5-diones and related compounds with therapeutic properties
349,057,054Full-TextAntigen-specific long-term memory T-cells
358,945,508Full-TextDendrimer compositions and methods of synthesis
368,936,777Full-TextMethods and apparatus for synthesizing imaging agents, and intermediates thereof
378,912,323Full-TextMultifunctional small molecules
388,900,819Full-TextADRB2 cancer markers
398,829,025Full-TextAnti-cancer compounds
408,815,845Full-Text1,4-benzodiazepine-2,5-diones and related compounds with therapeutic properties
418,710,252Full-TextHepodxilin analog enantiomers
428,563,500Full-TextMethods and compounds for treating diseases caused by reactive oxygen species
438,552,054Full-TextFatty amine drug conjugates
448,470,815Full-TextNitrofuran compounds for the treatment of cancer and angiogenesis
458,420,665Full-TextAnti-cancer compounds
468,263,042Full-TextContrast agents for myocardial perfusion imaging
478,242,109Full-TextCompositions and methods relating to novel compounds and targets thereof
488,226,929Full-TextContrast agents for myocardial perfusion imaging
498,221,804Full-TextCompositions and methods for enhancing cognitive function
508,119,684Full-TextThiophene derivatives for up-regulating HLA-DM activity
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http://patft.uspto.gov/netacgi/nph-Parser?Sect1=PTO2&Sect2=HITOFF&p=1&u=%2Fnetahtml%2FPTO%2Fsearch-bool.html&r=0&f=S&l=50&TERM1=Annonaceous&FIELD1=&co1=AND&TERM2=Acetogenins&FIELD2=&d=PTXT

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PAT. NO.Title
518,097,612Full-TextCompositions and methods relating to novel compounds and targets thereof
528,088,749Full-TextCompositions and methods for treating cancer
538,071,654Full-TextInhibitors of thromboxane formation and action
548,058,003Full-TextADRB2 cancer markers
557,976,816Full-TextMethod for functionalizating carbon naontubes utilizing peroxides
567,968,294Full-TextSLIT2 underexpression in metastatic prostate cancer
577,923,041Full-TextCompositions and methods for enhancing cognitive function
587,893,304Full-TextHydroquinone long-chain derivatives and/or phenoxy long-chain derivatives, and pharmaceuticals comprising the same
597,851,465Full-TextCompositions and methods relating to novel compounds and targets thereof
607,824,659Full-TextMethods of making radiolabeled tracers and precursors thereof
617,816,398Full-TextFatty alcohol drug conjugates
627,794,965Full-TextMethod of identifying modulators of PP2A methylase
637,740,826Full-TextMethod for functionalizing carbon nanotubes utilizing peroxides
647,601,355Full-TextCompositions and methods for altering immune function
657,598,028Full-TextCompositions and methods for detecting and treating prostate disorders
667,576,123Full-TextAnti-first-pass effect compounds
677,485,283Full-TextContrast agents for myocardial perfusion imaging
687,476,680Full-TextSubstituted heterocyclic compounds for treating multidrug resistance
697,304,053Full-TextSubstituted heterocyclic compounds for treating multidrug resistance
707,230,027Full-TextAnti-first-pass effect compounds
717,223,792Full-TextCytotoxic annonaceous acetogenins from Annona muricata
727,153,885Full-TextStolonoxides
737,135,483Full-TextSubstituted heterocyclic compounds for treating multidrug resistance
747,125,533Full-TextMethod for functionalizing carbon nanotubes utilizing peroxides
757,037,937Full-TextCytotoxic compounds
767,005,274Full-TextMethods and compositions for diagnosing and treating arthritic disorders and regulating bone mass
776,991,818Full-TextCompound iso-squamocin obtained from seeds of annona squamosa and composition containing the same
786,734,207Full-TextCytotoxic compounds
796,693,099Full-TextSubstituted piperazine compounds optionally containing a quinolyl moiety for treating multidrug resistance
806,613,506Full-TextCompositions and methods for inhibiting human immunodeficiency virus infection by down-regulating human cellular genes
816,537,972Full-TextCompositions and methods for inhibiting human immunodeficiency virus infection by down-regulating human cellular genes
826,436,634Full-TextCompositions and methods for inhibiting human immunodeficiency virus infection by down-regulating human cellular genes
836,329,420Full-TextTubulin binding compounds (COBRA)
846,326,152Full-TextCompositions and methods for inhibiting human immunodeficiency virus infection by down-regulating human cellular genes
856,258,841Full-TextTubulin binding compounds (COBRA)
866,242,483Full-TextSelectively cytotoxic acetogenin compounds
876,150,540Full-TextVersatile intermediate for annonaceous acetogenins
886,071,743Full-TextCompositions and methods for inhibiting human immunodeficiency virus infection by down-regulating human cellular genes
895,955,497Full-TextBioactive acetogenins
905,914,410Full-TextIntermediates for annonaceous acetogenins
915,849,936Full-TextMethod for the synthesis of bis-tetrahydrofuranyl annonaceous acetogenins
925,739,358Full-TextSynthesis of acetogenins
935,717,113Full-TextBioactive acetogenins and derivatives
945,677,467Full-TextSynthesis of acetogenins
955,607,673Full-TextPurified extract of uvaria brevistipitata and a process for obtaining the purified extract therefor
965,587,491Full-TextMethod for the synthesis of bis-tetrahydrofuranyl Annonaceous acetogenins
975,536,848Full-TextBioactive acetogenins and derivatives
985,229,419Full-TextChemotherapeutically active acetogenins
994,855,319Full-TextControl of pests with annonaceous acetogenins
1004,721,727Full-TextControl of pests with annonaceous acetogenins
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GRAVIOLA CANCER SCIENTIFIC RESEARCH

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More about Candida:

  1. ___

Treat candida and inflammations yourself


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Soursop (also graviolaguyabano, and in Latin America
guanábana) is the fruit of Annona muricataa broadleaf, flowering, evergreen tree.[4][5] The exact origin is unknown; it is native to the tropical regions of the Americas and the Caribbean and is widely propagated.[6] It is in the same genus, Annona, as cherimoya and is in the Annonaceae family.

The soursop is adapted to areas of high humidity and relatively warm winters; temperatures below 5 °C (41 °F) will cause damage to leaves and small branches, and temperatures below 3 °C (37 °F) can be fatal. The fruit becomes dry and is no longer good for concentrate.

With aroma similar to pineapple,[5] the flavor of the fruit has been described as a combination of strawberries and apple, and sour citrus flavor notes, contrasting with an underlying creamy texture reminiscent of coconut or banana.
Soursop is widely promoted (sometimes as "graviola") as an alternative cancer treatment, but there is no medical evidence it is effective for treating cancer or any disease.[7]
Annona muricata (common Spanish name: guanábana) is a species of the genus Annona of the custard apple tree family, Annonaceae, which has edible fruit.[4][5] The fruit is usually called soursop due to its slightly acidic taste when ripe. Annona muricata is native to the Caribbean and Central America but is now widely cultivated – and in some areas, becoming invasive – in tropical and subtropical climates throughout the world.[4][5]
Annona muricata is a small, upright, evergreen tree that can grow to about 30 feet (9.1 m) tall.[4][5][8][9]
Its young branches are hairy.[9] Leaves are oblong to oval, 8 centimetres (3.1 in) to 16 centimetres (6.3 in) long and 3 centimetres (1.2 in) to 7 centimetres (2.8 in) wide. They are a glossy dark green with no hairs above, and paler and minutely hairy to no hairs below.[9] The leaf stalks are 4 millimetres (0.16 in) to 13 millimetres (0.51 in) long and without hairs.[9]
Flower stalks (peduncles) are 2 millimetres (0.079 in) to 5 millimetres (0.20 in) long and woody. They appear opposite from the leaves or as an extra from near the leaf stalk, each with one or two flowers, occasionally a third.[9] Stalks for the individual flowers (pedicels) are stout and woody, minutely hairy to hairless and 15 millimetres (0.59 in) to 20 millimetres (0.79 in) with small bractlets nearer to the base which are densely hairy.[9]
The petals are thick and yellowish. Outer petals meet at the edges without overlapping and are broadly ovate, 2.8 centimetres (1.1 in) to 3.3 centimetres (1.3 in) by 2.1 centimetres (0.83 in) to 2.5 centimetres (0.98 in), tapering to a point with a heart shaped base. They are evenly thick, and are covered with long, slender, soft hairs externally and matted finely with soft hairs within. Inner petals are oval shaped and overlap. They measure roughly 2.5 centimetres (0.98 in) to 2.8 centimetres (1.1 in) by 2 centimetres (0.79 in), and are sharply angled and tapering at the base. Margins are comparatively thin, with fine matted soft hairs on both sides. The receptacle is conical and hairy. The stamens are 4.5 millimetres (0.18 in) long and narrowly wedge-shaped. The connective-tip terminate abruptly and anther hollows are unequal. Sepals are quite thick and do not overlap. Carpels are linear and basally growing from one base. The ovaries are covered with dense reddish brown hairs, 1-ovuled, style short and stigma truncate.[9] Its pollen is shed as permanent tetrads.[10]
The fruits are dark green and prickly. They are ovoid and can be up to 30 centimetres (12 in) long,[9] with a moderately firm texture.[6] Their flesh is juicy, acid, whitish[6] and aromatic.[9]
The average weight of 1000 fresh seeds is 470 grams (17 oz) and they have an average oil content of 24%.[6][11] When dried for 3 days at 60 °C (140 °F), the average seed weight was 322 grams (11.4 oz). They are tolerant of the moisture extraction, showing no problems for long-term storage under reasonable conditions.[12]

The flesh of the fruit consists of an edible, white pulp, some fiber, and a core of indigestible black seeds. The pulp is also used to make fruit nectar, smoothies, fruit juice drinks, as well as candies, sorbets, and ice cream flavorings.[4][5] Due to the fruit's widespread cultivation, its derivative products are consumed in many countries like Mexico, Brazil, Venezuela, Colombia[14] and Fiji.[15] The seeds are normally left in the preparation, and removed while consuming, unless a blender is used for processing.
In Indonesiadodol sirsak, a sweetmeat, is made by boiling soursop pulp in water and adding sugar until the mixture hardens. Soursop is also a common ingredient for making fresh fruit juices that are sold by street food vendors. In the Philippines, it is called guyabano, derived from the Spanish guanábana, and is eaten ripe, or used to make juices, smoothies, or ice cream. Sometimes, they use the leaf in tenderizing meat. In Vietnam, this fruit is called mãng cầu Xiêm (Siamese Soursop) in the south, or mãng cầu (Soursop) in the north, and is used to make smoothies, or eaten as is. In Cambodia, this fruit is called tearb barung, literally "western custard-apple fruit."

In Malaysia, it is known in Malay as durian belanda (Dutch durian) and in East Malaysia, specifically among the Dusun people of Sabah, it is locally known as lampun. Popularly, it is eaten raw when it ripens, or used as one of the ingredients in Ais Kacang or Ais Batu Campur. Usually the fruits are taken from the tree when they mature and left to ripen in a dark corner, whereafter they will be eaten when they are fully ripe. It has a white flower with a very pleasing scent, especially in the morning. While for people in Brunei Darussalam this fruit is popularly known as "Durian Salat", widely available and easily planted.
The unripe fruit, sliced and marinated, is said to make an excellent fish substitute in vegan Caribbean cooking.[16]

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