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Cajanus cajan (Pegion pea)

Botanical Name :Cajanus cajan (Linn) Millsp.
Other scientific names:  Cystisus cajan, Cystisus pseudo-cajan  ,Cajan inodorum  ,Cajanus bicolor,Cajanus indicus
Family :Fabaceae

Genus: Cajanus
Species: C. cajan
Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Fabales

Synonyms:Cajanus indicus Spreng. (Valder 1895) and Cytisus cajan (Crawfurd 1852)

Common Names :Arhar, Red gram, Pigeon pea, Gablos (Tag.) ,Kadios (Mang., Tag., P. Bis.) ,Kagyos (Tag.) ,Kaldis (Ig., Ilk.)   Kagyas (Tag.) ,Kalios (Tag.) , Kardis (Ibn., Ilk., Ig.) ,Kidis (Ilk., Bon.) ,Kusia (Ig., If.) , Tabios (Bik., C. Bis.) ,Guandu (Brazil) .Pigeon pea (Engl.),toor dal or arhar dal (India), Congo pea or gungo pea (in Jamaica), Pois Congo (in Haiti), gandul (in Puerto Rico), gunga pea, or no-eye pea.   arhar dal  in Bengali


Habitat :
Probably native to India, pigeon pea was brought millennia ago to Africa where different strains developed. These were brought to the new world in post-Columbian times. Truly wild Cajanus has never been found; they exist mostly as remnants of cultivations. In several places Cajanus persists in the forest. The closest wild relative, Atylosia cajanifolia Haines, has been found in some localities in East India. Most other Atylosias are found scattered throughout India, while in North Australia a group of endemic Atylosia species grow. In Africa Cajanus kerstingii grows in the drier belts of Senegal, Ghana, Togo, and Nigeria. Pigeon peas occur throughout the tropical and subtropical regions, as well as the warmer temperate regions (as North Carolina) from 30°N to 30°S (Duke, 1981a). In settled areas throughout the Philippines: cultivated, semicultivated, and in some places, spontaneous.

Description:

It is  is a perennial herb.An erect, branched, hairy shrub, 1-2 meters high. Leaves are oblong-lanceolate to oblanceolate with three leaflets. Flowers are yellow, in sparse peduncled racemes, about 1.5 cm long. Pod is hairy, 4-7 cm long, 1 cm wide, containing 2-7 seeds.

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Cultivation:
The cultivation of the pigeon pea goes back at least 3000 years. The centre of origin is most likely Asia, from where it traveled to East Africa and by means of the slave trade to the American continent. Today pigeon peas are widely cultivated in all tropical and semi-tropical regions of both the Old and the New World. Pigeon peas can be of a perennial variety, in which the crop can last 3–5 years (although the seed yield drops considerably after the first two years), or an annual variety more suitable for seed production.

Pigeon peas are an important legume crop of rainfed agriculture in the semi-arid tropics. The Indian subcontinent, Eastern Africa and Central America, in that order, are the world’s three main pigeon pea producing regions. Pigeon peas are cultivated in more than 25 tropical and sub-tropical countries, either as a sole crop or intermixed with cereals such as sorghum (Sorchum bicolor), pearl millet (Pennisetium glaucum), or maize (Zea mays), or with other legumes, such as peanuts (Arachis hypogaea). Being a legume, the pigeon pea enriches soil through symbiotic nitrogen fixation.

The crop is cultivated on marginal land by resource-poor farmers, who commonly grow traditional medium- and long-duration (5–11 months) landraces. Short-duration pigeon peas (3–4 months) suitable for multiple cropping have recently been developed. Traditionally, the use of such input as fertilizers, weeding, irrigation, and pesticides is minimal, so present yield levels are low (average = 700 kg/ha). Greater attention is now being given to managing the crop because it is in high demand at remunerative prices.

Pigeon peas are very drought resistant and can be grown in areas with less than 650 mm annual rainfall.

World production of pigeon peas is estimated at 46,000 km2. About 82% of this is grown in India. These days it is the most essential ingredient of animal feed used in West Africa, most especially in Nigeria where it is also grown

Edible Uses: Vegetable food crop ( seeds and pods) in South-East Asia.Pigeon peas are both a food crop (dried peas, flour, or green vegetable peas) and a forage/cover crop. They contain high levels of protein and the important amino acids methionine, lysine, and tryptophan.  In combination with cereals, pigeon peas make a well-balanced human food. The dried peas may be sprouted briefly, then cooked, for a flavor different from the green or dried peas. Sprouting also enhances the digestibility of dried pigeon peas via the reduction of indigestible sugars that would otherwise remain in the cooked dried peas.

In India, split pigeon peas (toor dal) are one of the most popular pulses, being an important source of protein in a mostly vegetarian diet. In regions where it grows, fresh young pods are eaten as vegetable in dishes such as sambhar.

In Ethiopia, not only the pods but the young shoots and leaves are cooked and eaten.

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In some places, such as the Dominican Republic and Hawaii, pigeon peas are grown for canning and consumption. A dish made of rice and green pigeon peas (called “Moro de Guandules”) is a traditional food in Dominican Republic. Pigeon peas are also made as a stew, with plantain balls. In Puerto Rico, arroz con gandules is made with rice and pigeon peas and is a typical dish.

In Thailand, pigeon peas are grown as a host for scale insects which produce lac.

Pigeon peas are in some areas an important crop for green manure, providing up to 40 kg nitrogen per hectare. The woody stems of pigeon peas can also be used as firewood, fencing and thatch.

Nutrition
Used mainly for its edible young pods and seeds.

Chemical constituents :
Roots are considered antihelminthic, expectorant, febrifuge, sedative, vulnerary.
Seeds are rich in carbohydrates (58%) and proteins (19%).
Fair source of calcium and iron; good source of vitamin B.
Chemical studies reveal: 2′-2’methylcajanone, 2′-hydroxygenistein, isoflavones, cajanin, cahanones, among many others.

Analysis of dhal (without husk) gave the following values: moisture, 15.2; protein, 22.3; fat (ether extract), 1.7; mineral matter, 3.6; carbohydrate, 57.2; Ca, 9.1; and P, 0.26%; carotene evaluated as vitamin A, 220 IU and vitamin B1, 150 IU per 100 g. Sun-dried seeds of Cajanus cajan are reported to contain (per 100 g) 345 calories, 9.9% moisture, 19.5 g protein, 1.3 g fat, 65.5 g carbohydrate, 1.3 g fiber, 3.8 g ash, 161 mg Ca, 285 mg P, 15.0 mg Fe, 55 mg b-carotene equivalent, 0.72 mg thiamine, 0.14 mg riboflavin, and 2.9 mg niacin. Immature seeds of Cajanus cajan are reported to contain per 100 g, 117 calories, 69.5% moisture, 7.2 g protein, 0.6 g fat, 21.3 g total carbohydrate, 3.3 g fiber, 1.4 g ash, 29 mg Ca, 135 mg P, 1.3 mg Fe, 5 mg Na, 563 mg K, 145 mg b-carotene equivalent, 0.40 mg thiamine, 0.25 mg riboflavin, 2.4 mg niacin, and 26 mg ascorbic acid/100 g. Of the total amino acids, 6.7% is arginine, 1.2% cystine, 3.4% histidine, 3.8% isoleucine, 7.6% leucine, 7.0% lysine, 1.5% methionine, 8.7% phenylalanine, 3.4% threonine, 2.2% tyrosine, 5.0% valine, 9.8 aspartic acid, 19.2% glutamic acid, 6.4% alanine, 3.6% glycine, 4.4% proline, 5.0% serine with 0 values for canavanine, citrulline and homoserine. Methionine, cystine, and tryptophane are the main limiting amino acids. However, in combination with cereals, as pigeon peas are always eaten, this legume contributes to a nutritionally balanced human food. The oil of the seeds contains 5.7% linolenic acid, 51.4% linoleic, 6.3% oleic, and 36.6% saturated fatty acids. Seeds are reported to contain trypsin inhibitors and chymotrypsin inhibitors. Fresh green forage contains 70.4% moisture, 7.1 crude protein, 10.7 crude fiber, 7.9 N-free extract, 1.6 fat, 2.3 ash. The whole plant, dried and ground contains 1,1.2% moisture, 14.8 crude protein, 28.9 crude fiber, 39.9 N-free extract, 1.7 fat, and 3.5 ash. (Duke, 1981a)

Medicinal Uses:
Parts used
Leaves, roots.

Folkloric:-
*Decoction or infusionn of leaves for coughs, diarrhea, abdominal pains.
*Tender leaves are chewed for aphthous stomatitis and spongy gums.
*Pulped or poulticed leaves used for sores.
*In Peru, leaves are used as an infusion for anemial, hepatitis, diabetes, urinary infections and yellow fever.
*In Argentina, leaves used for genital and skin problems; flowers used for bronchitis, cough and pneumonia.
*In China, as vermifuge, vulnerary; for tumors.
*In Panama, used for treatment of diabetes (See study below).
*In Indian folk medicine, used for a variety of liver disorders.



Other Uses:

As forage or hay.
Branches and stems for basket and fuel. (Source)

Often grown as a shade crop for tree crops or vanilla, a cover crop, or occasionally as a windbreak hedge. In Thailand and N. Bengal, pigeon pea serves as host for the scale insect which produces lac or sticklac. In Malagasy the leaves are used as food for the silkworm. Dried stalks serve for fuel, thatch and basketry. (Duke, 1981a).

Studies:-
RBC Sickling Inhibition: StudyClinical studies have reported seed extracts to inhibit red blood cell sickling and potential benefit for people with sickle cell anemia.

• Antiplasmodial constituents of Cajanus cajan: Study isolated two stilbenes, longistylin A and C and betulinic acid from the roots and leaves of CC and showed moderately high in vitro activity against Plasmodium falcifarum strain.

• Stilbenes / Neuroprotective / Alzheimer’s Disease: Study of stilbenes containing extract-fraction from C cajan showed significant amelioration of cognitive deficits and neuron apoptosis. Findings suggest sECC has a potential in the development of therapeutic agent to manage cognitive impairment associated with Alzheimer’s disease through increase choline acetyltransferase activity and anti-oxidative mechanism.

• Hypocholesterolemic Effect: Study on the stilbenes containing extract-fraction of CC showed a hypocholesterolemic effect possibly through enhancement of hepatic LDL-receptor and cholesterol 7-alpha-hydroxylase expression levels and bile acid synthesis.

Hyperglycemic Effect: Evaluation of traditional medicine: effects of Cajanus cajan L. and of Cassia fistula L. on carbohydrate metabolism in mice: Contradicting its traditional use for diabetes, CC did not have a hypoglycemic effect on sugar, instead at higher doses, it produced a hyperglycemic effect.

Antimicrobial: Study shows the organic solvent extracts to inhibit E coli, S aureus and S typhi and the aqueous extract were inhibitory to E coli and S aureus.

• Antimicrobial / Antifungal: Nigerian study on the antimicrobial effects of the ethanol and aqueous extracts of locally available plants, including C cajan, showerd inhibition against S aureus, P aeruginosa, E coli and C albicans. The extracts of C cajam produced wider zones of inhibition against C albicans.

• Hyperglycemic Effect: Study of the aqueous extract of C cajan leaves showed a hyperglycemic effect, suggesting a usefulness incontrolling hypoglycemia that may be due to excess of insulin or other hypoglycemic drugs.

• Hepatoprotective: (1) Study of the methanol-aqueous fraction of C cajan leaf extract showed it could prevent the chronically treated alcohol induced rat liver damage and presents a promise as a non-toxic herb for therapeutic use in alcohol-induced liver dysfunction. (2) Study in mice with carbon tetrachloride-induced liver damage showed the methanol extracts of B orellana, C cajan, G pentaphylla and C equisetifolia showed significant decrease in levels of serum markers, indicating the protection of hepatic cells in a dose-dependent manner.

Disclaimer : The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplement, it is always advisable to consult with your own health care provider.

Resources:
http://en.wikipedia.org/wiki/Pigeon_pea
http://www.stuartxchange.com/Kadios.html
http://vaniindia.org.whbus12.onlyfordemo.com/herbal/plantdir.asp

http://www.hort.purdue.edu/newcrop/duke_energy/Cajanus_cajun.html

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Fruits & Vegetables Herbs & Plants

Passionfruit

Botanical Name:Passiflora edulis
Family:Passifloraceae
Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Malpighiales
Genus: Passiflora
Species: P. edulis

Other Names: Passiflora edulis, passion fruit.It is locally called Sohbrab in Meghalaya in India
Habitat: It is native to South America and widely grown in India, New Zealand, the Caribbean, Brazil, Ecuador, California, southern Florida, Hawaii, Australia, East Africa, Israel and South Africa. It’s cultivation has been extended to some areas of North-eastern region like Mizoram, Manipur, Nagaland and Sikkim.

Description:
The purple passion fruit (P. edulis) is a woody perennial vine with robust climber. The stems, tendrils and leaves are clear green without any trace of reddish or pinkish colour. The fruit is round or oval, 3 to 5 cm in diameter and deep purple when ripe. The yellow passion fruit (P. edulis f. flavicarpa) vine is much like that of the purple variety but is a more vigorous grower. It is distinguished by the suffusion of reddish, pinkish or purplish colour in stems, leaves and tendrils.The flowers have the scent of heliotropes.

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The passion fruit is round to oval, yellow or dark purple at maturity, with a soft to firm, juicy interior filled with numerous seeds. The fruit can be grown to eat or for its juice, which is often added to other fruit juices to enhance aroma.

The two types of passion fruit have greatly different exterior appearances. The bright yellow variety of passion fruit, which is also known as the Golden Passionfruit, can grow up to the size of a grapefruit, has a smooth, glossy, light and airy rind, and has been used as a rootstock for the purple passion fruit in Australia. The dark purple passion fruit (for example, in Kenya) is smaller than a lemon, with a dry, wrinkled rind at maturity.

The purple varieties of the fruit reportedly have traces of cyanogenic glycosides in the skin, and hence are mildly poisonous. However, the thick, hard skin is hardly edible, and if boiled (to make jam), the cyanide molecules are destroyed at high temperatures.

Cultivation details:
Requires a well-drained soil with plenty of moisture in the growing season, otherwise it is not fussy.

Plants are not very frost tolerant and are best grown in a greenhouse. However, the roots are somewhat hardier and can survive the winter outdoors in many areas of Britain if the soil is prevented from freezing. If plants are cut down to the ground by frost they can regenerate from the base. There is also the possibility of growing plants on rootstocks of P. caerulea which might make them hardier.

This species is often cultivated in warmer climes than Britain for its edible fruit, there are some named varieties. The fruit can be freely produced in Britain in hot summers.

Roots of outdoor grown plants should be restricted to encourage fruiting.

Any pruning is best carried out in the spring.

If fruit is required it is best to hand pollinate, using pollen from a flower that has been open for 12 hours to pollinate a newly opened flower before midday. The flowers open in sunny weather and do not open on dull cloudy days. The flowers have the scent of heliotropes.

A climbing plant, attaching itself to other plants by means of tendrils that are produced at the leaf axils.

Plants in this genus are notably resistant to honey fungus.
Propagation:
Pre-soak the seed for 12 hours in warm water and then sow late winter or early spring in a warm greenhouse. If sown in January and grown on fast it can flower and fruit in its first year[88]. The seed germinates in 1 – 12 months at 20°c. Prick out the seedlings into individual pots when they are large enough to handle. It you are intending to grow the plants outdoors, it is probably best to keep them in the greenhouse for their first winter and plant them out into their permanent positions in late spring or early summer, after the last expected frosts. Mulch the roots well in late autumn to protect them from the cold.

Cuttings of young shoots, 15cm with a heel, in spring.

Leaf bud cuttings in spring.

Cuttings of fully mature wood in early summer. Takes 3 months. High percentage.

Uses
*A glass of passion fruit juiceIn Australia, it is available commercially fresh and canned. In addition to being added to fruit salads, passion fruit is commonly used in desserts, such as the topping for the pavlova (a meringue cake), cheesecake, and vanilla slice. It is also used to flavour soft drinks such as Passiona and cordials.

*In the Dominican Republic, it is used to make juice, jams, the chinola flavoured syrup is used on shaved ice and it is also eaten raw sprinkled with sugar.

*In Puerto Rico, where its called Parcha, it is widely believed to lower blood pressure. This is probably because it contains harmala alkaloids and is a mild RIMA.

*In Brazil, passion fruit mousse is a common dessert, and passion fruit seeds are routinely used to decorate the tops of certain cakes. Passion fruit juice is also very common.

*In Indonesia it is eaten straight as a fruit. Nevertheless, it is common to strain the passionfruit for its juice and cook it with sugar to make some sort of thick syrup. It is then mixed with water and ice to be drunk.

*In Hawaii, where it is called lilikoi, it is normally eaten raw. Hawaiians usually crack the rind of the lilikoi either with their hands or teeth and suck out the flavorful pulp and seeds. Lilikoi can also be cut in half and the pulp can easily be scooped out with a spoon. Lilikoi flavoured syrup is a popular topping for shave ice. Ice cream and mochi are also flavoured with lilikoi, as well as many other desserts such as cookies, cakes, and ice cream. Lilikoi is also favored as a jam, jelly, as well as a butter. Lilikoi fruits are not widely available in stores, so most of the fruit eaten comes from backyard gardens or wild groves. They however can be found in farmers markets sprinkled throughout the islands.

*Passion fruit juice or syrup is an essential ingredient of some cocktails, particularly the hurricane and the Peruvian maracuya sour.

*In South Africa passion fruit is used to flavor yogurt. It is also used to flavour soft drinks such as Schweppes Sparkling Granadilla and numerous cordial drinks.

Passion fruit juice can be boiled down to a syrup, which is used in making sauce, gelatin desserts, candy, ice cream, sharbat, cake icing, cake filling, etc. There is a preference for the purple variety as fresh fruit and the yellow one for juice-making.

Nutrition
Fresh Passion Fruit is known to be high in vitamin A, Potassium and dietary fibre. The Yellow variety is used for juice processing, while the Purple variety is sold in fresh fruit markets. Passion fruit juice is a good source of ascorbic acid (vitamin C).
Medicinal Uses: There is currently a revival of interest in the pharmaceutical industry, especially in Europe, in the use of the glycoside, passiflorine, especially from P. incarnata L., as a sedative or tranquilizer. Italian chemists have extracted passiflorine from the air-dried leaves of P. edulis.

The pulp of the fruit is stimulant and tonic.
In Madeira, the juice of passionfruits is given as a digestive stimulant and treatment for gastric cancer.

You may click to see also:->
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Granadilla

Passion Fruit

Resources:
http://en.wikipedia.org/wiki/Passion_fruit
http://gbpihed.gov.in/envis/HTML/vol13_1/nrai.htm
http://www.ibiblio.org/pfaf/cgi-bin/arr_html?Passiflora+edulis
http://www.tradewindsfruit.com/passionfruit.htm

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Herbs & Plants

Noni

Wild noni growing in Kuliouou Valley'', Hawaii
Image via Wik

Botanical Name:Morinda citrifolia
Family: Rubiaceae

Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Gentianales
Genus: Morinda
Species: M. citrifolia
Common Names:commonly known as great morinda, Indian mulberry, beach mulberry, Tahitian noni, cheese fruit or noni (from Hawaiian) is a tree in the family Rubiaceae.
Habitat: Morinda citrifolia is native to Southeast Asia but has been extensively spread throughout the Indian subcontinent, Pacific islands, French Polynesia, and recently the Dominican Republic. Tahiti remains the most prominent growing location.

Description:

It grows to a height of up to 10 feet high, and the leaves are dark green and oval shaped. The flower heads grow to become mature yellow fruit that have a strong odor.

You may click to see the picture of  the tree

Click to see the picture of the fruit
Noni grows in shady forests as well as on open rocky or sandy shores. It reaches maturity in about 18 months and then yields between 4-8 kg of fruit every month throughout the year. It is tolerant of saline soils, drought conditions, and secondary soils. It is therefore found in a wide variety of habitats: volcanic terrains, lava-strewn coasts, and clearings or limestone outcrops. It can grow up to 9 m tall, and has large, simple, dark green, shiny and deeply veined leaves.

The plant flowers and fruits all year round and produces a small white flower. The fruit is a multiple fruit that has a pungent odor when ripening, and is hence also known as cheese fruit or even vomit fruit. It is oval and reaches 4-7 cm in size. At first green, the fruit turns yellow then almost white as it ripens. It contains many seeds. It is sometimes called starvation fruit. Despite its strong smell and bitter taste, the fruit is nevertheless eaten as a famine food and, in some Pacific islands, even a staple food, either raw or cooked. Southeast Asians and Australian Aborigines consume the fruit raw with salt or cook it with curry. The seeds are edible when roasted.

The noni is especially attractive to weaver ants, which make nests out of the leaves of the tree. These ants protect the plant from some plant-parasitic insects. The smell of the fruit also attracts fruit bats, which aid in dispersing the seeds.

Propagation of Noni
Noni is propagated either from seed or stem cuttings. The primary disadvantage of seed propagation is that without seed treatment, germination takes 6-12 months or more, whereas stem cuttings can be rooted in approximately 1-2 months. The disadvantage of producing plants vegetatively from cuttings is that they may not be as strong and disease-resistant as seedlings, and the trunk and branches may split and break during the first years of fruit production.

Nutrients
Nutritional information for noni fruit is reported by the College of Tropical Agriculture, University of Hawaii at Manoa who published analyses of fruit powder and pure juice.

Macronutrients
Analyzed as a whole fruit powder, noni fruit has excellent levels of carbohydrates and dietary fiber, providing 55% and 100% of the Dietary Reference Intakes (DRI), respectively, in a 100 g serving. A good source of protein (12% DRI), noni pulp is low in total fats (4% DRI]).

These macronutrients evidently reside in the fruit pulp, as noni juice has sparse amounts of macronutrients.

Micronutrients
The main micronutrient features of noni pulp powder include exceptional vitamin C content (10x DRI) and substantial amounts of niacin (vitamin B3), iron and potassium. Vitamin A, calcium and sodium are present in moderate amounts.

When noni juice alone is analyzed and compared to pulp powder, only vitamin C is retained at a high level, 42% of DRI.

Nutrient analyses for a major brand of noni juice (Tahitian Noni Juice, TNJ) were published in 2002 by the Scientific Committee on Food of the European Commission on Health and Consumer Protection during a test for public safety of TNJ. TNJ ingredients include noni purée and juice concentrates from grapes and blueberries.

For antimicrobial purposes, TNJ must be subjected to the high temperatures of pasteurization which essentially nullifies most of the nutrient content of the natural purée.

Excepting vitamin C content at 31% of DRI in each 100g, TNJ has limited nutritional content. 100g of juice provides 8% of the DRI for carbohydrates, only traces of other macronutrients and low or trace levels of 10 essential vitamins, 7 essential dietary minerals and 18 amino acids.

Although the most significant nutrient feature of noni pulp powder or juice is its high vitamin C content, this level in TNJ provides only about half the vitamin C of a raw navel orange. Sodium levels in TNJ (about 3% of DRI) are multiples of those in an orange. Although the potassium content appears relatively high for noni, this total is only about 3% of the Recommended Dietary Allowance and so would not be considered excessive. TNJ is otherwise similar in micronutrient content to a raw orange.

Phytochemicals
The history of published medical research on noni phytochemicals numbers only around a total of 120 reports which began appearing in the 1950s. Just since 2000, over 100 publications on noni have been published in medical literature (reviewed in August 2007), defining a relatively young research field. Noni research is at a preliminary stage, as it is mainly still in the laboratory as in vitro or basic animal experiments.

Noni fruit contains phytochemicals for which there are no established DRI values. Examples:

lignans – a group of phytoestrogens having biological activities shown by in vitro experiments.
oligo- and polysaccharides – long-chain sugar molecules that serve a prebiotic function as dietary fiber fermentable by colonic bacteria, yielding short chain fatty acids with numerous potential health properties not yet defined by scientific research on noni

flavonoids – phenolic compounds such as rutin and asperulosidic acid, common in several Rubiaceae plants
iridoids – secondary metabolites found in many plants
trisaccharide fatty acid esters, “noniosides” – resulting from combination of an alcohol and an acid in noni fruit
free fatty acids –
most prominent in noni fruit are caprylic and hexanoic acids, responsible for unique pungent (cheese-like) aroma of ripe noni fruit.
scopoletin – may have antibiotic activities; research is preliminary
catechin and epicatechin.
beta-sitosterol – a plant sterol with potential for anti-cholesterol activity not yet proven in human research
damnacanthal – a potentially toxic anthraquinone, putatively an inhibitor of HIV viral proteins
alkaloids – naturally occurring amines from plants. Some internet references mention xeronine or proxeronine as important noni constituents. However, as no reports on either of these substances exist in published medical literature, the terms are scientifically unrecognized. Further, chemical analysis of commercially processed juice did not reveal presence of any alkaloids.

Although there is evidence from in vitro studies and laboratory models for bioactivity of each of the above phytochemicals, the research remains at best preliminary and too early to conclude anything about human health benefits provided by noni or its juice. Furthermore, these phytochemicals are not unique to noni, as nearly all exist in various plant foods.

Laboratory experiments demonstrated that dietary noni juice increased physical endurance in mice. A pilot study in distance runners showed increased endurance capacity following daily intake of noni juice over three weeks, an effect the authors attributed to increased antioxidant status.

Uses:

Although noni’s reputation for uses in folk medicine extends over centuries, no medical applications as those discussed below have been verified by modern science.

In China, Samoa, Japan, and Tahiti, various parts of the tree (leaves, flowers, fruits, bark, roots) serve as tonics and to contain fever, to treat eye and skin problems, gum and throat problems as well as constipation, stomach pain, or respiratory difficulties. In Malaysia, heated noni leaves applied to the chest are believed to relieve coughs, nausea, or colic.

The noni fruit is taken, in Indochina especially, for asthma, lumbago, and dysentery. As for external uses, unripe fruits can be pounded, then mixed with salt and applied to cut or broken bones. In Hawaii, ripe fruits are applied to draw out pus from an infected boil. The green fruit, leaves and the root/rhizome have traditionally been used to treat menstrual cramps and irregularities, among other symptoms, while the root has also been used to treat urinary difficulties.

The bark of the great morinda produces a brownish-purplish dye for batik making; on the Indonesian island of Java, the trees are cultivated for this purpose. In Hawaii, yellowish dye is extracted from its root in order to dye cloth. The fruit is used as a shampoo in Malaysia, where it is said to be helpful against head lice.

There have been recent applications also for the use of oil from noni seeds. Noni seed oil is abundant in linoleic acid that may have useful properties when applied topically on skin, e.g., anti-inflammation, acne reduction, moisture retention.

In Surinam and some other countries, the tree serves as a wind-break, as support for vines and as shade for coffee trees.

In traditional Polynesian medicine, noni (Morinda citrifolia) fruit has been used for many health conditions, such as constipation, diarrhea, skin inflammation, infection, and mouth sores. It has an unpleasant odor and taste, so it is believed to be a last resort fruit by many cultures. Manufacturers today sweeten noni juice to improve the taste.

Traditionally, the leaves of the noni tree were used topically for healing wounds.

Noni juice, like the juice of many other fruits, is a source of vitamins, minerals and antioxidants. The antioxidants may help to prevent certain diseases and help slow age-related changes in the body.

Animal studies evaluating the effects of noni suggest that it may have anti-cancer, pain-relieving, and immune system-enhancing effects. However, these studies mostly used extremely high doses that would be difficult to obtain from taking the juice. More importantly, there’s insufficient reliable evidence about the safety or effectiveness of noni for any health condition in humans.

Noni is heavily promoted for a very wide variety of conditions, such as arthritis, atherosclerosis, bladder infections, boils, bowel conditions, burns, cancer, chronic fatigue syndrome, circulatory weakness, colds, cold sores, constipation, diabetes, drug addiction, eye inflammation, fever, fractures, gastric ulcers, gingivitis, headaches, heart disease, hypertension, improved digestion, immune weakness, indigestion, kidney disease, malaria, menstrual cramps, menstrual disorders, mouth sores, respiratory disorders, ringworm, sinusitis, skin inflammation, sprains, strokes, thrush, and wounds. There is no real evidence, however, that noni is effective for these conditions.

The Noni tree produces a tropical fruit that helps the body heal itself. For over 2000 years, Pacific Islanders have used the juice of the Noni fruit to improve their health in a multitude of ways. Western researchers have begun to confirm this ancient wisdom.

Safety:
There are no formally established side effects of noni juice. Due to the lack of evidence, noni should not be used by pregnant or nursing women, children, or people with liver or kManageidney disease.

Noni juice is high in potassium, so it should be avoided by people with kidney disease or those taking ,potassium-sparing diuretics, angiotensin-converting enzyme (ACE) inhibitors or angiotensin II receptor blockers, because it may result in hyperkalemia, the dangerous elevation of potassium levels.

Disclaimer:The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplements, it is always advisable to consult with your own health care provider.

Resources:
http://en.wikipedia.org/wiki/Noni
http://altmedicine.about.com/cs/herbsvitaminsad/a/Noni.htm
http://www.ctahr.hawaii.edu/noni/horticulture_production.asp
http://www.e-village.jp/opc/03evc/03tree00/40/index.html

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Ailmemts & Remedies

Nausea and Vomiting

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Alernative names:Alt Emesis; Vomiting; Stomach upset; Upset stomach

Definition :Nausea is the sensation of having an urge to vomit. Vomiting is forcing the contents of the stomach up through the esophagus and out of the mouth.

Considerations:Your body has a few main ways to respond to an ever-changing, wide variety of invaders and irritants. Sneezing ejects the intruders from the nose, coughing from the lungs and throat, diarrhea from the intestines, and vomiting from the stomach.

Nausea and vomiting are natural, possibly lifesaving, reactions to eating something dangerous or to illness. But occasionally they occur even when there’s no risk to health.

Vomiting is a forceful action accomplished by a fierce, downward contraction of the diaphragm. At the same time, the abdominal muscles tighten against a relaxed stomach with an open sphincter. The contents of the stomach are propelled up and out.

CLICK & SEE

You may have more saliva just before vomiting.

Vomiting is a complex, coordinated reflex orchestrated by the vomiting center of the brain. It responds to signals coming from:

The mouth, stomach, and intestines
The bloodstream, which may contain medicines or infections
The balancing systems in the ear (motion sickness)
The brain itself, including unsettling sights, smells, or thoughts
An amazing variety of stimuli can trigger vomiting, from migraines to kidney stones. Sometimes, just seeing someone else vomit will start you vomiting, in your body’s effort to protect you from possible exposure to the same danger.

Vomiting is common. Almost all children will vomit several times during their childhood. In most cases, it is due to a viral gastrointestinal infection.

Spitting up,  the gentle sloshing of stomach contents up and out of the mouth, sometimes with a burp, is an entirely different process. Some spitting up is normal for babies, and usually gets gradually better over time. If spitting up worsens or is more frequent, it might be reflux disease. Discuss this with your child’s doctor.

Most of the time, nausea and vomiting do not require urgent medical attention. However, if the symptoms continue for days, they are severe, or you cannot keep down any food or fluids, you may have a more serious condition.

Symptoms :

Dehydration is the main concern with most vomiting. How fast you become dehydrated depends on your size, frequency of vomiting, and whether you also have diarrhea.
Sweating and chills.

Common Causes:
The following are possible causes of vomiting:

Viral infections
Medications
Seasickness or motion sickness
Migraine headaches
Morning sickness during pregnancy
Food poisoning
Food allergies
Brain tumors
Chemotherapy in cancer patients
Bulimia
Alcoholism

These are possible causes of vomiting in infants (0 – 6 months):
Congenital pyloric stenosis, a constriction in the outlet from the stomach (the infant vomits forcefully after each feeding but otherwise appears to be healthy)
Food allergies or milk intolerance
Gastroenteritis (infection of the digestive tract that usually causes vomiting with diarrhea)
Gastroesophageal reflux
An inborn error of metabolism
Hole in the bottle nipple may be wrong size, leading to overfeeding
Infection, often accompanied by fever or runny nose
Intestinal obstruction, evidenced by recurring attacks of vomiting and crying or screaming as if in great pain
Accidentally ingesting a drug or poison.

Call the doctor immediately or take the child to an emergency care facility if you suspect poisoning or drug ingestion!

Home Care
It is important to stay hydrated. Try steady, small amounts of clear liquids, such as electrolyte solutions. Other clear liquids — such as water, ginger ale, or fruit juices — also work unless the vomiting is severe or it is a baby who is vomiting.

For breastfed babies, breastmilk is usually best. Formula-fed babies usually need clear liquids.

Do not drink too much at one time. Stretching the stomach can make nausea and vomiting worse. Avoid solid foods until there has been no vomiting for six hours, and then work slowly back to a normal diet.

An over-the-counter bismuth stomach remedy like Pepto-Bismol is effective for upset stomach, nausea, indigestion, and diarrhea. Because it contains aspirin-like salicylates, it should NOT be used in children or teenagers who might have (or recently had) chickenpox or the flu.

Most vomiting comes from mild viral illnesses. Nevertheless, if you suspect the vomiting is from something serious, the person may need to be seen immediately.

There is currently no treatment that has been approved by the FDA for morning sickness in pregnant women.

The following may help treat motion sickness:

Lying down
Over-the-counter antihistamines (such as Dramamine)
Scopolamine prescription skin patches (such as Transderm Scop) are useful for extended trips, such as an ocean voyage. Place the patch 4 – 12 hours before setting sail. Scopolamine is effective but may produce dry mouth, blurred vision, and some drowsiness. Scopolamine is for adults only. It should NOT be given to children.

What Else You Can Do

Lie down with a cool cloth on your forehead to relieve nausea. Focus on your breathing to prevent thinking about how you feel.

Supplement Recommendations:

Ginger
Dosage: 200 mg every 4 hours as needed.
Comments: Standardized to contain gingerols.

Peppermint Oil
Dosage: 1 enteric-coated capsule 3 times a day.
Comments: Each capsule should contain 0.2 ml peppermint oil.

Goldenseal
Dosage: 125 mg standardized extract every 4 hours as needed.
Comments: Don’t use during pregnancy or with high blood pressure.

Simple Home Remedy :
Powdered cinnamon and sliced ginger work by interrupting nausea signals sent from the stomach to the brain. If you are a herbal tea drinker, simply sprinkle powdered cinnamom on the tea and drink. You can also drink ginger-tea to check nausea.
CanTravel – Proven natural healing herbal motion sickness remedy
Motion Sickness Remedy – Home Treatment for Nausea and Vomiting.

Home Remedy For Nausea

10 Stomach-Soothing Solutions for Nausea

Call your health care provider if :
Call if the person has:

Vomiting longer than 24 hours
Blood or bile in the vomit
Severe abdominal pain
Headache and stiff neck
Signs of dehydration
Signs of dehydration include:

Increased thirst
Infrequent urination or dark yellow urine
Dry mouth
Eyes that appear sunken
Crying without tears
Loss of normal skin elasticity (if you touch or squeeze the skin, it doesn’t bounce back the way it usually does)
You should also call if:

A young child is lethargic or has marked irritability
An infant is vomiting repeatedly
A child is unable to retain any fluids for 8 hours or more
The vomiting is recurrent
An adult is unable to retain any fluids for 12 hours or more
Nausea persists for a prolonged period of time (in a person who is not pregnant)

The following diagnostic tests may be performed:

Blood tests (such as CBC with differential and basic electrolytes)
Urinalysis
X-rays of the abdomen
If dehydration is severe, you may need intravenous fluids. This may require hospitalization, although it can often be done in the doctor’s office. The use of antivomiting drugs (anti-emetics) is controversial, and they should be used only in severe cases.

Prevention:

Chewing a couple of cloves while traveling will relieve motion sickness.
A number of medicines are effective at preventing vomiting. Your doctor is unlikely to prescribe these because, in most situations, the vomiting is an important part of getting well. In some situations, however, preventing the vomiting makes life much better.

Disclaimer: This information is not meant to be a substitute for professional medical advise or help. It is always best to consult with a Physician about serious health concerns. This information is in no way intended to diagnose or prescribe remedies.

Source:http:www.nlm.nih.gov and www.rd.com

Categories
Fruits & Vegetables Herbs & Plants

Tamarind

Botanical Name : Tamarindus indica
Family: Fabaceae
Subfamily: Caesalpinioideae
Tribe: Detarieae
Genus: Tamarindus
Species: T. indica
Kingdom: Plantae
Order: Fabales

Synonyms: Imlee. Tamarindus officinalis (Hook).
Common Names: Tamarind, Imli, Tantul in Bengali

Part Used: The fruits freed from brittle outer part of pericarp.

Habitat:Tamarind is native to India; tropical Africa; cultivated in West Indies.

Description:  Of all the fruit trees of the tropics, none is more widely distributed nor more appreciated as an ornamental than the tamarind, Tamarindus indica L. (syns. T. occidentalis Gaertn.; T. officinalis Hook.), of the family Leguminosae. Most of its colloquial names are variations on the common English term. In Spanish and Portuguese, it is tamarindo; in French, tamarin, tamarinier, tamarinier des Indes, or tamarindier; in Dutch and German, tamarinde; in Italian, tamarandizio; in Papiamiento of the Lesser Antilles, tamarijn. In the Virgin Islands, it is sometimes called taman; in the Philippines, sampalok or various other dialectal names; in Malaya, asam jawa; in India, it is tamarind or ambli, imli, chinch, etc.; in Cambodia, it is ampil or khoua me; in Laos, mak kham; in Thailand, ma-kharm; in Vietnam, me. The name “tamarind” with a qualifying adjective is often applied to other members of the family Leguminosae having somewhat similar foliage.

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The tamarind, a slow-growing, long-lived, massive tree reaches, under favorable conditions, a height of 80 or even 100 ft (24-30 m), and may attain a spread of 40 ft (12 m) and a trunk circumference of 25 ft (7.5 m). It is highly wind-resistant, with strong, supple branches, gracefully drooping at the ends, and has dark-gray, rough, fissured bark. The mass of bright-green, fine, feathery foliage is composed of pinnate leaves, 3 to 6 in (7.5-15 cm) in length, each having 10 to 20 pairs of oblong leaflets 1/2 to 1 in (1.25-2.5 cm) long and 1/5 to 1/4 in (5-6 mm) wide, which fold at night. The leaves are normally evergreen but may be shed briefly in very dry areas during the hot season. Inconspicuous, inch-wide flowers, borne in small racemes, are 5-petalled (2 reduced to bristles), yellow with orange or red streaks. The flowerbuds are distinctly pink due to the outer color of the 4 sepals which are shed when the flower opens.

The fruits, flattish, beanlike, irregularly curved and bulged pods, are borne in great abundance along the new branches and usually vary from 2 to 7 in long and from 3/4 to 1 1/4 in (2-3.2 cm) in diameter. Exceptionally large tamarinds have been found on individual trees. The pods may be cinnamon-brown or grayish-brown externally and, at first, are tender-skinned with green, highly acid flesh and soft, whitish, under-developed seeds. As they mature, the pods fill out somewhat and the juicy, acidulous pulp turns brown or reddish-brown. Thereafter, the skin becomes a brittle, easily-cracked shell and the pulp dehydrates naturally to a sticky paste enclosed by a few coarse strands of fiber extending lengthwise from the stalk. The 1 to 12 fully formed seeds are hard, glossy-brown, squarish in form, 1/8 to 1/2 in (1.1-1.25 cm) in diameter, and each is enclosed in a parchmentlike membrane.

A mature tree may annually produce 330 to 500 lbs (150-225 kg) of fruits, of which the pulp may constitute 30 to 55%, the shells and fiber, 11 to 30 %, and the seeds, 33 to 40%

Food use :

The food uses of the tamarind are many. The tender, immature, very sour pods are cooked as seasoning with rice, fish and meats in India. The fully-grown, but still unripe fruits, called “swells” in the Bahamas, are roasted in coals until they burst and the skin is then peeled back and the sizzling pulp dipped in wood ashes and eaten. The fully ripe, fresh fruit is relished out-of-hand by children and adults, alike. The dehydrated fruits are easily recognized when picking by their comparatively light weight, hollow sound when tapped and the cracking of the shell under gentle pressure. The shell lifts readily from the pulp and the lengthwise fibers are removed by holding the stem with one hand and slipping the pulp downward with the other. The pulp is made into a variety of products. It is an important ingredient in chutneys, curries and sauces, including some brands of Worcestershire and barbecue sauce, and in a special Indian seafood pickle called “tamarind fish”. Sugared tamarind pulp is often prepared as a confection. For this purpose, it is desirable to separate the pulp from the seeds without using water. If ripe, fresh, undehydrated tamarinds are available, this may be done by pressing the shelled and defibered fruits through a colander while adding powdered sugar to the point where the pulp no longer sticks to the fingers. The seeded pulp is then shaped into balls and coated with powdered sugar. If the tamarinds are dehydrated, it is less laborious to layer the shelled fruits with granulated sugar in a stone crock and bake in a moderately warm oven for about 4 hours until the sugar is melted, then the mass is rubbed through a sieve, mixed with sugar to a stiff paste, and formed into patties. This sweetmeat is commonly found on the market in Jamaica, Cuba and the Dominican Republic. In Panama, the pulp may be sold in corn husks, palmleaf fiber baskets, or in plastic bags.

Tamarind ade has long been a popular drink in the Tropics and it is now bottled in carbonated form in Guatemala, Mexico, Puerto Rico and elsewhere. Formulas for the commercial production of spiced tamarind beverages have been developed by technologists in India. The simplest home method of preparing the ade is to shell the fruits, place 3 or 4 in a bottle of water, let stand for a short time, add a tablespoonful of sugar and shake vigorously. For a richer beverage, a quantity of shelled tamarinds may be covered with a hot sugar sirup and allowed to stand several days (with or without the addition of seasonings such as cloves, cinnamon, allspice, ginger, pepper or lime slices) and finally diluted as desired with ice water and strained.

In Brazil, a quantity of shelled fruits may be covered with cold water and allowed to stand 10 to 12 hours, the seeds are strained out, and a cup of sugar is added for every 2 cups of pulp; the mixture is boiled for 15 to 20 minutes and then put up in glass jars topped with paraffin. In another method, shelled tamarinds with an equal quantity of sugar may be covered with water and boiled for a few minutes until stirring shows that the pulp has loosened from the seeds, then pressed through a sieve. The strained pulp, much like apple butter in appearance, can be stored under refrigeration for use in cold drinks or as a sauce for meats and poultry, plain cakes or puddings. A foamy “tamarind shake” is made by stirring this sauce into an equal amount of dark-brown sugar and then adding a tablespoonful of the mixture to 8 ounces of a plain carbonated beverage and whipping it in an electric blender.

If twice as much water as tamarinds is used in cooking, the strained product will be a sirup rather than a sauce. Sometimes a little soda is added. Tamarind sirup is bottled for domestic use and export in Puerto Rico. In Mayaguez, street vendors sell cones of shaved ice saturated with tamarind sirup. Tamarind pulp can be made into a tart jelly, and tamarind jam is canned commercially in Costa Rica. Tamarind sherbet and ice cream are popular and refreshing. In making fruit preserves, tamarind is sometimes combined with guava, papaya or banana. Sometimes the fruit is made into wine.

Inasmuch as shelling by hand is laborious and requires 8 man-hours to produce 100 lbs (45 kg) of shelled fruits, food technologists at the University of Puerto Rico have developed a method of pulp extraction for industrial use. They found that shelling by mechanical means alone is impossible because of the high pectin and low moisture content of the pulp. Therefore, inspected and washed pods are passed through a shell-breaking grater, then fed into stainless steel tanks equipped with agitators. Water is added at the ratio of 1:1 1/2 or 1:2 pulp/water, and the fruits are agitated for 5 to 7 minutes. The resulting mash is then passed through a screen while nylon brushes separate the shells and seeds. Next the pulp is paddled through a finer screen, pasteurized, and canned.

Young leaves and very young seedlings and flowers are cooked and eaten as greens and in curries in India. In Zimbabwe, the leaves are added to soup and the flowers are an ingredient in salads.

Tamarind seeds have been used in a limited way as emergency food. They are roasted, soaked to remove the seedcoat, then boiled or fried, or ground to a flour or starch. Roasted seeds are ground and used as a substitute for, or adulterant of, coffee. In Thailand they are sold for this purpose. In the past, the great bulk of seeds available as a by-product of processing tamarinds, has gone to waste. In 1942, two Indian scientists, T. P. Ghose and S. Krishna, announced that the decorticated kernels contained 46 to 48% of a gel-forming substance. Dr. G. R. Savur of the Pectin Manufacturing Company, Bombay, patented a process for the production of a purified product, called “Jellose”, “polyose”, or “pectin”, which has been found superior to fruit pectin in the manufacture of jellies, jams, and marmalades. It can be used in fruit preserving with or without acids and gelatinizes with sugar concentrates even in cold water or milk. It is recommended as a stabilizer in ice cream, mayonnaise and cheese and as an ingredient or agent in a number of pharmaceutical products.

Food Value

Analyses of the pulp are many and varied. Roughly, they show the pulp to be rich in calcium, phosphorus, iron, thiamine and riboflavin and a good source of niacin. Ascorbic acid content is low except in the peel of young green fruits.

Other Uses

Fruit pulp: in West Africa, an infusion of the whole pods is added to the dye when coloring goat hides. The fruit pulp may be used as a fixative with turmeric or annatto in dyeing and has served to coagulate rubber latex. The pulp, mixed with sea water, cleans silver, copper and brass.

Leaves: The leaves are eaten by cattle and goats, and furnish fodder for silkworms–Anaphe sp. in India, Hypsoides vuilletii in West Africa. The fine silk is considered superior for embroidery.

Tamarind leaves and flowers are useful as mordants in dyeing. A yellow dye derived from the leaves colors wool red and turns indigo-dyed silk to green. Tamarind leaves in boiling water are employed to bleach the leaves of the buri palm (Corypha elata Roxb.) to prepare them for hat-making. The foliage is a common mulch for tobacco plantings.

Flowers: The flowers are rated as a good source of nectar for honeybees in South India. The honey is golden-yellow and slightly acid in flavor.

Seeds: The powder made from tamarind kernels has been adopted by the Indian textile industry as 300% more efficient and more economical than cornstarch for sizing and finishing cotton, jute and spun viscose, as well as having other technical advantages. It is commonly used for dressing homemade blankets. Other industrial uses include employment in color printing of textiles, paper sizing, leather treating, the manufacture of a structural plastic, a glue for wood, a stabilizer in bricks, a binder in sawdust briquettes, and a thickener in some explosives. It is exported to Japan, the United States, Canada and the United Kingdom.

Tamarind seeds yield an amber oil useful as an illuminant and as a varnish especially preferred for painting dolls and idols. The oil is said to be palatable and of culinary quality. The tannin-rich seedcoat (testa) is under investigation as having some utility as an adhesive for plywoods and in dyeing and tanning, though it is of inferior quality and gives a red hue to leather.

Wood: The sapwood of the tamarind tree is pale-yellow. The heartwood is rather small, dark purplish-brown, very hard, heavy, strong, durable and insect-resistant. It bends well and takes a good polish and, while hard to work, it is highly prized for furniture, panelling, wheels, axles, gears for mills, ploughs, planking for sides of boats, wells, mallets, knife and tool handles, rice pounders, mortars and pestles. It has at times been sold as “Madeira mahogany”. Wide boards are rare, despite the trunk dimensions of old trees, since they tend to become hollow-centered. The wood is valued for fuel, especially for brick kilns, for it gives off an intense heat, and it also yields a charcoal for the manufacture of gun-powder. In Malaysia, even though the trees are seldom felled, they are frequently topped to obtain firewood. The wood ashes are employed in tanning and in de-hairing goatskins. Young stems and also slender roots of the tamarind tree are fashioned into walking-sticks.

Twigs and barks: Tamarind twigs are sometimes used as “chewsticks” and the bark of the tree as a masticatory, alone or in place of lime with betelnut. The bark contains up to 7% tannin and is often employed in tanning hides and in dyeing, and is burned to make an ink. Bark from young trees yields a low-quality fiber used for twine and string. Galls on the young branches are used in tanning.

Lac: The tamarind tree is a host for the lac insect, Kerria lacca, that deposits a resin on the twigs. The lac may be harvested and sold as stick-lac for the production of lacquers and varnish. If it is not seen as a useful byproduct, tamarind growers trim off the resinous twigs and discard them.

Medicinal Uses:

Medicinal uses of the tamarind are uncountable. The pulp has been official in the British and American and most other pharmacopoeias and some 200,000 lbs (90,000 kg) of the shelled fruits have been annually imported into the United States for the drug trade, primarily from the Lesser Antilles and Mexico. The European supply has come largely from Calcutta, Egypt and the Greater Antilles. Tamarind preparations are universally recognized as refrigerants in fevers and as laxatives and carminatives. Alone, or in combination with lime juice, honey, milk, dates, spices or camphor, the pulp is considered effective as a digestive, even for elephants, and as a remedy for biliousness and bile disorders, and as an antiscorbutic. In native practice, the pulp is applied on inflammations, is used in a gargle for sore throat and, mixed with salt, as a liniment for rheumatism. It is, further, administered to alleviate sunstroke, Datura poisoning, and alcoholic intoxication. In Southeast Asia, the fruit is prescribed to counteract the ill effects of overdoses of false chaulmoogra, Hydnocarpus anthelmintica Pierre, given in leprosy. The pulp is said to aid the restoration of sensation in cases of paralysis. In Colombia, an ointment made of tamarind pulp, butter, and other ingredients is used to rid domestic animals of vermin.

Tamarindpepper rasam is also considered an effective home remedy for a cold in South India. Dilute 50 mg tamarind in 250 ml of water. Boil the diluted tamarind water for a few minutes with a teaspoon of hot ghee and half a teaspoon of black pepper powder. This steaming hot rasam has a flushing effect, and should be taken three times a day. As one takes it, the nose and eyes water and the nasal blockage is cleared.

Tamarind leaves and flowers, dried or boiled, are used as poultices for swollen joints, sprains and boils. Lotions and extracts made from them are used in treating conjunctivitis, as antiseptics, as vermifuges, treatments for dysentery, jaundice, erysipelas and hemorrhoids and various other ailments. The fruit shells are burned and reduced to an alkaline ash which enters into medicinal formulas. The bark of the tree is regarded as an effective astringent, tonic and febrifuge. Fried with salt and pulverized to an ash, it is given as a remedy for indigestion and colic. A decoction is used in cases of gingivitis and asthma and eye inflammations; and lotions and poultices made from the bark are applied on open sores and caterpillar rashes. The powdered seeds are made into a paste for drawing boils and, with or without cumin seeds and palm sugar, are prescribed for chronic diarrhea and dysentery. The seedcoat, too, is astringent, and it, also, is specified for the latter disorders. An infusion of the roots is believed to have curative value in chest complaints and is an ingredient in prescriptions for leprosy.

The leaves and roots contain the glycosides: vitexin, isovitexin, orientin and isoorientin. The bark yields the alkaloid, hordenine.

Disclaimer : The information presented herein is intended for educational purposes only. Individual results may vary, and before using any supplement, it is always advisable to consult with your own health care provider.

Resources:
https://en.wikipedia.org/wiki/Tamarind
http://www.hort.purdue.edu/newcrop/morton/tamarind.html

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