October Health Dictionary

October: From 1 Different Sources


(American) Born during autumn; born in the month of October Oktober, Octobar, Oktobar
Health Source: Medical Dictionary
Author: Health Dictionary

Indian Senna

Cassia senna

Caesalpiniaceae

San: Svarnapatri;

Hin: Sanay, Sana Ka Patt;

Ben: Sonamukhi;

Mal: Sunnamukki, Chonnamukki, Nilavaka;

Tam: Nilavirai, Nilavakai;

Tel: Netatangedu

Importance: Indian Senna or Tinnevelly senna is a shrub very highly esteemed in India for its medicinal value. The leaves are useful in constipation, abdominal disorders, leprosy, skin diseases, leucoderma, splenomegaly, hepatopathy, jaundice, helminthiasis, dyspepsia, cough, bronchitis, typhoid fever, anaemia, tumours and vitiated conditions of pitta and vata (Warrier et al,1994). It is used in Ayurvedic preparations; “Pancha Sakara Churna”, “Shat Sakara Churna” and “Madhu Yastyadi Churna” used for constipation. Its use is widespread in Unani system and some of the important products of this system containing senna are “Itrifal Mulayyin”, “Jawarish Ood Mulayyin”, “Hab Shabyar”, “Sufuf Mulliyin”, “Sharbat Ahmad Shahi”, etc. used as a mild laxative (Thakur et al, 1989).

Distribution: The plant is of Mediterranean origin. It is found in Somalia, Saudi Arabia, parts of Pakistan and Kutch area of Gujarat. It is largely cultivated in Tirunelveli, Ramanathapuram, Madurai and Salem districts of Tamil Nadu.

Botany: The genus Cassia, belonging to the family Caesalpiniaceae, comprises of a number of species, namely,

C. senna Linn. syn. C. angustifolia Vahl.

C. absus Linn.

C. alata Linn.

C. auriculata Linn.

C. burmanni Wight. syn. C. obovata (Linn.) Collad.

C. glauca Lam.

C. javanica Linn.

C. mimosoides Linn.

C. obtusifolia Linn. syn. C. tora Linn.

C. occidentalis Linn.

C. pumila Lam.

C. slamea Lam.

C. acutifolia Delile.

C. sophera Linn.

C. senna is a shrub or undershrub, 60-75cm in height with pale subterete or obtusely angled erect or spreading branches. Leaves are paripinnate. Leaflets are 5-8 in number, ovate-lanceolate and glabrous. Flowers are yellowish, many and arranged in axillary racemes. Fruits are flat legumes, greenish brown to dark brown and nearly smooth (Chopra et al,1980, Warrier et al,1994).

In commerce, the leaves and pods obtained from C. senna are known as “ Tinnevelly Senna” and those from C. acutifolia Delile. as “Alexandrian Senna”. The leaves of C. acutifolia are narrower than C. senna, otherwise both resemble to a large extent (Thakur et al, 1989). All the true Sennas have the portions of their leaves unequally divided. In some kinds the lower part of one side is reduced to little more than a line in breadth, while the other is from a quarter to half an inch in breadth. The drug known under the name of East Indian Senna is nearly free from adulteration; and as its properties appear identical with those of the Alexandrian and the price being less, it probably will supersede it in general practice. Its size and shape readily identify it (Graves, 1996).

Agrotechnology: The plant requires a mild subtropical climate with warm winters which are free from frost for its growth. Semiarid areas with adequate irrigation facilities are ideal for cultivation. Areas having high rainfall, humidity and poor drainage are not suitable. Light or medium loamy soils with adequate drainage and pH varying from 7.0-8.2 are preferable. In South India both summer and winter crops are possible. The plant is propagated by seeds. The seed rate required is 15-20kg/ha. Seeds are sown in October-November (winter rainfed crop) or in February-March (irrigated crop). Higher seed rate is required for unirrigated crop. Seeds are sown in lines 30cm apart. Application of 5-10t of FYM/ha before planting or raising a green manure crop is beneficial. About 40kg N and 25-50kg P2O5/ha applied as basal dressing and 40kg N/ha applied in 2 split dozes as top dressing gave better yield. While the rainfed crop is grown without irrigation, the irrigated crop requires 5-8 light irrigations during the entire growing season. The crop requires 2-3 weedings and hoeings in order to keep it free from weeds. Alternaria alternata causes leaf spot and dieback but the disease is not serious. In North India, the plant is attacked by the larvae of butterfly Catopsilia pyranthe which can be controlled by planting the crop in March-April instead of June-July. Under irrigated conditions, the first crop is obtained after 90 days of planting. The leaves are stripped by hand when they are fully green, thick and bluish-green in colour. The second crop is taken 4 weeks after the first harvest and the third 4-6 weeks after the second one. The last harvest of leaves is done when the entire crop is harvested along with the pods. Yield under irrigated conditions is nearly1.4t of leaves and 150kg pods/ha and under unirrigated conditions is 500-600kg leaves and 80-100kg pods/ha. The leaves are dried in thin layers under shade so as to retain the green colour and the pods are hung for 10-12 days to get dried. The leaves and pods are cleaned, graded and marketed (Husain et al, 1993).

Properties and Activity: Leaves contain glucose, fructose, sucrose and pinnitol. Mucilage consists of galactose, arabinose, rhamnose and galacturonic acid. Leaves also contain sennoside-C(8,8’- diglucoside of rhein-aloe-emodin-dianthrone). Pods contain sennosides A and B, glycoside of anthraquinones rhein and chrysophanic acid. Seeds contain -sitosterol (Husain et al, 1992). Leaves and pods also contain 0.33% -sterol and flavonols-kaempferol, kaempferin, and iso-rhamnetin. Sennoside content of C. acutifolia is higher ranging from 2.5% to 4.5% as compared to C. angustifolia ranging from 1.5 % to 2.5%.

The purgative activity of Senna is attributed to its sennosides. The pods cause lesser griping than the leaves. Leaf and pod is laxative. The leaves are astringent, bitter, sweet, acrid, thermogenic, cathartic, depurative, liver tonic, anthelmintic, cholagogue, expectorant and febrifuge.... indian senna

Ambrette

Abelmoschus moschatus

Malvaceae

San: Latakasturika Hin, Guj,

Ben: Mushkdana Mal: Kasthurivenda Mar: Kasthuri- bhendi

Tel: Kasturi benda

Tam: Varttilaikasturi

Kan: Kasturi bende Ass: Gorukhiakorai

Importance: Ambrette, also popularly known as musk or Muskmallow, is an erect annual herb which yields musk-like scented seeds and woos everybody through its sensuous musky fragrance. Every part of this medicinal plant is used in one or the other way. Seeds are effective aphrodisiac and antispasmodic, and used in tonics. They check vomiting and cure diseases due to kapha and vata and are useful in treating intestinal disorders, urinary discharge, nervous disorders, hysteria, skin diseases, snake bites, pruritus, leucoderma and general debility. Flower infusion is contraceptive. The leaves and roots are used for gonorrhoea and to treat boils and swellings.

Ambrette oil of commerce is extracted from the seeds and is used in perfumery, flavouring, cosmetic and agarbathi industries. The essential oil is employed in non-alcoholic beverages, ice-creams, candies and baked foods. The aromatic concrete and absolute, extracted from seeds are used as base material for preparing high grade perfumes, scents and cosmetics. It is also known for exalting, amplifying and diffusing effects it imparts to perfumes. It blends well with rose, neroli, and sandal wood oil and aliphatic aldehydes.

The flowers are in great demand for making ‘zarda’ a flavoured tobacco in India. The seeds are mixed with tea and coffee for flavour. The seed is rich in essential amino acids and is used as cattle or poultry feed. The stem bark yields a good quality fibre. Seeds are used to protect woollen garments against moth and it imparts a musky odour to sachets, hair powder, panmasala and incense. Its tender shoots are used in soups, green pods as vegetable and seed husk in flower arrangements. From perfumes to panmasalas and tonics, it is the musky musk all the way. In addition to internal consumption, its seeds are exported to Canada, France and UK because of its diversified uses (Srinivasan et al, 1997).

Distribution: The musk plant is a native of India and it grows in the tropical subtropical and hilly regions of the country; particularly in the states of Maharashta, Gujarat, Madhyapresh, Tamil Nadu and Kerala. More than 50 collections of the plant are maintained by the National Bureau of Plant Genetic Resources (NBPGR), New Delhi and its regional station in Akola, Maharashtra.

Botany: Abelmoschus moschatus Medicus syn. Hibiscus abelmoshus Linn. belongs to Family Malvaceae. Muskmallow is an erect annual or biennial hirsute or hispid herb of 60-180 cm height. The leaves are simple polymorphous, usually palmately 3-7 lobed; lobes narrow, acute or oblong-ovate, crenate, serrate or irregularly toothed, hairy on both surfaces. Flowers are large and bright yellow with purple centre. Fruits are fulvous, hairy and capsular. Seeds are many, subreniform, black or greyish - brown and musk scented (Husain et al, 1992).

Agrotechnology: Ambrette is a hardy plant which can be grown in varied climate under tropical and subtropical conditions. It can be grown both as a rainfed crop and as an irrigated crop. It grows on well drained loamy and sandy loam soils. Loamy soils with neutral pH and plenty of organic matter are ideal for its cultivation.

Musk of propagated through seeds. The optimum time of sowing is June-July with pre- monsoon showers. The land is prepared well by ploughing, harrowing and levelling. Well decomposed FYM or compost is incorporated into the soil at 10 - 15 t/ha. Ridges and furrows are formed giving a spacing of 60 - 100 cm. Seed rate is 2-3 kg/ha. Seeds are soaked in water before sowing for 24 hours. Two to three seeds are sown per hole at 60 cm spacing on one side of the ridge at a depth of 1 cm and covered with a pinch of sand or loose soil. It takes 5-7 days for proper germination. After germination, extra seedlings are thinned out leaving one healthy growing plant per hole within 20 days. Fertilisers are applied at 120:40:40 kg N, P2O5, K2O/ha generally. However, a dose 160:80:80 kg/ha is recommended for best yields of seed and oil. Phosphorus is applied fully as basal. N and K are applied in 3 equal doses at planting, 2 and 4 months after planting. Fertilizers are applied 10 cm away from the plants. For irrigated crop, field is irrigated soon after sowing. Irrigation is given twice a week during the initial period and once a week thereafter. The field is kept weed free by regular weeding during the growing period (Farooqi and Khan, 1991).

Musk plants suffer from pests like spider mites, fruit bores and leaf eating caterpillars. Diseases like powdery mildew and wilt are also observed on the plant. Spider mites and powdery mildew are controlled by spraying 30g wettable sulphur in 10 litres of water. Pod borers can be controlled by spraying 20ml oxydemeton methyl in 10 litres of water.

The crop starts flowering about 75 days after sowing. The flowers set into fruits in 3-4 days and the pods take nearly a month to mature. Flowering and fruit setting extends from October to April. Harvesting is arduous. Fruits have to be plucked as soon as they attain black colour; otherwise, they split and seeds scatter. Therefore, weekly collection of pods is necessary and in all 20-25 pluckings may be required as it is a 170-180 days duration crop. The fruits are further dried and threshed to separate seeds. The seed yield is 1-1.5 /ha

Postharvest technology:. The oil is extracted from seed by steam distillation followed by solvent extraction.

The concrete of solvent extraction is further extracted with alcohol to get the absolute, that is, the alcohol soluble volatile concentrate.

Properties and activity: The fatty oil of seeds contain phospholipids as 2 - cephalin, phosphatidylserine and its plasmalogen and phosphatidyl choline plasmalogen. Absolute contains farnesol and ambrettolic acid lactone. - sitosterol and its - d - glucosides are isolated from leaves. Petals contain -sitosterol, flavonoid myricetin and its glucoside. Anthocyanins like cyanidin - 3 - sambubioside and cyanidin - 3 - glucoside are present in the flowers. (Chopra and Nayar, 1980) Seeds are aphrodisiac, antispasmodic, diuretic, demulcent, antiseptic, stomachic, tonic, carminative, antihysteric, antidiarrhoeal, ophthalmic, cardiac and antivenum.... ambrette

Parainfluenza Viruses

These are included in the paramyxoviruses (see MYXOVIRUSES) and divided into four types, all of which cause infection of the respiratory system (see RESPIRATION). Infection with type 3 begins in May, reaches a maximum in July or August and returns to base-line level in October. Types 1 and 2 are predominantly winter viruses. Children are commonly affected and the manifestations include CROUP, fever, and a rash.... parainfluenza viruses

Smallpox

So-called to distinguish the disease from syphilis, the great pox (pox being the plural of pock, the Old English term for a PUSTULE), is also known as variola (from varus, the Latin for pimple). It is an acute, highly infectious disease due to a virus. Once it was one of the major killing diseases; however, in the 1960s the World Health Organisation undertook an eradication scheme by means of mass VACCINATION. As a result, the last naturally occurring case was recorded in October 1977, and on 8 May 1980 the World Health Assembly con?rmed that smallpox has ?nally been eradicated from the world.... smallpox

Bacup

Bacup stands for the British Association of Cancer United Patients and their families and friends. It was founded by Dr Vicky Clement-Jones after she was treated for ovarian cancer, and it became fully operational on 31 October 1985. The aim of the Association is to provide an information service to cancer patients who want to know more about their illness or who need practical advice on how to cope with it. It does not seek to replace the traditional relationship between the doctor and patient, nor does it recommend speci?c treatment for particular patients; rather, its aim is to help patients to understand more about their illness so that they can communicate more e?ectively and freely with their medical advisers and their families and friends.

See www.cancerbacup.org.uk... bacup

Belladonna Poisoning

Atropa belladonna (deadly nightshade) is a relatively rare plant and severe poisoning is not common. The berries, which are black, ripen from August to October and are the most commonly ingested part of the plant. However, all parts of the plant are toxic. The berries contain ATROPINE and other unidenti?ed ALKALOIDS, the leaves HYOSCINE and atropine, and the roots hyoscine. All these alkaloids have an ANTICHOLINERGIC e?ect which may cause a dry mouth, dilated pupils with blurred vision, TACHYCARDIA, HALLUCINATIONS and PYREXIA. There may also be ATAXIA, agitation, disorientation and confusion. In severe cases there may be CONVULSIONS, COMA, respiratory depression and ARRHYTHMIA. Clinical effects may be delayed in onset for up to 12 hours, and prolonged for several days. Treatment is supportive.... belladonna poisoning

Benefits Of Pygeum Bark Tea

Try an herbal tea from Africa - pygeum bark tea. Despite its bitter, slightly unpleasant taste, this tea is becoming quite popular. It has plenty of health benefits which will surely help you stay healthy. Find out more about pygeum bark tea and give it a try! About Pygeum Bark Tea Pygeum bark tea is made from the bark of the pygeum tree, an evergreen tree which belongs to the rose family. It grows in central and southern Africa, although it has become endangered due to the large demands for the tree’s bark. A mature tree can be as tall as 25m. The bark is black-brown and scaly, with alternate, simple and long dark green leaves. The flowers bloom from October to May; they are androgynous and greenish-white. The fruit is red-brown, rather wide but not big (about 1cm) and has two lobs, with a seed in each one. The fruit can be used as food both for humans and animals. The wood can be used to make tools, or build homes. How to prepare Pygeum Bark Tea There are two ways in which you can make pygeum bark tea. One involves chopped bark; add it to a cup of freshly-boiled water and let it steep for 10-15 minutes. For the other, you can use the powdered form of the pygeum; you add it to a cup of boiled water, letting it steep for 3-5 minutes. Pygeum bark tea is known to be pretty bitter. If the taste is too much for you, sweeten it with milk, honey or fruit juice. Pygeum Bark Tea Benefits A few important active constituents that are transferred from the pygeum bark to the tea are: beta-sitosterol, ursolic acid, oleanic acid and ferulic acid. Pygeum bark tea can be drunk by men, as it has important health benefits for them. It is often added in the treatment for benign prostatic hyperplasia. It is also recommended in the case of male infertility, as it increases the quantity and quality of the sperm. It can even be used as an aphrodisiac, as it enhances the sexual performance. Pygeum bark tea is used to treat urinary tract infections (cystitis, prostatitis); it also increases the urinary function. You can drink pygeum bark tea if you’ve got symptoms of bronchitis, influenza, or various other respiratory infections. This tea will also help you if you’ve got a fever. An interesting benefit is related to hair: drinking pygeum bark tea is quite useful in the treatment for hair loss. The infusion can be applied on wet hair, after it’s been washed with shampoo. Try it if you’ve got these problems. Pygeum Bark Tea Side Effects If you’re pregnant or breast feeding, it is best not to drink pygeum bark tea; it can affect the baby in both cases. Also, it’s safer not to give it to children, either. It might neutralize the effects of various types of medication. Make sure you talk to your doctor first if you’re taking any kind of medication; he will tell you if it’s safe or not to drink pygeum bark tea. Also, drinking too much pygeum bark tea might not be good for you. It might lead to stomach discomfort, diarrhea, constipation, nausea, dizziness, headaches, or visual disturbances. Don’t let its bitter taste scare you - pygeum bark tea is good for your health. It is especially recommended for men, but it can be useful for women, as well.... benefits of pygeum bark tea

Tola

(Polish / Cambodian) Form of Toinette, meaning “priceless and highly praiseworthy; a flourishing flower” / born during October Tolah, Tolla, Tollah... tola

Bael

Aegle marmelos

Rutaceae

San: Bilva, Sriphal Hin, Ben, Ass: Bael Mal: Koovalam

Tam: Vilvam Mar,

Ben: Baela

Tel: Marendu, Bilvapondu

Guj: Bilviphal

Kan: Bilvapatra

Importance: Bael or Bengal quince is a deciduous sacred tree, associated with Gods having useful medicinal properties, especially as a cooling agent. This tree is popular in ‘Shiva’ and ‘Vishnu’ temples and it can be grown in every house. Its leaves are trifoliate symbolizing the ‘Thrimurthies’-Brahma, Vishnu, Shiva, with spear shaped leaflets resembling “Thrisoolam” the weapon of Lord Shiva. Many legends, stories and myths are associated with this tree. The leaflets are given to devotees as ‘prasadam’ in Shiva temples and as ‘Tulasi’ in Vishnu temples.

Every part of the tree is medicinal and useful. The roots are used in many Ayurvedic medicines for curing diabetes and leprosy. It is an ingredient of the ‘dasamoola’. The Bark is used to cure intestinal disorders. Leaves contain an alkaloid rutacin which is hypoglycaemic.

‘Two leaves before breakfast’ is said to keep diabetes under control. Leaves and fruits are useful in controlling diarrhoea and dysentery. Fruit pulp is used as ‘shampoo’ and cooling agent. It is also a rich source of carbohydrate, protein, fat, fibre, minerals and vitamin B and C. Fruit pulp is used to cure mouth ulcers as it is the richest natural source of riboflavin (1191 units/ 100 g). ‘Bael sharbat’ is prepared by mixing the fruit pulp with sugar, water and tamarind juice, which is very useful for stomach and intestinal disorders. The rind of the fruit is used for dyeing and tanning. The aromatic wood is used to make pestles in oil and sugar mills and also to make agricultural implements (Rajarajan, 1997).

Distribution: Bael tree is native to India and is found growing wild in Sub-Himalayan tracts from Jhelum eastwards to West Bengal, in central and south India. It is grown all over the country, especially in the premises of temples and houses.

Botany: Aegle marmelos (Linn.) Corr.ex Roxb. belongs to the citrus family Rutaceae. The golden coloured bael fruit resembles a golden apple and hence the generic name Aegle. The specific name marmelos is derived from marmelosin contained in the fruit (Nair, 1997). Aegle marmelos is a medium sized armed deciduous tree growing upto 8m in height with straight sharp axillary thorns and yellowish brown shallowly furrowed corky bark. Leaves are alternate, trifoliate and aromatic; leaflets ovate or ovate-lanceolate, crenate, pellucid- punctate, the laterals subsessile and the terminal long petioled. Flowers are greenish-white, sweet scented, borne on axillary panicles. Fruit is globose, woody berry with golden yellow rind when ripe. Seeds are numerous oblong, compressed and embedded in the orange brown sweet gummy pulp.

Agrotechnology: Bael comes up well in humid tropical and subtropical climate. It grows on a wide range of soils from sandy loam to clay loam. North Indian varieties are preferred to South Indian types for large scale cultivation. Twelve varieties are cultivated in North India for their fruits. Kacha, Ettawa, Seven Large, Mirsapuri and Deo Reo Large are varieties meant specially for ‘Sharbat’. The plant is propagated mainly by seeds and rarely by root cuttings. Seeds are freshly extracted from ripe fruits after removing the pulp and then dried in sun. Seeds are soaked in water for 6 hours and sown on seed beds which are covered with rotten straw and irrigated regularly. Seeds germinate within 15-20 days. One month old seedlings can be transplanted into polybags which can be planted in the field after 2 months. Budded or grafted plants as well as new saplings arising from injured roots can also be used for planting. Grafted plants start yielding from the 4th year while the trees raised from seeds bear fruits after 7-10 years. Planting is done in the main field with onset of monsoon in June-July at a spacing of 6-8m. Pits of size 50cm3 are dug. Pits are filled with a mixture of top soil and 10kg of well decomposed FYM and formed into a heap. Seedlings are transplanted in the middle of the heap and mulched. Chemical fertilisers are not usually applied. The dose of organic manure is increased every year till 50kg/tree of 5 years or more. Regular irrigation and weeding are required during early stages of growth. No serious pests and diseases are noted in the crop. Bael tree flowers during April. The flowers are aromatic with pleasant and heavenly odour. The fruits are set and slowly develop into mature fruits. Fruits are seen from October-March. A single tree bears 200-400 fruits each weighing 1-2 kg. Roots can be collected from mature trees of age 10 years or more. Tree is cut down about 1m from the ground. The underground roots are carefully dug out. Roots with the attached wood is then marketed (Rajarajan,1997).

Properties and activity: Bael is reported to contain a number of coumarins, alkaloids, sterols and essential oils. Roots and fruits contain coumarins such as scoparone, scopoletin, umbelliferone, marmesin and skimmin. Fruits, in addition, contain xanthotoxol, imperatorin and alloimperatorin and alkaloids like aegeline and marmeline identified as N-2-hydroxy-2- 4 - (3’,3’-dimethyl allyloxy) phenyl ethyl cinnamide. - sitosterol and its glycoside are also present in the fruits. Roots and stem barks contain a coumarin - aegelinol. Roots also contain psoralen, xanthotoxin, 6,7-dimethoxy coumarin, tembamide, mermin and skimmianine. Leaves contain the alkaloids - O-(3,3-dimethyl allyl)-halfordinol, N-2-ethoxy-2 (4-methoxy phenyl) ethyl cinnamide, N-2-methoxy-2-(4-3’,3’-dimethyl allyloxy) phenyl ethyl cinnamide, N- 2-4-(3’,3’-dimethyl allyloxy) phenyl ethyl cinnamide, N-2-hydroxy-2- 4-(3’,3’-dimethyl allyloxy) phenyl ethyl cinnamide, N-4-methoxy steryl cinnamide and N-2-hydroxy-2-(4- hydroxy phenyl) ethyl cinnamide. Mermesinin, rutin and -sitosterol - -D-glucoside are also present in the leaves (Husain et al, 1992).

Root, bark, leaves and fruits are hypoglycaemic, astringent and febrifuge. Root, stem and bark are antidiarrhoeal and antivenin. Leaf is antiinflammatory, expectorant, anticatarrhal, antiasthamatic, antiulcerous and ophthalmic. Flower is emetic. Unripe fruit is stomachic and demulcent. Ripe fruit is antigonorrhoeal, cardiotonic, restorative, laxative, antitubercular, antidysenteric and antiscorbutic. Seed is anthelmintic and antimicrobial (Warrier et al, 1993).... bael

Boneset

Eupatorium perfoliatum. N.O. Compositae.

Synonym: Indian Sage, Thoroughwort.

Habitat: Damp places.

Features ? One or more erect stems, branched at top. Leaves opposite, lanceolate, four to six inches long, united at base, crenate edges, tiny, yellow resin dots beneath. Flowers August to October. Persistently bitter taste.

Part used ? Herb.

Action: Diaphoretic, febrifuge, tonic, laxative, expectorant.

Influenza and feverish conditions generally, for which purpose it is very successfully used by the American negroes. Also used in catarrhs. The infusion of 1 ounce to 1 pint boiling water may be given in wineglassful doses frequently, hot as a diaphoretic and febrifuge, cold as a tonic.

F. H. England, of the College of Medicine and Surgery, Chicago (Physio- Medical) says ? "It is a pure relaxant to the liver. It acts slowly and persistently. Its greatest power is manifested upon the stomach, liver, bowels and uterus."... boneset

Chickweed Tea

Chickweed is actually the basis for a refreshing and useful tea, which can be easily found in stores and has various benefits for the whole body. So don’t pass it by. Everything about Chickweed Tea With the botanical name of Stellaria media, Chickweed is also commonly known as star weed, star chickweed or satin flower. The chickweed weed has straight green stems, small star-like white flowers and blooms from March till October. It is commonly found all over the world. Chickweed is rich in calcium, potassium, magnesium, vitamin C and contains a number of other nutrients like mucilage, saponins, silica, vitamin A and B, fatty acids or other minerals as well. Chickweed tea is a great source of nutrition with many health benefits. How to brew Chickweed Tea For a tasty tea, you can combine either 1 teaspoon of dried plant or 2 tablespoons of fresh, finely chopped chickweed into 1 cup of boiling water. Don’t forget to wash and dry preferable freshly picked chickweed leaves. Allow the plant to steep into the boiling water for approximately 10 minutes then your tea is ready to be served. Chickweed Tea benefits Chickweed Tea has multiple medical benefits both internally and externally. Chickweed Tea is a diuretic, a mild laxative; it increases the body’s metabolism and reduces appetite. That makes it ideal for a weight loss diet. It calms the respiratory system ailments like asthma, bronchitis, cough or others associated to this. Chickweed tea has anti-inflammatory properties so it can reduce any inflammation and help to relieve pain, both internally and externally. It is also a blood purifier. Chickweed tea can also be used externally as wash, poultice, or salve with good results in alleviating any wounds, allergies or skin problems due to its detoxifying properties. Chickweed Tea Side effects Although chickweed tea is generally considered safe for adults’ consumption, side effects may occasionally include upset stomach, nausea or vomiting. Pregnant or nursing women should not drink chickweed tea, as there are not enough studies to show whether it is safe for pregnancy or for children. People with allergies to the daisy plant family should avoid chickweed tea. Chickweed contains nitrate so if you drink too much tea, you may experience symptoms of nitrate poisoning like weakness, headache, fainting, bluish fingers and lips and dizziness. So be sure to keep your moderation. Although it is recommended to include it in your lifestyle, you should not drink more than 2 or 3 cups of chickweed tea per day as it will lose its benefits.... chickweed tea

Cancer – Facial

In October 1967, after three previous surgically removed growths, an 85-year-old cattleman of Mesa, Arizona, refused treatment on the same fourth-recurrent growth, documented as malignant melanoma, in favour of “Chaparral tea”, an old Indian remedy. Of this tea he drank 2-3 cups a day. In September 1968 he was re-examined by the Medical Centre, Utah, USA. They found the growth had decreased from the size of a large lemon to that of a dime. No other medication was used, only the Chaparral tea. In eleven months he gained a needed 25lb with improvements in general health, as previous to Chaparral treatment he was pale, weak and lethargic. (“Indian Herbology”, Alma Hutchens. Pub: Merco, Ontaria).

The facial lesion finally disappeared. ... cancer – facial

Clinical Trials

(See EVIDENCE-BASED MEDICINE.) Clinical trials aim to evaluate the relative effects of di?erent health-care interventions. They are based on the idea that there must a fair comparison of the alternatives in order to know which is better. Threats to a fair comparison include the play of chance and bias, both of which can cause people to draw the wrong conclusions about how e?ective a treatment or procedure is.

An appreciation of the need to account for chance and bias has led to development of methods where new treatments are compared to either a PLACEBO or to the standard treatment (or both) in a controlled, randomised clinical trial. ‘Controlled’ means that there is a comparison group of patients not receiving the test intervention, and ‘randomised’ implies that patients have been assigned to one or other treatment group entirely by chance and not because of their doctor’s preference. If possible, trials are ‘double-blind’ – that is, neither the patient nor the investigator knows who is receiving which intervention until after the trial is over. All such trials must follow proper ethical standards with the procedure fully explained to patients and their consent obtained.

The conduct, e?ectiveness and duplication of clinical trials have long been subjects of debate. Apart from occasional discoveries of deliberately fraudulent research (see RESEARCH FRAUD AND MISCONDUCT), the structure of some trials are unsatisfactory, statistical analyses are sometimes disputed and major problems have been the – usually unwitting – duplication of trials and non-publication of some trials, restricting access to their ?ndings. Duplication occurs because no formal international mechanism exists to enable research workers to discover whether a clinical trial they are planning is already underway elsewhere or has been completed but never published, perhaps because the results were negative, or no journal was willing to publish it, or the authors or funding authorities decided not to submit it for publication.

In the mid 1980s a proposal was made for an international register of clinical trials. In 1991 the NHS launched a research and development initiative and, liaising with the COCHRANE COLLABORATION, set out to collect systematically data from published randomised clinical trials. In 1994 the NHS set up a Centre for Reviews and Dissemination which, among other responsibilities, maintains a database of research reviews to provide NHS sta? with relevant information.

These e?orts are hampered by availability of information about trials in progress and unpublished completed trials. With a view to improving accessibility of relevant information, the publishers of Current Science, in 1998, launched an online metaregister of ongoing randomised controlled trials.

Subsequently, in October 1999, the editors of the British Medical Journal and the Lancet argued that the case for an international register of all clinical trials prior to their launch was unanswerable. ‘The public’, they said, ‘has the right to know what research is being funded. Researchers and research funders don’t want to waste resources repeating trials already underway.’ Given the widening recognition of the importance to patients and doctors of the practice of EVIDENCE-BASED MEDICINE, the easy availability of information on planned, ongoing and completed clinical trials is vital. The register was ?nally set up in 2005.... clinical trials

Cancer – Sarcoma

Cancer appearing in bone, muscle, connective tissue or cartilage. Malignant tissue which differs from carcinoma. Pain is intermittent, often relieved by exercise. The following is an example.

“I saw a man suffering from sarcomatous tumour infiltrating the body tissue of the upper jaw, extending to the nose. We recommended an operation. Dr O’Sullivan, Professor of Pathology, Trinity College, declared the growth to be a round-celled sarcoma. Of that there was no doubt. A month after excision the growth returned with increased vigour, bulging through the incision and protruding upon the face. The new tumour, almost closing the right eye, was blue, tense, firm and tabulated, but it did not break.

“Early in October the patient walked into my study. He looked better in health than I have ever seen him. The tumour had completely disappeared from the face and I could not identify any trace of it in the mouth. He said he had no pain of any kind. He has since gone home apparently well.

“He told me he had applied poultices of Comfrey root, and that the swelling had gradually disappeared. Now this was a case of which none of us had any doubt at all. Our first view was confirmed by the distinguished pathologist mentioned and by my own observation at the time of the major operation.” (Dr Wm Thompson, President, Royal College of Surgeons, Eire, in his address in Dublin).

Vinchristine. An alkaloid of the Vinca plant.

Internal Treatment. See: CANCER – NOSE AND THROAT. Diet. See: DIET – CANCER.

Treatment by a general medical practitioner or hospital oncologist. ... cancer – sarcoma

Common Indigo

Indigofera tinctoria

Papilionaceae

San:Nilini, Ranjani, Nilika, Neelam, Aklika, Asita, Bhadra; Ben, Guj:Nil;

Hin:Gouli;

Mal: Neelamari;

Tam: Averi;

Tel: Aviri, Nili;

Kan: Nili; Mar: Nali; Ori: Neli

Importance: Common indigo or Indian indigo is a branching shrub which grows upto 2m high. Nili is a reputed drug produced from this plant which is used in ayurveda for the promotion of hair growth and it forms a major ingredient of preparations like nilibhringadi oil. This is the original source of natural indigo. Due to antitoxic property it is also a good remedy for poisons. According to Bhavaprakasa, nili is purgative in action, bitter, hot, cures giddiness, abdominal enlargement, vatarakta, gout and intestinal obstruction. The decoction or powder of the plant is used in whooping cough, bronchitis, palpitation of the heart, enlargement of the liver and spleen, dropsy, diseases of lungs and kidney, epilepsy and nervous disorders. A poultice of the leaves is recommended in skin diseases, piles, ulcer and haemorrhoids. A wine glass full juice of the leaves is administered in the morning with or without milk for three days to those who have been bitten by mad dogs. Root decoction is given in calculous diseases and used as an antidote to arsenic poisoning. The seed of the plant is powered and steeped in arrack or rum, yield a tincture, which is used to distroy lice. Indigo, the dye extracted from the leaves, is a soothing balm for burns and scalds, insect stings and animal bites. The synonyms visaghni and sodhani indicate the antitoxic and laxative properties of the drug nili, respectively (Aiyer and Kolammal, 1960).

Distribution: This plant is distributed in South and South East Asia, tropical Africa and is introduced in tropical America. In India, it is found almost throughout and cultivated in many parts.

Botany: Indigofera tinctoria Linn. syn. I. summatrana Gaertn, Pigmentum indicum belongs to Papilionaceae family. This is a branching shrub which grows upto 2m high. Stems and branches are green; branchlets silvery pubescent. Leaves are alternate, stipulate, imparipinnate and got 7-13 leaflets which are elliptic-oblong, membraneous,1.7x0.9cm, shortly mucronate, pale green or bluish. Flowers are small, rose-coloured in axillary racemes. Calyx 5-cleft, gamosepalous; corolla papilionaceous; stamens diadelphous; ovary sessile with a short incurved style ending in a capitate stigma. Pods are linear, cylindrical, 2-5cm long, deflexed having 8-12 seeds.

Agrotechnology: The Indian indigo requires good sunlight and grows well in hilly areas. This is usually propagated by seeds. Seeds are very small and the seed rate is 3kg/ha. Seeds require pretreatment for good germination as the seed coat is hard. Seeds are mixed with sand and ground gently to break the seed coat. An alternate method for enhancing germination is dipping the seeds in boiling water for a second. After pretreatment seeds are broadcasted. Broadcast the seeds preferably mixed with sand 2 or 3 times its volume to ensure uniform coverage. The seedbeds should be covered with straw and irrigated. Seeds germinate within 15 days. Seedlings are ready for transplanting after one month. For the land preparation, the soil is brought to fine tilth by ploughing 2 or 3 time s. Cattle manure should be applied at the rate of 10t/ha as basal dressing and incorporated into soil along with last ploughing. The best time for sowing is September-October. Weeding has to be done two times; 3 weeks after sowing and 6 weeks after sowing. Plants start flowering 2-3 months after sowing. Harvesting is done by cutting the plants at this time, at a height of about 10cm from ground level. Irrigate plants after harvest. Subsequent harvests can be made at 1.5-2 months interval. Four to five cuttings can be taken in an year depending on the growth. A few plants per plot are left without cutting to set seeds. Ripe pods are to be harvested in the early morning to prevent loss of seeds by shattering during harvest.

Properties and activity: A blue dyestuff is obtained from the indigofera which does not exist ready formed, but is produced during fermentation from another agent existing in the plant, known as indocan. Indocan is yellow amorphous of a nauseous bitter taste with an acid reaction, readily soluble in water, alcohol and ether. An artificial product indigotine is manufactured chemically and used as a substitute. Indirubin is another component of the plant.

The plant is deobstruent, alterative, antitoxic, antiasthmatic and antiepileptic. Aerial part is hypoglycaemic, CNS depressant and antitoxic. The leaves, flowers and tender shoots are considered to be cooling, demulcent and alterative. Leaf is antiinflammatory. Root and stem is laxative, expectorant, antitumourous, febrifuge, anticephalalgic, antidote for snake bite, anthelmintic and promotes growth of hair. Root is divertic. Indirubin is antineoplastic and has toxicity. Nili is antitoxic, purgative and laxative. Indigo is said to produce nausea and vomiting.... common indigo

Glory Lily

Gloriosa superba

Liliaceae

San: Langali, Visalya, Agnishika,Shakrapushpi, Garbhaghatini

Hin: Kalihari

Mal: Menthonni

Tam: Akkinichilam

Pan: Kariari

Guj: Dudhiya vachnag

Kan: Nangulika Mar: Nagakaria

Ben: Bishalanguli Ori: Dangogahana

Tel: Adavinabhi

Importance: Glory lily is a glabrous herbaceous climber which yields different types of troplone alkaloids of medicinal importance. The major alkaloids are colchicine , 3-demethyl colchicine and colchicoside. There is another alkaloid gloriosine which promises to be even more effective than colchicine in plant breeding for inducing polyploidy. The genus has importance in the ornamental horticulture due to its bright flowers and wiry climbing stem.

The roots and rhizomes are used in traditional system of medicine. Its abortifacient and antipyretic properties have been mentioned in ancient classics “Charaka”. The name Garbhaghatini is due to this abortifacient activity. They are useful in the treatment of inflammations, ulcers, scrofula, hemorrhoids, pruritus, dyspepsia, helminthiasis, flatulence, intermittent fevers and debility. The root is given internally as an effective antidote against cobra poison. A paste of the root is also used as an anodyne; applications in bites of poisonous insects, snake bites, scorpion sting, parasitic skin diseases and leprosy (Nadkarni,1954; Chaudhuri and Thakur; 1994).

Distribution: The plant is distributed throughout tropical India upto an altitude of 2500m and in Andaman islands. It is also cultivated in tropical and South Africa, Madagaskar, Indonesia and Malasia. It is reported to be cultivated in some parts of Europe. In India it was cultivated in RRL, Jammu in 1960s. Recently it was taken up by Indian Council of Agricultural Research(ICAR). Cultivation of the plant is mostly confined to the Southern states of India besides its collection from wild sources.

Botany: Gloriosa superba Linn. belongs to Liliaceae family. It is a glabrous climbing herb with tuberous root stock grows over hedges and small trees. Stem is 6m long which grows to a height of 1.2-1.5m before the stem branches. Leaves are simple, alternate or whorled, sessile, ovate-lanceolate, 17x4.5cm, tip elongating into a spirally coiled tendril, base cordate and margin entire. Flowers are large in terminal racemes; perianth segments 6, linear, flexuosus and deflexed, basal half bright yellow, upper half red; stamens 6; ovary glabrous, 3-celled. Fruits are capsules, linear-oblong, upto 6.8cm long, 3 equal lobes, one or two lobes shorter in malformed fruits; green dried to pale and then black colour, dehisced into three sections. Seeds are oval in shape, testa spongy, embryo cylindric, 30-150 seeds per capsule, pale orange attached to the sutures. Tubers are cylindric, large, simple, ‘V’ shaped with the two limps equal or unequal in lenth pointed towards end brownish externally and yellowish internally. (Narain, 1977)

Agrotechnology: This is a rainy season plant and sprouts well in warm, humid and tropical conditions. It should be grown in sun as the plants in shade become weedy and thin and move towards light. G. superba is a shallow rooted plant and grows well in a variety of soils either clay or sand through out India. It grows well in a light porous soil with good drainage. For vigorous growth, greater blooms and strong tuber, a mixture of soil, sand and compost manure is recommended. The propagation is mainly by tubers, by division of rhizomes. Seeds remain dormant for 6-9 months and due to hard seed coat, about 20-30 days are required for germination and seeds may take 3-4 years before it matures to flower. Treatment of seeds by gibberellin(1-3 ppm) resulted in higher yield of colchicine in the plant and higher production of tubers. In tissue culture, young sprouts are cultured on Murashige and Skoog’s medium (Msb) supplemented with kinetin (1-4 mg/l). Direct regeneration of the explants are obtained.

The seeds and rhizomes are sown usually in the last week of June to mid July. The rhizomes are planted by splitting carefully into two from their ‘V’ shaped joints (two buds being at the extreme end of each rhizome) in lines 20cm apart at a distance of 20cm (while seeds are sown in lines at a distance of 4-6cm apart). They are watered regularly when the plants are growing. After green shoots appear 2-3 showers are weekly. The irradiation of the plant at 42% natural sunlight intensity increased the production of tuber and colchicine. They usually takes 6-10 weeks to flower after sprouting and then set on fruits. The fruits ripen at the end of October and after that aerial shoot eventually dies, leaving the fleshy tubers underground. The tubers are dug out with great care. An individual plant produces 50g tubers on an average. The average yield is approximately 4000-5000kg of rhizomes and 1000 kg of seed per hectare. The content of colchicine is usually 0.358% and 1.013% in tubers and seeds, respectively.

Post harvest technology: Lixivation of the material is done with 70% ethyl alcohol. Concentrated under vacuum to one third of its volume and extracted with chloroform for colchicine and related substances-concentration of the aqueous phase to syrup which is extracted 6-8 times with a mixture of CHCl3 - alcohol (4:1) to yield colchicoside.

Properties and activity: The flowers, leaves and tubers contain colchicine, superbin, N-formyl deacetyl colchicine, demethyl colochicine and lumicolchicine. Tubers also contain gloriosine. Leaves in addition, contain chelidonic acid, 2-hydroxy 6-methoxy benzoic acid and -sitosterol glucoside. Colchicine, demethyl colchicine and colchicoside have been reported from seeds. Rhizome is oxytocic, anticancerous, antimalarial, stomachic, purgative, cholagogue, anthelmintic, alterative, febrifuge and antileprotic. Leaf is antiasthmatic and antiinflammatory. Root shows antigonorrhoeic and antibiotic activity. This plant has poisonous effect to enviroment and livestock. The toxic properties are due to presence of alkaloids chiefly colchicine (Clewer et al, 1915).... glory lily

Grapes

See also Raisins, Wine.

Nutritional Profile Energy value (calories per serving): Moderate Protein: Low Fat: Low Saturated fat: Low Cholesterol: None Carbohydrates: High Fiber: Low Sodium: Low Major vitamin contribution: Vitamin A, vitamin C Major mineral contribution: Phosphorus

About the Nutrients in This Food Grapes are high in natural sugars, but even with the skin on they have less than one gram dietary fiber per serving. The most important nutrient in grapes is vitamin C. A serving of 10 green or red Thompson seedless grapes has 5.3 mg vitamin C (7 percent of the R DA for a woman, 6 percent of the R DA for a man). The tart, almost sour flavor of unripened grapes comes from natu- rally occurring malic acid. As grapes ripen, their malic acid content declines while their sugar content rises. R ipe eating grapes are always sweet, but they have no stored starches to convert to sugars so they won’t get sweeter after they are picked.

The Most Nutritious Way to Serve This Food Fresh and ripe.

Buying This Food Look for: Plump, well-colored grapes that are firmly attached to green stems that bend easily and snap back when you let them go. Green grapes should have a slightly yellow tint or a pink blush; red grapes should be deep, dark red or purple. Avoid: Mushy grapes, grapes with wrinkled skin, and grapes that feel sticky. They are all past their prime. So are grapes whose stems are dry and brittle. Characteristics of Different Varieties of Grapes Red grapes Cardinal  Large, dark red, available March–August Emperor  Large red with seeds. September–March Flame  Seedless, medium to large, red. June–August R ibier  Large, blue-black, with seeds. July–February Tokay  Large, bright red, seeds. August–November Queen  Large, bright to dark red, seeds. June–August White grapes Almeria  Large, golden. August–October Calmeria Longish, light green. October–February Perlette  Green, seedless, compact clusters. May–July Thompson Seedless, green to light gold. June–November Source: The Fresh Approach to Grapes (United Fruit & Vegetable Associat ion, n.d.).

Storing This Food Wrap grapes in a plastic bag and store them in the refrigerator. Do not wash grapes until you are ready to use them.

Preparing This Food To serve fresh grapes, rinse them under running water to remove debris, then drain the grapes and pick off stems and leaves. To peel grapes (for salads), choose Catawba, Concord, Delaware, Niagara, or Scup- pernong, the American varieties known as “slipskin” because the skin comes off easily. The European varieties (emperor, flame, Tokay, Muscat, Thompson) are more of a challenge. To peel them, put the grapes into a colander and submerge it in boiling water for a few seconds, then rinse or plunge them into cold water. The hot water makes cells in the grape’s flesh swell, stretching the skin; the cold bath makes the cells shrink back from the skin which should now come off easily.

What Happens When You Cook This Food See above.

How Other Kinds of Processing Affect This Food Juice. Red grapes are colored with anthocyanin pigments that turn deeper red in acids and blue, purple, or yellowish in basic (alkaline) solutions. As a result, red grape juice will turn brighter red if you mix it with lemon or orange juice. Since metals (which are basic) would also change the color of the juice, the inside of grape juice cans is coated with plastic or enamel to keep the juice from touching the metal. Since 2000, following several deaths attributed to unpasteurized apple juice contaminated with E. coli O157:H7, the FDA has required that all juices sold in the United States be pasteurized to inactivate harmful organ- isms such as bacteria and mold. Wine-making. Grapes are an ideal fruit for wine-making. They have enough sugar to pro- duce a product that is 10 percent alcohol and are acidic enough to keep unwanted micro- organisms from growing during fermentation. Some wines retain some of the nutrients originally present in the grapes from which they are made. (See wine.) Drying. See r aisins.

Medical Uses and/or Benefits Lower risk of cardiovascular disease, diabetes, and some forms of cancer. Grape skin, pulp, and seed contain resveratrol, one of a group of plant chemicals credited with lowering cholesterol and thus reducing the risk of heart attack by preventing molecular fragments called free radicals from linking together to form compounds that damage body cells, leading to blocked arteries (heart disease), glucose-damaged blood vessels (diabetes), and unregulated cell growth (cancer). The juice from purple grapes has more resveratrol than the juice from red grapes, which has more resveratrol than the juice from white grapes. More specifically, in 1998, a team of food scientists from the USDA Agricultural Research Service identified a native American grape, the muscadine, commonly used to make grape juice in the United States, as an unusually potent source of resveratrol.... grapes

Greater Ammi

Ammi majus

Apiaceae

Importance: Greater Ammi, also known as Bishop’s weed or Honey plant is an annual or biennial herb which is extensively used in the treatment of leucoderma (vitiligo) and psoriasis. The compounds responsible for this are reported to be furocoumarins like ammoidin (xanthotoxin), ammidin (imperatorin) and majudin (bergapten) present in the seed. Xanthotoxin is marketed under the trade name “Ox soralen” which is administered orally in doses of 50 mg t.d. or applied externally as 1% liniment followed by exposure of affected areas to sunlight or UV light for 2 hours. It is also used in “Suntan lotion”. Meladinine is a by-product of Ammi majus processing, containing both xanthotoxin and imperatorin sold in various formulations increases pigmentation of normal skin and induces repigmentation in vitiligo. Imperatorin has antitumour activity. Fruit or seed causes photosensitization in fouls and sheep.

Distribution: The plant is indigenous to Egypt and it grows in the Nile Valley, especially in Behira and Fayoom. It is also found in the basin of the Mediterranean Sea, in Syria, Palestine, Abyssinia, West Africa, in some regions of Iran and the mountains of Kohaz (Ramadan, 1982). It grows wild in the wild state in Abbottabad, Mainwali, Mahran and is cultivated in Pakistan. The crop was introduced to India in the Forest Research Institute, Dehra Dun, in 1955 through the courtesy of UNESCO. Since then, the crop has been grown for its medicinal fruit in several places in Uttar Pradesh, Gujarat, Kashmir and Tamil Nadu.

Botany: Ammi majus Linn. belongs to the family Apiaceae (Umbelliferae). A. visnaga is another related species of medicinal importance. A. majus is an annual or beinnial herb growing to a height of 80 to 120 cm. It has a long tap root, solid erect stem, decompound leaves, light green alternate, variously pinnately divided, having lanceolate to oval segments. Inflorescence is axillary and terminal compound umbels with white flowers. The fruits are ribbed, ellipsoid, green to greenish brown when immature, turning reddish brown at maturity and having a characteristic terebinthinate odour becoming strong on crushing with extremely pungent and slightly bitter taste.

Agrotechnology: Ammi is relatively cold loving and it comes up well under subtropical and temperate conditions. It does not prefer heavy rainfall. Though the plant is biennial it behaves as an annual under cultivation in India. A mild cool climate in the early stages of crop growth and a warm dry weather at maturity is ideal. It is cultivated as a winter annual crop in rabi season. A wide variety of soils from sandy loam to clay loam are suitable. However, a well drained loamy soil is the best. Waterlogged soils are not good. Being a hardy crop, it thrives on poor and degraded soils.

The plant is seed propagated. Seeds germinate within 10-12 days of sowing. The best time of sowing is October and the crop duration is 160-170 days in north India. Crop sown later gives lower yield. The crop can be raised either by direct sowing of seed or by raising a nursery and then transplanting the crop. Seed rate is 2 kg/ha. The land is brought to a fine tilth by repeated ploughing and harrowing. Ridges and furrows are then formed at 45-60 cm spacing. Well decomposed FYM at 10-15 t/ha and basal fertilisers are incorporated in the furrows. Seeds being very small are mixed with fine sand or soil, sown in furrows and covered lightly with a thin layer of soil. A fertilizer dose of 80:30:30 kg N, P2O5 and K2O/ha is generally recommended for the crop while 150:40:40 kg/ha is suggested in poor soils for better yields. The furocoumarin content of Ammi majus is increased by N fertiliser and the N use efficiency increases with split application of N at sowing, branching and at flowering. For obtaining high yields it is essential to give one or two hoeings during November to February which keeps down the weeds. If winter rains fail, one irrigation is essential during November to January. As the harvesting season is spread over a long period of time, two irrigations during March and April meets the requirements of the crop (Chadha and Gupta, 1995).

White ants and cut worms are reported to attack the crop which can be controlled by spraying the crop with 40g carbaryl in 10 l of water. Damping off and powdery mildew are the common diseases of the crop. Seed treatment with organomercuric compounds is recommended for damping off. To control powdery mildew the crop is to be sprayed with 30g wettable sulphur in 10 l of water whenever noticed.

The crop flowers in February. Flowering and maturity of seed is spread over a long period of two months. The primary umbels and the early maturing secondary umbels are the major contributors to yield. A little delay in harvesting results in the shattering of the seed which is the main constraint in the commercial cultivation of the crop and the main reason for low yields in India. Sobti et al (1978) have reported increased yield by 50 - 60% by the application of planofix at 5 ppm at flower initiation and fruit formation stages. The optimum time of harvest is the mature green stage of the fruit in view of the reduced losses due to shattering and maximum contents of furocoumarins. The primary umbels mature first within 35-45 days. These are harvested at an interval of 2-4 days. Later, the early appearing secondary umbels are harvested. Afterwards, the entire crop is harvested, stored for a couple of days and then threshed to separate the seeds. The seed yield is 900-1200 kg/ha.

Postharvest technology: The processing of seed involves solvent extraction of powdered seeds, followed by chilling and liquid extraction and chromatographic separation after treatment with alcoholic HCl. Bergapten, xanthotoxin and xanthotoxol can be separated. Xanthotoxol can be methylated and the total xanthotoxin can be purified by charcoal treatment in acetone or alcohol.

Properties and activity: Ammi majus fruit contains amorphous glucoside 1%, tannin 0.45%, oleoresin 4.76%, acrid oil 3.2%, fixed oil 12.92%, proteins 13.83% and cellulose 22.4%. This is one of the richest sources of linear furocoumarins. Ivie (1978) evaluated the furocoumarin chemistry of taxa Ammi majus and reported the presence of xanthotoxin, bergapten, imperatorin, oxypencedanin, heraclenin, sexalin, pabulenol and many other compounds. Furocoumarins have bactericidal, fungicidal, insecticidal, larvicidal, moluscicidal, nematicidal, ovicidal, viricidal and herbicidal activities (Duke, 1988).... greater ammi

West Indian

MEDLAR

Mimusops elengi

Sapotaceae

San: Bakulah

Hin: Bakul, Maulsiri

Ben: Bakul

Mal: Ilanji, Elanji

Tam: Magilam, Ilanci

Tel: Pogada

Kan: Pagademara Guj:

Barsoli, Bolsari

Importance: Spanish cherry, West Indian Medlar or Bullet wood tree is an evergreen tree with sweet- scented flowers having ancient glamour. Garlands made of its flowers are ever in good demand due to its long lasting scent. Its bark is used as a gargle for odontopathy, ulitis and ulemorrhagia. Tender stems are used as tooth brushes. It is also useful in urethrorrhoea, cystorrhoea, diarrhoea and dysentery. Flowers are used for preparing a lotion for wounds and ulcers. Powder of dried flowers is a brain tonic and is useful as a snuff to relieve cephalgia. Unripe fruit is used as a masticatory and will help to fix loose teeth. Seeds are used for preparing suppositories in cases of constipation especially in children (Warrier et al,1995). The bark and seed coat are used for strengthening the gum and enter into the composition of various herbal tooth powders, under the name of “Vajradanti”, where they may be used along with tannin-containing substances like catechu (Acacia catechu), pomegranate (Punica granatum) bark, etc. The bark is used as snuff for high fever accompanied by pains in various parts of the body. The flowers are considered expectorant and smoked in asthma. A lotion prepared from unripe fruits and flowers is used for smearing on sores and wounds. In Ayurveda, the important preparation of Mimusops is “Bakuladya Taila”, applied on gum and teeth for strengthening them, whereas in Unani system, the bark is used for the diseases of genitourinary system of males (Thakur et al, 1989).

Distribution: It is cultivated in North and Peninsular India and Andaman Islands. It is grown as an avenue tree in many parts of India.

Botany: Mimusops elengi Linn. belongs to the family Sapotaceae. It is an evergreen tree with dark grey fissured bark and densely spreading crown. Leaves are oblong, glabrous and leathery with wavy margins. Flowers are white, fragrant, axillary, solitary or fascicled. Fruits are ovoid or ellipsoid berries. Seeds are 1-2 per fruit, ovoid, compressed, greyish brown and shiny (Warrier et al, 1995). Other important species belonging to the genus Mimusops are M. hexandra Roxb. and M. kauki Linn. syn. Manilkara kauki Dub.(Chopra et al, 1980).

Agrotechnology: Mimusops prefers moist soil rich in organic matter for good growth. The plant is propagated by seeds. Fruits are formed in October-November. Seeds are to be collected and dried. Seeds are to be soaked in water for 12 hours without much delay and sown on seedbeds. Viability of seeds is less. After germination they are to be transferred to polybags. Pits of size 45cm cube are to be taken and filled with 5kg dried cowdung and top soil. To these pits, about 4 months old seedlings from the polybags are to be transplanted with the onset of monsoon. Addition of 10kg FYM every year is beneficial. Any serious pests or diseases do not attack the plant. Flowering commences from fourth year onwards. Bark, flowers, fruit and seeds are the economic parts.

Properties and activity: -sitosterol and its glucoside, -spina-sterol, quercitol, taraxerol and lupeol and its acetate are present in the aerial parts as well as the roots and seeds. The aerial parts in addition gave quercetin, dihydroquercetin, myricetin, glycosides, hederagenin, ursolic acid, hentriacontane and -carotene. The bark contained an alkaloid consisting largely of a tiglate ester of a base with a mass spectrum identical to those of laburinine and iso-retronecanol and a saponin also which on hydrolysis gave -amyrin and brassic acid. Seed oil was comprised of capric, lauric, myristic, palmitic, stearic, arachidic, oleic and linoleic acids.

Saponins from seed are spermicidal and spasmolytic. The aerial part is diuretic. Extract of flower (1mg/kg body weight) showed positive diuretic action in dogs. Bark is tonic and febrifuge. Leaf is an antidote for snakebite. Pulp of ripe fruit is antidysenteric. Seed is purgative. Bark and pulp of ripe fruit is astringent (Husain et al, 1992).... west indian

Ginkgo

Maidenhair tree. Ginkgo biloba. Sole survivor of its own genus. Seeds, leaves.

Keynotes: brain and lungs.

Constituents: terpenes, tannins, lignans, flavonoids, and gingkolide B which is a platelet activating factor (PAF).

Action: nutritive, tuberculostatic. A compound (BN 52021) from the tree antagonises bronchospasm and tends to resolve breathing difficulties. Circulatory stimulant. Increases brain blood flow, Peripheral vasodilator, Energy enhancer. (JAM, Vol 6, No 2)

Uses: Respiratory complaints, especially asthma. Inhibits platelet clumping: of value in coronary artery disease. Tinnitus. Intermittent claudication. Raynaud’s disease. Thrombosis. Cold hands and feet. Spontaneous bruising. Early stages of Alzheimer’s disease. Cerebral insufficiency in old age. Varicose veins. Some antitumor activity against sarcoma in mice recorded. Piles. Temporal arteritis. Cramp in the calves – walking-distance increased. Tired brain, impaired memory. Coronary artery disease. Hearing loss, depression, vertigo, headache. To increase resistance to adverse environmental factors. Chronic fatigue syndrome (ME). Subclinical neurosis. Headache. Depression. Impaired mental ability. Hangover. Preparations. Thrice daily. Large doses may be required.

Tea (leaves). 1 heaped teaspoon to each cup of water gently simmered 5 minutes. Dose: half-1 cup. Tablets/capsules. 250mg. Maintenance dose: one tablet or capsule increasing to two in acute cases. Chinese Medicine. “Seeds moisten the lungs, stop coughing, and strengthen the body.”

“I have seen a reduction in severity and frequency of asthma attacks and a marked reduction in use of brocho-dilating drugs by the use of Ginkgo.” (Brown D., Phytotherapy Review and Commentary, Townsend Letter to Doctors, October 1990 pp648-9)

German medicine. No drug interactions and very low levels of side-effects. Important remedy to the German Health Service at a cost of 286 million DM in 1989. (Kleijnen J. & Knipschild P. The Lancet 1992, 340, Nov 7)

Tincture. 2 tsp a.m. and p.m. ... ginkgo

West Indian Medlar

Mimusops elengi

Sapotaceae

San: Bakulah

Hin: Bakul, Maulsiri

Ben: Bakul

Mal: Ilanji, Elanji

Tam: Magilam, Ilanci

Tel: Pogada

Kan: Pagademara

Guj: Barsoli, Bolsari

Importance: Spanish cherry, West Indian Medlar or Bullet wood tree is an evergreen tree with sweet- scented flowers having ancient glamour. Garlands made of its flowers are ever in good demand due to its long lasting scent. Its bark is used as a gargle for odontopathy, ulitis and ulemorrhagia. Tender stems are used as tooth brushes. It is also useful in urethrorrhoea, cystorrhoea, diarrhoea and dysentery. Flowers are used for preparing a lotion for wounds and ulcers. Powder of dried flowers is a brain tonic and is useful as a snuff to relieve cephalgia. Unripe fruit is used as a masticatory and will help to fix loose teeth. Seeds are used for preparing suppositories in cases of constipation especially in children (Warrier et al,1995). The bark and seed coat are used for strengthening the gum and enter into the composition of various herbal tooth powders, under the name of “Vajradanti”, where they may be used along with tannin-containing substances like catechu (Acacia catechu), pomegranate (Punica granatum) bark, etc. The bark is used as snuff for high fever accompanied by pains in various parts of the body. The flowers are considered expectorant and smoked in asthma. A lotion prepared from unripe fruits and flowers is used for smearing on sores and wounds. In Ayurveda, the important preparation of Mimusops is “Bakuladya Taila”, applied on gum and teeth for strengthening them, whereas in Unani system, the bark is used for the diseases of genitourinary system of males (Thakur et al, 1989).

Distribution: It is cultivated in North and Peninsular India and Andaman Islands. It is grown as an avenue tree in many parts of India.

Botany: Mimusops elengi Linn. belongs to the family Sapotaceae. It is an evergreen tree with dark grey fissured bark and densely spreading crown. Leaves are oblong, glabrous and leathery with wavy margins. Flowers are white, fragrant, axillary, solitary or fascicled. Fruits are ovoid or ellipsoid berries. Seeds are 1-2 per fruit, ovoid, compressed, greyish brown and shiny (Warrier et al, 1995). Other important species belonging to the genus Mimusops are M. hexandra Roxb. and M. kauki Linn. syn. Manilkara kauki Dub.(Chopra et al, 1980).

Agrotechnology: Mimusops prefers moist soil rich in organic matter for good growth. The plant is propagated by seeds. Fruits are formed in October-November. Seeds are to be collected and dried. Seeds are to be soaked in water for 12 hours without much delay and sown on seedbeds. Viability of seeds is less. After germination they are to be transferred to polybags. Pits of size 45cm cube are to be taken and filled with 5kg dried cowdung and top soil. To these pits, about 4 months old seedlings from the polybags are to be transplanted with the onset of monsoon. Addition of 10kg FYM every year is beneficial. Any serious pests or diseases do not attack the plant. Flowering commences from fourth year onwards. Bark, flowers, fruit and seeds are the economic parts.

Properties and activity: -sitosterol and its glucoside, -spina-sterol, quercitol, taraxerol and lupeol and its acetate are present in the aerial parts as well as the roots and seeds. The aerial parts in addition gave quercetin, dihydroquercetin, myricetin, glycosides, hederagenin, ursolic acid, hentriacontane and -carotene. The bark contained an alkaloid consisting largely of a tiglate ester of a base with a mass spectrum identical to those of laburinine and iso-retronecanol and a saponin also which on hydrolysis gave -amyrin and brassic acid. Seed oil was comprised of capric, lauric, myristic, palmitic, stearic, arachidic, oleic and linoleic acids.

Saponins from seed are spermicidal and spasmolytic. The aerial part is diuretic. Extract of flower (1mg/kg body weight) showed positive diuretic action in dogs. Bark is tonic and febrifuge. Leaf is an antidote for snakebite. Pulp of ripe fruit is antidysenteric. Seed is purgative. Bark and pulp of ripe fruit is astringent (Husain et al, 1992).... west indian medlar

Abortion

n. 1. (induced abortion, termination of pregnancy) the removal of an embryo or fetus from the uterus at a stage of pregnancy when it is deemed incapable of independent survival (i.e. at any time between conception and the 24th week of pregnancy). One of the most commonly performed gynaecological procedures in the UK, it must be carried out within the terms of the Abortion Act 1967, as amended by the Human Fertilisation and Embryology Act 1990. Two doctors must agree that termination of pregnancy is necessary, either (a) under 24 weeks, if continuing the pregnancy poses a greater risk to the physical or mental health of the woman or her existing children, or (b) over 24 weeks, if the woman’s life or health is seriously in danger or if there is a substantial risk of severe disability in the child if born. The woman must be provided with full information about the methods of termination available so that she can give *informed consent. Over 90% of terminations in the UK are performed under 24 weeks, and most of these under 12 weeks. Early medical termination (using drugs, e.g. *mifepristone, *misoprostol) carries less risk to the woman than later surgical termination (e.g. *vacuum aspiration, *dilatation and curettage). The 1967 Act was never applied to Northern Ireland, where the law remained far more restrictive; measures to decriminalize abortion in the province took effect in October 2019. 2. (spontaneous abortion) see miscarriage.... abortion

Mental Capacity Act 2005

legislation for England and Wales, which came into force in October 2007, to govern the treatment of people who lack *capacity to make decisions. It gives legal force to the importance of *autonomy in health care and to *advance directives, decisions, or statements. It also provides statutory legislation for medical and social decision-makers to act in the patient’s best interests should he or she lose capacity (see Independent Mental Capacity Advocate). It allows proportionate force to implement decisions made in a patient’s best interests. For Scotland the current legislation is the Adults with Incapacity (Scotland) Act 2000.... mental capacity act 2005

Neroli

Citrus aurantium var. amara

FAMILY: Rutaceae

SYNONYMS: C. vulgaris, C. bigaradia, orange blossom, orange flower, neroli bigarade.

GENERAL DESCRIPTION: An evergreen tree up to 10 metres high with glossy dark green leaves and fragrant white flowers. There are two flowering seasons when the blossom is picked, one in May and another in October (in mild weather). See also bitter orange.

DISTRIBUTION: Native to the Far East, but well adapted to the Mediterranean climate. Major producers include Italy, Tunisia, Morocco, Egypt, America and especially France.

OTHER SPECIES: The sweet orange (C. aurantium var. dulcis) is also used to make an absolute oil called neroli Portugal or neroli petalae – however, it is less fragrant and considered of inferior quality.

HERBAL/FOLK TRADITION: This oil was named after a princess of Nerola in Italy, who loved to wear it as a perfume. Orange flowers have many folk associations. They were used in bridal bouquets and wreaths, to calm any nervous apprehension before the couple retired to the marriage bed.

On the Continent an infusion of dried flowers is used as a mild stimulant of the nervous system, and as a blood cleanser. The distillation water, known as orange flower water, is a popular cosmetic and household article.

ACTIONS: Antidepressant, antiseptic, antispasmodic, aphrodisiac, bactericidal, carminative, cicatrisant, cordial, deodorant, digestive, fungicidal, hypnotic (mild), stimulant (nervous), tonic (cardiac, circulatory).

EXTRACTION: 1. A concrete and absolute are produced by solvent extraction from the freshly picked flowers. 2. An essential oil is, produced by steam distillation from the freshly picked flowers. An orange flower water and an absolute are produced as a byproduct of the distillation process.

CHARACTERISTICS: 1. The absolute is a dark brown or orange viscous liquid with a fresh, delicate yet rich, warm sweet-floral fragrance; very true to nature. It blends well with jasmine, benzoin, myrrh and all citrus oils. 2. The oil is a pale yellow mobile liquid (darkening with age) with a light, sweet-floral fragrance and terpeney topnote. Blends well with virtually all oils: chamomile, coriander, geranium, benzoin, clary sage, jasmine, lavender, rose, ylang ylang, lemon and other citrus oils.

PRINCIPAL CONSTITUENTS: Linalol (34 per cent approx.), linalyl acetate (6–17 per cent), limonene (15 per cent approx.), pinene, nerolidol, geraniol, nerol, methyl anthranilate, indole, citral, jasmone, among others.

SAFETY DATA: Non-toxic, non-irritant, nonsensitizing, non-phototoxic.

AROMATHERAPY/HOME: USE

Skin care: Scars, stretch marks, thread veins, mature and sensitive skin, tones the complexion, wrinkles.

Circulation muscles and joints: Palpitations, poor circulation.

Digestive system: Diarrhoea (chronic), colic, flatulence, spasm, nervous dyspepsia.

Nervous system: Anxiety, depression, nervous tension, PMT, shock, stress-related conditions – ‘I find that by far the most important uses of neroli are in helping with problems of emotional origin.’.

OTHER USES: Neroli oil and orange flower water are used to flavour pharmaceuticals. The absolute is used extensively in high-class perfumery work, especially oriental, floral and citrus blends; also as a fixative. The oil is used in eau-de-cologne and toilet waters (traditionally with lavender, lemon, rosemary and bergamot). Limited use as a flavour ingredient in foods, alcoholic and soft drinks.... neroli




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