Leaflet: From 1 Different Sources
A small leaf that is part of a compound leaf.
A compound leaf, having the leaflets arranged on each side of the stem.... pinnate
Having three leaflets in a compound leaf, like a clover.... trifoliate
Saraca asocaCaesalpiniaceaeSan:Asoka, Gatasokah;Hin:Asok, Asoka; Ben:Ashok; Mal:Asokam;Tam: Asogam;Kan:Asokada, Aksunkara;Tel: Asokamu, VanjalamuImportance: Ashoka, the sacred tree of Hindus and Buddhists, possesses varied medicinal uses. The bark is useful in dyspepsia, fever, dipsia, burning sensation, visceromegaly, colic, ulcers, menorrhagia, metropathy, leucorrhoea and pimples. The leaf juice mixed with cumin seeds is used for treating stomachalagia. The floweres are considered to be uterine tonic and are used in vitiated conditions of pitta, syphilis, cervical adinitis, hyperdipsia, burning sensation, haemorrhoids, dysentery, scabies in children and inflammation. The well-known Ayurvedic preparations are ”Ashokarishta” and “Ashokaghrita”. Ashokarishta is prescribed in leucorrhoea, haematuria, menorrhagia and other diseases of genitourinary system of females.Distribution: Ashoka is found almost throughout India, except North-Western India, upto 750m. It is also found in the Andaman Islands.Botany: Saraca asoca (Roxb.) de Wilde. syn. S. indica auct. non Linn. is a medium sized evergreen tree growing upto 9m height with numerous spreading and drooping glabrous branches. Leaves are pinnate, 30-60cm long having 2-3 pairs of lanceolate leaflets. Flowers are orange or orange yellow, arranged in dense corymbs and very fragrant. Fruits are flat black pods, leathery and compressed with 4-8 seeds/pod. Seeds are ellipsoid oblong and compressed. The bark is dark brown to grey or black with a warty surface. The thickness varies from 5mm to 10mm. The entire cut surface turns reddish on exposure to air. Polyalthia longifolia (Annonaceae) is equated with the name Asoka by some (Kapoor & Mitra, 1979; Chunekar, 1982) and is often used as an adulterant of the genuine Asoka bark or as a substitute (Warrier et al,1996).Agrotechnology: Asoka grows well in areas with well distributed rainfall and in slightly shady areas. Asoka requires soil rich in organic mater and moisture. The best season of planting is June-July. It is also grown in summer, if irrigation facilities are available. The plant is seed propagated. Seeds are formed usually during February-April. Seeds are collected when they are ripen and fall down and are sown after soaking in water for 12 hours on the prepared beds. Seeds germinate within 20 days. The seeds are then planted in polybags. 2-month-old seedlings from the polybags are used for transplanting. Square shaped pits of 60cm depth are taken at 3m spacing and filled with topsoil, sand and dried cowdung. On this the seedlings are planted. Application of FYM at 10kg/tree/year is highly beneficial. Chemical fertilisers are not usually applied. Irrigation during summer months is essential. No serious pests or diseases are generally noted in this crop. If properly cultivated, Asoka can be cut after 20 years and the bark collected. It is cut at a height of 15cm from the soil level. If given irrigation and fertilisers, the cut wood will sprout again and harvested again after 5 years. This can be continued. When it is difficult to cut the tree, the bark can be peeled off from one side first. When the bark grows and cover that part, the other side can be peeled off. This is also continued (Prasad et al, 1997; Karshakasree, 1998).Properties and activity: Flowers give -sitosterol, flavonoids and flavone glycosides-quercetin, kaempferol-3-O- -D- glucoside, quercetin-3-O- -D-glucoside. The anthocyanins present are pelargonidin-3, 5-diglucoside and cyanadin-3, 5-diglucoside. Bark yields catechol and sterols-(24)-24-methyl cholest-5-en-3 -ol, (22E, 24)-24-ethylcholesta-5, 22-dien-3 -ol and (24)-24-ethyl cholest-5-en-3 -ol, a wax containing n-alkanes, esters and free primary alcohols. Alcoholic extract and glycoside P2 from stem bark is oxytoxic. Aerial part is CNS active, hypothermic, CNS depressant and diuretic. Stem bark is anticancerous, has spasmodic action on rabbit intestine and cardiotonic action in frog and dog. Seed is antifungal. Stem bark is astringent, antileucorrhoeic, antibilious and uterine sedative. Flower is uterine tonic, antidiabetic and antisyphilitic. Stem bark and flower is antibilious (Husain et al, 1992).... ashoka
Cassia sennaCaesalpiniaceaeSan: Svarnapatri;Hin: Sanay, Sana Ka Patt;Ben: Sonamukhi;Mal: Sunnamukki, Chonnamukki, Nilavaka;Tam: Nilavirai, Nilavakai;Tel: NetatangeduImportance: 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
Acacia farnesianaDescription: Acacia is a spreading, usually short tree with spines and alternate compound leaves. Its individual leaflets are small. Its flowers are ball-shaped, bright yellow, and very fragrant. Its bark is a whitish-gray color. Its fruits are dark brown and podlike.Habitat and Distribution: Acacia grows in open, sunny areas. It is found throughout all tropical regions.Note: There are about 500 species of acacia. These plants are especially prevalent in Africa, southern Asia, and Australia, but many species are found in the warmer and drier parts of America.Edible Parts: Its young leaves, flowers, and pods are edible raw or cooked.... acacia
A simple pistil or modified leaflets forming a compound pistil.... carpel
Leaves that are made up of leaflets, such as pinnate and palmate leaves.... compound
Heart disease can affect any of the structures of the HEART and may affect more than one at a time. Heart attack is an imprecise term and may refer to ANGINA PECTORIS (a symptom of pain originating in the heart) or to coronary artery thrombosis, also called myocardial infarction.
Arrhythmias An abnormal rate or rhythm of the heartbeat. The reason is a disturbance in the electrical impulses within the heart. Sometimes a person may have an occasional irregular heartbeat: this is called an ECTOPIC beat (or an extrasystole) and does not necessarily mean that an abnormality exists. There are two main types of arrhythmia: bradycardias, where the rate is slow – fewer than 60 beats a minute and sometimes so slow and unpredictable (heartblock) as to cause blackouts or heart failure; and tachycardia, where the rate is fast – more than 100 beats a minute. A common cause of arrhythmia is coronary artery disease, when vessels carrying blood to the heart are narrowed by fatty deposits (ATHEROMA), thus reducing the blood supply and damaging the heart tissue. This condition often causes myocardial infarction after which arrhythmias are quite common and may need correcting by DEFIBRILLATION (application of a short electric shock to the heart). Some tachycardias result from a defect in the electrical conduction system of the heart that is commonly congenital. Various drugs can be used to treat arrhythmias (see ANTIARRHYTHMIC DRUGS). If attacks constantly recur, the arrhythmia may be corrected by electrical removal of dead or diseased tissue that is the cause of the disorder. Heartblock is most e?ectively treated with an arti?cial CARDIAC PACEMAKER, a battery-activated control unit implanted in the chest.
Cardiomyopathy Any disease of the heart muscle that results in weakening of its contractions. The consequence is a fall in the e?ciency of the circulation of blood through the lungs and remainder of the body structures. The myopathy may be due to infection, disordered metabolism, nutritional excess or de?ciency, toxic agents, autoimmune processes, degeneration, or inheritance. Often, however, the cause is not identi?ed. Cardiomyopathies are less common than other types of heart diseases, and the incidence of di?erent types of myopathy (see below) is not known because patients or doctors are sometimes unaware of the presence of the condition.
The three recognised groups of cardiomyopathies are hypertrophic, dilated and restrictive.
•Hypertrophic myopathy, a familial condition, is characterised by great enlargement of the muscle of the heart ventricles. This reduces the muscle’s e?ciency, the ventricles fail to relax properly and do not ?ll suf?ciently during DIASTOLE.
In the dilated type of cardiomyopathy, both ventricles overdilate, impairing the e?ciency of contraction and causing congestion of the lungs.
In the restrictive variety, proper ?lling of the ventricles does not occur because the muscle walls are less elastic than normal. The result is raised pressure in the two atria (upper cavities) of the heart: these dilate and develop FIBRILLATION. Diagnosis can be di?cult and treatment is symptomatic, with a poor prognosis. In suitable patients, heart TRANSPLANTATION may be considered. Disorders of the heart muscle may also be
caused by poisoning – for example, heavy consumption of alcohol. Symptoms include tiredness, palpitations (quicker and sometimes irregular heartbeat), chest pain, di?culty in breathing, and swelling of the legs and hands due to accumulation of ?uid (OEDEMA). The heart is enlarged (as shown on chest X-ray) and ECHOCARDIOGRAPHY shows thickening of the heart muscle. A BIOPSY of heart muscle will show abnormalities in the cells of the heart muscle.
Where the cause of cardiomyopathy is unknown, as is the case with most patients, treatment is symptomatic using DIURETICS to control heart failure and drugs such as DIGOXIN to return the heart rhythm to normal. Patients should stop drinking alcohol. If, as often happens, the patient’s condition slowly deteriorates, heart transplantation should be considered.
Congenital heart disease accounts for 1–2 per cent of all cases of organic heart disease. It may be genetically determined and so inherited; present at birth for no obvious reason; or, in rare cases, related to RUBELLA in the mother. The most common forms are holes in the heart (atrial septal defect, ventricular septal defect – see SEPTAL DEFECT), a patent DUCTUS ARTERIOSUS, and COARCTATION OF THE AORTA. Many complex forms also exist and can be diagnosed in the womb by fetal echocardiography which can lead to elective termination of pregnancy. Surgery to correct many of these abnormalities is feasible, even for the most severe abnormalities, but may only be palliative giving rise to major diffculties of management as the children become older. Heart transplantation is now increasingly employed for the uncorrectable lesions.
Coronary artery disease Also known as ischaemic heart disease, this is a common cause of symptoms and death in the adult population. It may present for the ?rst time as sudden death, but more usually causes ANGINA PECTORIS, myocardial infarction (heart attack) or heart failure. It can also lead to a disturbance of heart rhythm. Factors associated with an increased risk of developing coronary artery disease include diabetes, cigarette smoking, high blood pressure, obesity, and a raised concentration of cholesterol in the blood. Older males are most affected.
Coronary thrombosis or acute myocardial infarction is the acute, dramatic manifestation of coronary-artery ischaemic heart disease – one of the major killing diseases of western civilisation. In 1999, ischaemic heart disease was responsible for about 115,000 deaths in England and Wales, compared with 153,000 deaths in 1988. In 1999 more than 55,600 people died of coronary thrombosis. The underlying cause is disease of the coronary arteries which carry the blood supply to the heart muscle (or myocardium). This results in narrowing of the arteries until ?nally they are unable to transport su?cient blood for the myocardium to function e?ciently. One of three things may happen. If the narrowing of the coronary arteries occurs gradually, then the individual concerned will develop either angina pectoris or signs of a failing heart: irregular rhythm, breathlessness, CYANOSIS and oedema.
If the narrowing occurs suddenly or leads to complete blockage (occlusion) of a major branch of one of the coronary arteries, then the victim collapses with acute pain and distress. This is the condition commonly referred to as a coronary thrombosis because it is usually due to the affected artery suddenly becoming completely blocked by THROMBOSIS. More correctly, it should be described as coronary occlusion, because the ?nal occluding factor need not necessarily be thrombosis.
Causes The precise cause is not known, but a wide range of factors play a part in inducing coronary artery disease. Heredity is an important factor. The condition is more common in men than in women; it is also more common in those in sedentary occupations than in those who lead a more physically active life, and more likely to occur in those with high blood pressure than in those with normal blood pressure (see HYPERTENSION). Obesity is a contributory factor. The disease is more common among smokers than non-smokers; it is also often associated with a high level of CHOLESTEROL in the blood, which in turn has been linked with an excessive consumption of animal, as opposed to vegetable, fats. In this connection the important factors seem to be the saturated fatty acids (low-density and very low-density lipoproteins [LDLs and VLDLs] – see CHOLESTEROL) of animal fats which would appear to be more likely to lead to a high level of cholesterol in the blood than the unsaturated fatty acids of vegetable fats. As more research on the subject is carried out, the arguments continue about the relative in?uence of the di?erent factors. (For advice on prevention of the disease, see APPENDIX 2: ADDRESSES: SOURCES OF INFORMATION, ADVICE, SUPPORT AND SELFHELP.)
Symptoms The presenting symptom is the sudden onset, often at rest, of acute, agonising pain in the front of the chest. This rapidly radiates all over the front of the chest and often down over the abdomen. The pain is frequently accompanied by nausea and vomiting, so that suspicion may be aroused of some acute abdominal condition such as biliary colic (see GALLBLADDER, DISEASES OF) or a perforated PEPTIC ULCER. The victim soon goes into SHOCK, with a pale, cold, sweating skin, rapid pulse and dif?culty in breathing. There is usually some rise in temperature.
Treatment is immediate relief of the pain by injections of diamorphine. Thrombolytic drugs should be given as soon as possible (‘rapid door to needle time’) and ARRHYTHMIA corrected. OXYGEN is essential and oral ASPIRIN is valuable. Treatment within the ?rst hour makes a great di?erence to recovery. Subsequent treatment includes the continued administration of drugs to relieve the pain; the administration of ANTIARRHYTHMIC DRUGS that may be necessary to deal with the heart failure that commonly develops, and the irregular action of the heart that quite often develops; and the continued administration of oxygen. Patients are usually admitted to coronary care units, where they receive constant supervision. Such units maintain an emergency, skilled, round-the-clock sta? of doctors and nurses, as well as all the necessary resuscitation facilities that may be required.
The outcome varies considerably. The ?rst (golden) hour is when the patient is at greatest risk of death: if he or she is treated, then there is a 50 per cent reduction in mortality compared with waiting until hospital admission. As each day passes the prognosis improves with a ?rst coronary thrombosis, provided that the patient does not have a high blood pressure and is not overweight. Following recovery, there should be a gradual return to work, care being taken to avoid any increase in weight, unnecessary stress and strain, and to observe moderation in all things. Smoking must stop. In uncomplicated cases patients get up and about as soon as possible, most being in hospital for a week to ten days and back at work in three months or sooner.
Valvular heart disease primarily affects the mitral and aortic valves which can become narrowed (stenosis) or leaking (incompetence). Pulmonary valve problems are usually congenital (stenosis) and the tricuspid valve is sometimes involved when rheumatic heart disease primarily affects the mitral or aortic valves. RHEUMATIC FEVER, usually in childhood, remains a common cause of chronic valvular heart disease causing stenosis, incompetence or both of the aortic and mitral valves, but each valve has other separate causes for malfunction.
Aortic valve disease is more common with increasing age. When the valve is narrowed, the heart hypertrophies and may later fail. Symptoms of angina or breathlessness are common and dizziness or blackouts (syncope) also occur. Replacing the valve is a very e?ective treatment, even with advancing age. Aortic stenosis may be caused by degeneration (senile calci?c), by the inheritance of two valvular leaflets instead of the usual three (bicuspid valve), or by rheumatic fever. Aortic incompetence again leads to hypertrophy, but dilatation is more common as blood leaks back into the ventricle. Breathlessness is the more common complaint. The causes are the same as stenosis but also include in?ammatory conditions such as SYPHILIS or ANKYLOSING SPONDYLITIS and other disorders of connective tissue. The valve may also leak if the aorta dilates, stretching the valve ring as with HYPERTENSION, aortic ANEURYSM and MARFAN’S SYNDROME – an inherited disorder of connective tissue that causes heart defects. Infection (endocarditis) can worsen acutely or chronically destroy the valve and sometimes lead to abnormal outgrowths on the valve (vegetations) which may break free and cause devastating damage such as a stroke or blocked circulation to the bowel or leg.
Mitral valve disease leading to stenosis is rheumatic in origin. Mitral incompetence may be rheumatic but in the absence of stenosis can be due to ISCHAEMIA, INFARCTION, in?ammation, infection and a congenital weakness (prolapse). The valve may also leak if stretched by a dilating ventricle (functional incompetence). Infection (endocarditis) may affect the valve in a similar way to aortic disease. Mitral symptoms are predominantly breathlessness which may lead to wheezing or waking at night breathless and needing to sit up or stand for relief. They are made worse when the heart rhythm changes (atrial ?brillation) which is frequent as the disease becomes more severe. This leads to a loss of e?ciency of up to 25 per cent and a predisposition to clot formation as blood stagnates rather than leaves the heart e?ciently. Mitral incompetence may remain mild and be of no trouble for many years, but infection must be guarded against (endocarditis prophylaxis).
Endocarditis is an infection of the heart which may acutely destroy a valve or may lead to chronic destruction. Bacteria settle usually on a mild lesion. Antibiotics taken at vulnerable times can prevent this (antibiotic prophylaxis) – for example, before tooth extraction. If established, lengthy intravenous antibiotic therapy is needed and surgery is often necessary. The mortality is 30 per cent but may be higher if the infection settles on a replaced valve (prosthetic endocarditis). Complications include heart failure, shock, embolisation (generation of small clots in the blood), and cerebral (mental) confusion.
PERICARDITIS is an in?ammation of the sac covering the outside of the heart. The sac becomes roughened and pain occurs as the heart and sac rub together. This is heard by stethoscope as a scratching noise (pericardial rub). Fever is often present and a virus the main cause. It may also occur with rheumatic fever, kidney failure, TUBERCULOSIS or from an adjacent lung problem such as PNEUMONIA or cancer. The in?ammation may cause ?uid to accumulate between the sac and the heart (e?usion) which may compress the heart causing a fall in blood pressure, a weak pulse and circulatory failure (tamponade). This can be relieved by aspirating the ?uid. The treatment is then directed at the underlying cause.... heart, diseases of
Commiphora mukulBurseraceaeSan: Gugulu, Mahisaksah, Koushikaha, DevadhupaHin: Gugal Mal:Gulgulu Tam,Tel: GukkuluKan: GuggulBen: GuggulImportance: Indian bdellium is a small, armed, deciduous tree from the bark of which gets an aromatic gum resin, the ‘Guggul’ of commerce. It is a versatile indigenous drug claimed by ayurvedists to be highly effective in the treatment of rheumatism, obesity, neurological and urinary disorders, tonsillitis, arthritis and a few other diseases. The fumes from burning guggul are recommended in hay- fever, chronic bronchitis and phytises.The price of guggulu gum has increased ten fold in ten years or so, indicating the increase in its use as well as decrease in natural plant stand. It has been listed as a threatened plant by Botanical Survey of India (Dalal, 1995) and is included in the Red Data Book (IUCN) and over exploited species in the country (Billare,1989).Distribution: The center of origin of Commiphora spp. is believed to be Africa and Asia. It is a widely adapted plant well distributed in arid regions of Africa (Somalia, Kenya and Ethiopia in north east and Madagascar, Zimbabwe, Botswana, Zaire in south west Africa), Arabian peninsula (Yemen, Saudi Arabia and Oman). Different species of Commiphora are distributed in Rajasthan, Gujarat, Maharashtra and Karnataka states of India and Sind and Baluchistan provinces of Pakistan (Tajuddin et al, 1994). In India, the main commercial source of gum guggul is Rajasthan and Gujarat.Botany: The genus Commiphora of family Burseraceae comprises about 185 species. Most of them occur in Africa, Saudi Arabia and adjoining countries. In India only four species have been reported. They are C. mukul(Hook. ex Stocks) Engl. syn. Balsamodendron mukul (Hook. ex Stocks), C. wightii (Arnott) Bhandari, C.stocksiana Engl., C. berryi and C.agallocha Engl.In early studies about the flora of India, the ‘guggul’ plant was known as Commiphora mukul(Hook. ex Stocks) Engl. or Balsamodendron mukul (Hook. ex Stocks). It was renamed as C. roxburghii by Santapau in 1962. According to Bhandari the correct Latin name of the species is C. wightii(Arnott) Bhandari, since the specific name ‘wightii’ was published in 1839, prior to ‘roxburghi’ in 1848 (Dalal and Patel, 1995).C. mukul is a small tree upto 3-4m height with spinescent branching. Stem is brownish or pale yellow with ash colored bark peeling off in flakes. Young parts are glandular and pubescent. Leaves are alternate, 1-3 foliate, obovate, leathery and serrate (sometimes only towards the apex). Lateral leaflets when present only less than half the size of the terminal ones. Flowers small, brownish red, with short pedicel seen in fascicles of 2-3. Calyx campanulate, glandular, hairy and 4-5 lobed. Corolla with brownish red, broadly linear petals reflexed at apex. Stamens 8-10, alternatively long and short. Ovary oblong, ovoid and stigma bifid. Fruit is a drupe and red when ripe, ovate in shape with 2-3 celled stones. The chromosome number 2n= 26 (Warrier et al, 1994; Tajuddin et al, 1994).Agrotechnology: Guggal being a plant of arid zone thrives well in arid- subtropical to tropical climate.The rainfall may average between 100mm and 500mm while air temperature may vary between 40 C in summer and 3 C during winter. Maximum relative humidity prevails during rainy season (83% in the morning and 48% in the evening).Wind velocity remains between 20-25 km/hour during the year is good. Though they prefer hard gypseous soil, they are found over sandy to silt loam soils, poor in organic matter but rich in several other minerals in arid tracks of western India (Tajuddin et al, 1994).Plants are propagated both by vegetatively and seeds. Plants are best raised from stem cuttings from the semi woody (old) branch. For this purpose one metre long woody stem of 10mm thickness is selected and the cut end is treated with IBA or NAA and planted in a well manured nursery bed during June-July months; the beds should be given light irrigation periodically. The cuttings initiate sprouting in 10-15 days and grow into good green sprout in 10-12 months. These rooted plants are suitable for planting in the fields during the next rainy season. The cuttings give 80-94% sprouting usually. Air layering has also been successfully attempted and protocol for meristem culture is available in literature. Seed germination is very poor (5%) but seedling produce healthier plants which withstand high velocity winds.The rooted cuttings are planted in a well laid-out fields during rainy season. Pits of size 0.5m cube are dug out at 3-4 m spacing in rows and given FYM and filler soil of the pit is treated with BHC (10%) or aldrin (5%) to protect the new plants from white ants damage. Fertilizer trials have shown little response except due to low level of N fertilization. Removal of side branches and low level of irrigation supports a good growth of these plants. The plantation does not require much weeding and hoeing. But the soil around the bushes be pulverised twice in a year to increase their growth and given urea or ammonium sulphate at 25- 50g per bush at a time and irrigated. Dalal et al (1989) reported that cercospora leaf spot was noticed on all the cultures. Bacterial leaf blight was also noticed to attack the cultures. A leaf eating caterpillar (Euproctis lanata Walker) attack guggal, though not seriously. White fly (Bemisia tabaci) is observed to suck sap of leaves and such leaves become yellowish and eventually drop. These can be effectively controlled by using suitable insecticide.Stem or branch having maximum diameter of about 5cm at place of incision, irrespective of age is tapped. The necrotic patch on the bark is peeled off with a sharp knife and Bordeaux paste is applied to the exposed (peeled off) surface of the stem or branch. A prick chisel of about 3cm width is used to make bark- deep incisions and while incising the bark, the chisel is held at an acute angle so that scooped suspension present on the body of the chisel flows towards the blade of the chisel and a small quantity of suspension flows inside the incised bark. If tapping is successful, gum exudation ensures after about 15-20 days from the date of incision and continues for nearly 30-45 days. The exuded gum slides down the stem or branch, and eventually drops on the ground and gets soiled. A piece of polythene sheet can be pouched around the place of incision to collect gum. Alternatively, a polythene sheet can be spread on the ground to collect exuded gum. A maximum of about 500g of gum has been obtained from a plant (Dalal, 1995).Post harvest technology: The best grade of guggul is collected from thick branches of tree. These lumps of guggul are translucent. Second grade guggul is usually mixed with bark, sand and is dull coloured guggul. Third grade guggul is usually collected from the ground which is mixed with sand, stones and other foreign matter. The final grading is done after getting cleansed material. Inferior grades are improved by sprinkling castor oil over the heaps of the guggul which impart it a shining appearance (Tajuddin et al, 1994).Properties and activity: The gum resin contains guggul sterons Z and E, guggul sterols I-V, two diterpenoids- a terpene hydrocarbon named cembreneA and a diterpene alcohol- mukulol, -camphrone and cembrene, long chain aliphatic tetrols- octadecan-1,2,3,4-tetrol, eicosan-1,2,3,4-tetrol and nonadecan-1,2,3,4-tetrol. Major components from essential oil of gum resin are myrcene and dimyrcene. Plant without leaves, flowers and fruits contains myricyl alcohol, -sitosterol and fifteen aminoacids. Flowers contain quercetin and its glycosides as major flavonoid components, other constituents being ellagic acid and pelargonidin glucoside (Patil et al, 1972; Purushothaman and Chandrasekharan, 1976).The gum resin is bitter, acrid, astringent, thermogenic, aromatic, expectorant, digestive, anthelmintic, antiinflammatory, anodyne, antiseptic, demulcent, carminative, emmenagogue, haematinic, diuretic, lithontriptic, rejuvenating and general tonic. Guggulipid is hypocholesteremic (Husain et al, 1992; Warrier et al, 1994).... indian bdellium
The leaflets or primary division of a pinnate leaf.... pinnae
A leaf that is pinnately cleft, but into lobes that do not reach the midrib, and not into separate leaflets.... pinnatifid
Pistacia speciesDescription: Some kinds of pistachio trees are evergreen, while others lose their leaves during the dry season. The leaves alternate on the stem and have either three large leaves or a number of leaflets. The fruits or nuts are usually hard and dry at maturity.Habitat and Distribution: About seven kinds of wild pistachio nuts are found in desert, or semidesert areas surrounding the Mediterranean Sea to Turkey and Afghanistan. It is generally found in evergreen scrub forests or scrub and thorn forests.Edible Parts: You can eat the oil nut kernels after parching them over coals.... wild pistachio
n. (pl. chordae) a cord, tendon, or nerve fibre. The chordae tendineae are stringlike processes in the heart that attach the margins of the mitral and tricuspid valve leaflets to projections of the wall of the ventricle (papillary muscles). Rupture of the chordae, through injury, endocarditis, or degenerative changes, results in *mitral regurgitation.... chorda
Aegle marmelosRutaceaeSan: Bilva, Sriphal Hin, Ben, Ass: Bael Mal: KoovalamTam: Vilvam Mar,Ben: BaelaTel: Marendu, BilvaponduGuj: BilviphalKan: BilvapatraImportance: 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
A pinnate compound leaf whose leaflets, in turn, are stems that have pinnate leaflets.... bipinnate
A compound leaf divided in threes, whose leaflets are in turn di- vided in pairs.... biternate
Reduced or modified leaflets that are usually parts of flowers or an inflorescence, generally subtending or beneath the floral parts.... bracts
Bauhinia variegataCaesalpiniaceaeSan: Kancanarah, Kovidarah;Hin: Kancanar;Ben: Rakta Kanchan;Tam: Sigappu-mandaraiMal: Mandaram, Chuvannamandaram, Malayakatti, Kongu, Kongumandaram;Tel: Daeva Kanchanamu, Mandara;Kan: Ullipe, Kanchavala, Kempu MandaraImportance: In traditional medicine, Bauhinia is extensively used in glandular diseases and as an antidote to poison. The drug is also reported to be useful in dysentery, diarrhoea, piles and worms (Kurup et al, 1979; Sharma et al, 1983). They are useful in vitiated conditions of kapha and pitta, diarrhoea, dysentery, skin diseases, leprosy, intestinal worms, tumours, wounds, ulcers, inflammations, scrofula, protoptosis, haemorrhoids, haemoptysis, cough, menorrhagia and diabetics. Usirasavam and Candanasavam are some of the preparations using the drug. An important Ayurvedic preparation, “Kanchnar Guggal” contains bark of this plant. In Unani system, the flowers are used in “Hab Mussafi Khun”, for skin diseases, the bark is used in “Sufuf Kalan”-an aphrodisiac.Distribution: The plant is distributed in the Sub-Himalayan tracts from the Indus eastwards and throughout the dry forests of India, ascending to 1300m. It is also cultivated throughout the plains.Botany: Bauhinia variegata Linn. syn. B.candida Roxb. belonging to the family Caesalpiniaceae is a moderate sized deciduous tree with vertically cracked grey bark, wood moderately hard, greyish brown with irregular darker patches. Leaves are of 2 leaflets, connate for about two-thirds up. Leaflets are ovate with rounded apex, 10-15cm long, pubescent beneath when young and coriaceous. Flowers are white or pink, the uppermost petal darker and variegated usually appearing before the leaves in short axillary or terminal racemes. Stamens are 5 and stamenodes absent. Fruits are flat dehiscent pods with 10-15 seeds (Warrier et al, 1993).Other important species of the genus Bauhinia are as follows.1. B. tomentosa Linn.It is the yellow or golden flowered one, commonly known as Manja Mandaram. It is found in Africa and Asia. In India it is found wild in dry deciduous forests and often cultivated. The plant is antidysenteric, antidote for snakebite and scorpion sting and also used in liver complaints. The bark is astringent. Root bark is vermifuge. Fruit is diuretic. Seed is tonic, wound healing and aphrodisiac.2. B. purpurea Linn.Pink Bauhinia or Camel’s Foot tree is found in South and S. E. Asia. In India, it is found in deciduous forests. Root is carminative and tonic. Bark is astringent and antidiarrhoeal and is used in ulcer and goitre. Flowers are laxative. The experimental studies conducted by Sijoria and Prasad (1979) on animals indicate that B. purpurea is very effective in normalising the thyroid gland.3. B. racemosa Lam.The plant is found in Sub-Himalayan tracts, in U.P, West Bengal, Central and South India. The leaf is anticephalalgic and antimalarial. Bark is astringent, antidiarrhoeal. The seeds are antibacterial. Stem-bark is CVS and CNS active, hypothermic and anticancerous.4. B. malabarica Roxb.Malabar Mountain Ebony is found in Sub-Himalayan tracts, from Kumaon to West Bengal, ascending to 1350m, Assam, Bihar and South India. The flowers of this plant are antidysenteric.5. B. retusa Roxb.The plant is distributed in north-western Himalayas from the Beas eastwards, Himachal Pradesh, U.P., Orissa, M.P. and A.P. The gum of the plant is emmenagogue, diuretic and can be used externally in sores. The seed is hypoglycaemic and hypocholesterolaemic. The aerial part is CVS active and has effect on respiration.6. B. vahlii W.&A.Camel’s Foot climber is found in Punjab, Bihar, Assam, Madhy Pradesh, Andra Pradesh and Tamil Nadu. Leaf is demulcent. Seed is tonic and aphrodisiac. Stem is CVS active, antiarrhythmic and spasmolytic.Agrotechnology: Well drained hilly areas are ideal for the cultivation of Bauhinia. The plant is seed propagated. Seeds are formed in February-March. Seeds are to be collected from the dried pods, soaked in water for 12 hours before sowing in seedbeds. At four-leaved stage they are to be transferred to polybags. Two month old seedlings from polybags are used for field planting. Pits of size 60cm cube are to be taken and filled with 10kg dried cowdung mixed with topsoil and formed into a mound. On these seedlings are to be planted at a distance of 6-7.5m. Irrigation is to be given in the first year. Two weedings and application of organic manure once is required in a year. The plant is not attacked by any serious pests and diseases. The plant flowers on the third year. At the end of tenth year the tree can be cut and wood used for medicinal purposes (Prasad et al, 1997).Properties and activity: Flowers contain flavanoids-kaempferol-3-galactoside and kaempferol-3- rhamnoglucoside. Stem bark yields hentriacontane, octacosanol and stigmasterol. Stem yields -sitisterol, lupiol and a flavanone glycoside-5, 7-dimethoxy flavanone 4-O- -L- rhamnopyranoside- -D-glucopyranoside. Seeds possess human blood agglutinating activity. Stem bark is hypothermic, CNS active and depressant. Bud, flower, leaf and stembark are antibacterial. Stem possesses juvenoid activity. Bark is alterative, tonic, antileprotic and antirheumatic. Bud is antidysenteric. Root is carminative and antidote for snakebite. Bark, flower and root promote suppuration. Bark and bud are astringent and vermifuge (Husain et al, 1992).... bauhinia
Acacia catechuMimosaceaeSan:Khadirah;Hin:Khair, Khaira;Ben: Kuth;Mal: Karingali;Tam: Karunkali;Tel: Sandra, Khandiramu;Kan: KaggaliImportance: Catechu is a medium deciduous tree commonly used as a blood purifier and for leoprosy and leucoderma. Catechu or Cutch tree bark is useful in melancholia, conjunctivitis and haemoptysis. It is useful in vitiated conditions of kapha and pitta, catarrh, cough, pruritus, leprosy, leucoderma, skin diseases, helminthiasis, anorexia, diarrhoea, dysentery, foul ulcers and wounds, haemoptysis, haematemesis, haemorrhages, intermittent fever, inflammations, odontopathy, anaemia, diabetes, splenomegaly and pharyngodyna. The gummy extract of the wood (kath) is useful in laryngopathy, flatulence, anorexia, ulcers, wounds, helminthiasis, leucoderma, leoprosy, skin diseases, urorrhea, colporrhagia, erysipelas and odontopathy. For leprosy, root, leaf, flower, bark and fruits are made into a decoction which is given orally as well as for external dressing. In Unani system it is used in “Marham Kharish Jadid” for skin diseases. “Khadirarisht” is an oral medicine, while “Marham” is for external application.Distribution:It is widely distributed in tropical countries. In India, it is observed from the Indus eastwards to Assam and throughout Peninsular India.Botany: The genus Acacia belonging to the family Mimosaceae consists of a number of species. The important ones are listed as below:A. catechu Willd. A. caesia Willd. A. arabica Willd. A. concinna DC.A. farnesiana Willd.A. ferruginea DC.A. instia W. & A. syn. A. caesia Willd.A. jacquemontii Benth. A. leucophloea Willd. A. modesta Wall.A. pinnata (Linn.) Willd.A. pycnantha Benth.A. senegal Willd.A. suma Buch-Ham. syn. A. suma Kurz.A. catechu is a moderate sized deciduous tree, 9-12m in height with dark greyish or brown rough bark and hooked short spines. Leaves are bipinnately compound, leaflets 30-50 pairs, main rachis pubescent with a large conspicuous gland near the middle of the rachis. Flowers are pale yellow, sessile in peduncled axiallary spikes. Fruits are flat brown pods, shiny and with a triangular beak at the apex and narrowed at the base. Seeds are 3-10 per pod.The gummy extract of the wood is commercially known as ‘ Kath’ or ‘Cutch’. The cutch available in the market is brittle, of different shapes and dark brown in colour. On breaking, it is found to be shiny and form crystal like pieces (Warrier et al, 1993).Agrotechnology: Catechu is suited to hilly areas and rocky places. The plant is propagated by seeds.Seeds are soaked in water for 6 hours and sown in seedbeds. Seeds germinate within a month. At four-leaf stage, seedlings are planted in polybags. Two months old seedlings from the polybags are used for transplanting. Pits of size 50cm cube are taken at a distance of 4-5m between plants and filled with topsoil, sand and dried cowdung in 1:1:1 ratio. Seedlings are planted in these pits. Application of organic manure every year during the rainy season is beneficial. Regular weeding is to be carried out. Pruning of branches and tender shoots developing from the base of the plant can be done from second year onwards. Tree is to be grown as single stemmed one. Flowering and fruiting commences from fourth year onwards. At the end of tenth year, the tree can be cut and heartwood collected (Prasad et al, 1997).Properties and Activity: Heartwood contains kaempferol, dihydro kaempferol, taxifolin, iso rhamnetin(+)- afzelchin, a dimeric procyanidin, quercetin, (-)epi-catechin, (-)catechin, fisetin, quercetagetin and (+)-cyanidanol. The main constituent of heartwood is catechin and catechu tannic acid. Catechin is a mixture of at least four isomers and L(-)epicatechin has been isolated and characterised (Rao et al,1948; Husain et al,1992).The bark is anthelmintic, antipyretic, antiinflammatory and antileprotic. The flowers are antigonorrhoeic. The cutch from wood is anthelmintic, tonic and aphrodisiac. Bark and cutch are antidiarrhoeal, astringent and stomachic. Cyanidanol is hepatoprotective. The wood is hypoglycaemic, antiinflammatory and hypotensive. The stem is spasmolytic and antiviral (Husain et al, 1992).... catechu
Cocos nuciferaDescription: This tree has a single, narrow, tall trunk with a cluster of very large leaves at the top. Each leaf may be over 6 meters long with over 100 pairs of leaflets.Habitat and Distribution: Coconut palms are found throughout the tropics. They are most abundant near coastal regions.Edible Parts: The nut is a valuable source of food. The milk of the young coconut is rich in sugar and vitamins and is an excellent source of liquid. The nut meat is also nutritious but is rich in oil. To preserve the meat, spread it in the sun until it is completely dry.Other Uses: Use coconut oil to cook and to protect metal objects from corrosion. Also use the oil to treat saltwater sores, sunburn, and dry skin. Use the oil in improvised torches. Use the tree trunk as building material and the leaves as thatch. Hollow out the large stump for use as a food container. The coconut husks are good flotation devices and the husk’s fibers are used to weave ropes and other items. Use the gauzelike fibers at the leaf bases as strainers or use them to weave a bug net or to make a pad to use on wounds. The husk makes a good abrasive. Dried husk fiber is an excellent tinder. A smoldering husk helps to repel mosquitoes. Smoke caused by dripping coconut oil in a fire also repels mosquitoes. To render coconut oil, put the coconut meat in the sun, heat it over a slow fire, or boil it in a pot of water. Coconuts washed out to sea are a good source of fresh liquid for the sea survivor.... coconut
Indigofera tinctoriaPapilionaceaeSan:Nilini, Ranjani, Nilika, Neelam, Aklika, Asita, Bhadra; Ben, Guj:Nil;Hin:Gouli;Mal: Neelamari;Tam: Averi;Tel: Aviri, Nili;Kan: Nili; Mar: Nali; Ori: NeliImportance: 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
Murraya KoenigiiRutaceaeSan: Kalasakh, KaidaryahHin: Mithinim, KatnimBen: BarsungaMal: Kariveppu, KaruveppuTam: Kariveppilai, KaruveppuKan: Kari BaevaTel: KarivepakuAss: Narasingha, BishahariImportance: Curry leaf, a plant of homestead gardens has gained importance as a commercial crop and is cultivated for its culinary and medicinal value. The plant is highly esteemed for its leaves which promote appetite and digestion and destroy pathogenic organisms. It is reported to be useful in emaciation, skin diseases, hemopathy, worm troubles, neurosis and poisons. They are useful in vitiated conditions of kapha and pitta, hyperdipna, colic, flatulence, diarrhoea, dysentery, vomiting, inflammations and foul ulcers. “Kaidaryah” drug is prepared using this plant which improves voice, stimulates digestion and destroys concocted poisons in the system. The important preparations using the drug are Kalasadi kasayam, Pamantaka tailam, Jatyadi tailam, Jatyadi ghrtam, etc (Sivarajan et al,1994).Distribution: Curry leaf is seen in the foot of the Himalaya and Bashahi eastwards to Sikkim and Peninsular India, upto 1700m. It is also found in Sri Lanka, Burma, Indo-China, South China and Hainan. Commercial cultivation in India is limited to Tamil Nadu and Karnataka states.Botany: The genus Murraya of the family Rutaceae includes the following species:M. Koenigii (Linn.) Spreng. syn. Bergera koenigii Linn.M. Exotica Linn. syn. M. paniculata (Linn.) Jack.Murraya koenigii is a small aromatic tree with dark grey bark and closely crowded spreading dark green foliage. Leaves are imparipinnate and alternate. Leaflets are alternate, obliquely ovate or somewhat rhomboid, gland dotted and strongly aromatic. Flowers are white, arranged in much branched terminal corymbose cymes and fragrant. Fruits are subglobose or ellipsoid berries, purplish black when ripe and 2-seeded (Warrier et al, 1995).Agrotechnology: Curry leaf tree does not choose a specific climate and can come up even in dry climate too. In places where minimum temperature goes below 13 C, the growth of the shoot will be slightly affected. It comes up well in light textured red soils. DWD-1 and DWD-2 are two improved varieties released from UAS, Dharwad. Curry leaf is propagated by seed. Main field is to be ploughed repeatedly. A spacing of 90-120cm is followed on either side. Pits of size 30cm3 are dug out one month before planting and filled with top soil mixed with well decomposed FYM at the time of planting. Healthy seedlings are planted in the centre of the pits. Then long furrows are formed connecting all the pits to facilitate easy irrigation. The seedlings are irrigated once in 5-7 days upto 3 years and once in 15 days afterwards. The field should be kept free from weeds. Plants may be trained and pruned to maintain a bush of 1m in height. For better growth and yield, each plant is fertilised with 20kg of FYM besides 150:25:50g of N, P2O5, K2O/ year. Attack of aphids in the vegetative stage can be controlled by spraying of dimethoate at 2ml/l of water. Leaves from such sprayed plants should be harvested only after 10 days. Spraying carbendazim at 1g/l can take care of leaf spot diseases. The crop comes to first harvest at the end of first year. The yield of leaves account to 400kg/ha at the end of first year, 2000 to 2200kg/ha in the second and third year harvested at an interval of four months and 2500kg/ha in the fourth year harvested at three months interval. From fifth year onwards it is harvested at 2.5-3 months interval giving an yield of 3500-5000kg/ha (Kumar et al, 1997).Properties and activity: All parts of the plant, especially the leaves are rich in carbazole alkaloids. These include members with (i) C13 - skeleton -murrayanin, mukoeic acid, mukonine and mukonidine; (ii) C18 - skeleton including gerinimbine, koenimbine, murrayacine, koenigine and koenigicine (koenidine); and (iii) C23- skeleton containing mahanimbine, mahanimbicine, iso- mahanimbicine, mahanine, mahanimbinine, murrayayazoline, murrayazolinine, murrayazolidine, cyclomahanimbine and bicyclomahanimbicine. Other carbazole bases include mukoline, mukolidine (C13 group, from roots), mukonicine (C18 from leaves), the biogenetically significant mukonal (C13, stem-bark), mahanimboline (C23, root-bark), iso- murrayazoline (C23, stem-bark). The leaves gave a coumarin glucoside, scopolin also. Essential oil from leaves contained -caryophylline, -gurjunene, -elemene, - phellandrene, -thujene as major constituents.The roots, bark and leaves are bitter, acrid, astringent, cooling, aromatic, demulcent, depurative, anthelmintic, febrifuge, stomachic, appetising, carminative, antiinflammatory and antiseptic. Aerial part is spasmolytic and antiprotozoal. Root is antiprotozoal, CVS active and has effect on nictitating membrane. Leaf is hypoglycaemic (Hussain et al,1992).... curry leaf
If you’re a fan of herbal teas, you have to try saw palmetto tea! It’s special, as it is made from the berries of a small palm. Read more about its health benefits and side effects!
About Saw Palmetto Tea
Saw palmetto tea is made from the fruit saw palmetto, also known by its scientific name, Serenoa repens. It is the sole species which remains classified in the genus Serenoa. It is a small palm, native to the southeastern part of the United States.
Its height varies between 2 and 4m. Its leaves are 1-2m long and have a bare petiole, with a rounded fan of about 20 leaflets at the end; the petiole has fine, sharp teeth or spines. The flowers are small, yellowish-white and produced in dense panicles, and the fruit is a large, reddish-black berry.
How to prepare Saw Palmetto Tea
A cup of saw palmetto tea can be prepared with either the plant’s berries, or normal teabags.
In case you’re using saw palmetto berries, add a teaspoon of the fruits to a cup of freshly boiled water. Let it steep for about 5 minutes, before you strain to remove the berries. Sweeten it, if necessary, with honey or fruit juice.
If you’ve got saw palmetto tea bags, follow the instructions on the tea box.
Saw Palmetto Tea Constituents
Saw palmetto tea gets many active constituents from its main ingredient: saw palmetto berries. The constituents of the berries include a high concentration of fatty acids and phytosterols, as well as beta-sitosterol, capric acid, ferulic acid, palmitic acid, and stearic acid.
Saw Palmetto Tea Benefits
Saw palmetto tea is known for its important role in treating urinary tract infections. Drinking this tea helps to gently stimulate urination; thanks to this, the infectious microorganisms are “flushed out” along with the urine.
Drinking saw palmetto tea helps remove toxins and waste products which can affect and reduce the functions of the kidneys, liver, and bladder. It also helps with the digestive system; it is drunk to treat diarrhea, acid reflux, gas, bloating, and irritable bowel syndrome.
Saw palmetto tea also helps calm coughs and treats various forms of chest congestion. It is useful if you’ve got a headache. It can be used to treat benign prostate enlargement and prostatitis, as well.
Saw Palmetto Tea Side Effects
You shouldn’t drink saw palmetto tea if you’re pregnant or breastfeeding. It can act like a hormone, which might lead to problems.
Drinking saw palmetto tea before a surgery is also bad. It might slow down the blood clotting process, which might lead to extra bleeding both during and after the surgery. It is recommended that you stop drinking this tea two weeks before you’ve got a surgery scheduled.
Although rare, the possibility of getting an allergic reaction to saw palmetto tea still exists. Symptoms include rashes, itchiness, difficulty in breathing, and swelling of the mouth, tongue or nose.
Also, be careful with the amount of saw palmetto tea you drink. The recommended amount is 3-4 cups a day. If you drink too much, you might get some of the following symptoms: dizziness, headache, nausea, vomiting, constipation, and diarrhea.
Saw palmetto tea can easily be used as a daily hot beverage. You’re bound to enjoy both the taste and its many health benefits.... discover saw palmetto tea!
Caryota urensDescription: Fishtail palms are large trees, at least 18 meters tall. Their leaves are unlike those of any other palm; the leaflets are irregular and toothed on the upper margins. All other palms have either fan-shaped or featherlike leaves. Its massive flowering shoot is borne at the top of the tree and hangs downward.Habitat and Distribution: The fishtail palm is native to the tropics of India, Assam, and Burma. Several related species also exist in Southeast Asia and the Philippines. These palms are found in open hill country and jungle areas.Edible Parts: The chief food in this palm is the starch stored in large quantities in its trunk. The juice from the fishtail palm is very nourishing and you have to drink it shortly after getting it from the palm flower shoot. Boil the juice down to get a rich sugar syrup. Use the same method as for the sugar palm to get the juice. The palm cabbage may be eaten raw or cooked.... fishtail palm
Trigonella foenum-graecumFabaceaeSan: Methika, Methi, Kalanusari;Hin: Meti, Mutti; Ben, Mar: Methi;Mal: Uluva;Tam: Ventayam;Kan: Mentya, Menlesoppu;Tel: Mentulu, Mentikura; Arab: HulabahaImportance: Fenugreek or Greek Hayes is cultivated as a leafy vegetable, condiment and as medicinal plant. The leaves are refrigerant and aperient and are given internally for vitiated conditions of pitta. A poultice of the leaves is applied for swellings and burns. Seeds are used for fever, vomiting, anorexia, cough, bronchitis and colonitis. In the famous Malayalam treatises like ‘Padhyam’ ‘Kairali’ and ‘Arunodhayam’, uluva is recommended for use as kalanusari in Dhanvantaram formulations of ‘Astaghradayam’. An infusion of the seeds is a good cool drink for small pox patients. Powdered seeds find application in veterinary medicine. An aqueous extract of the seeds possesses antibacterial property (Kumar et al, 1997; Warrier et al, 1995).Distribution: Fenugreek is a native of South Eastern Europe and West Asia. In India fenugreek is grown in about 0.30 lakh ha producing annually about 30,000 tonnes of seeds. The major states growing fenugreek are Rajasthan, Madhya Pradesh, Gujarat, Uttar Pradesh, Maharashtra, Punjab and Karnataka. It is grown wild in Kashmir and Punjab.Botany: Trigonella foenum-graecum Linn. belongs to family, Fabaceae. It is an annual herb, 30-60cm in height, leaves are light green, pinnately trifoliate, leaflets toothed, flowers are white or yellowish white, papilionaceous and axillary. Fruits are legumes, 5-7.5cm long, narrow, curved, tapering with a slender point and containing 10-20 deeply furrowed seeds per pod. There are two species of the genus Trigonella which are of economic importance viz. T. foenum graecum, the common methi and T. corniculata, the Kasuri methi. These two differ in their growth habit and yield. The latter one is a slow growing type and remains in rosette condition during most of the vegetative growth period (Kumar et al, 1997; Warrier et al, 1995).Agrotechnology: Fenugreek has a wide adaptability and is successfully cultivated both in the tropics as well as temperate regions. It is tolerant to frost and freezing weather. It does well in places receiving moderate or low rainfall areas but not in heavy rainfall area. It can be grown on a wide variety of soils but clayey loam is relatively better. The optimum soil pH should be 6-7 for its better growth and development. Some of the improved cultivars available for cultivation are CO1 (TNAU), Rajendra Kanti (RAU), RMt-1(RAU) and Lam Selection-1 (APAU). Land is prepared by ploughing thrice and beds of uniform size are prepared. Broadcasting the seed on the bed and raking the surface to cover the seeds is normally followed. But to facilitate intercultural operations, line sowing is also advocated in rows at 20-25cm apart. Sowing in the plains is generally in September-November while in the hills it is from March. The seed rate is 20-25kg/ha and the seeds germinate within 6-8 days. Besides 15t of FYM, a fertiliser dose of 25:25:50kg NPK/ha is recommended. Entire P,K and half N are to be applied basally and the remaining half N 30 days after sowing. First irrigation is to be given immediately after sowing and subsequent irrigations at 7-10 days interval. Hoeing and weeding are to be done during the early stages of plant growth and thinning at 25-30 days to have a spacing of 10-15cm between plants and to retain 1-2 plants per hill. Root rot (caused by Rhizoctonia solani) is a serious disease and can be controlled by drenching carbendazim 0.05% first at the onset of the disease and another after one monthof first application. In about 25-30 days, young shoots are nipped off 5cm above ground level and subsequent cuttings of leaves may be taken after 15 days. It is advisable to take 1-2 cuttings before the crop is allowed for flowering and fruiting when pods are dried, the plants are pulled out, dried in the sun and seeds are threshed by beating with stick or by rubbing with hands. Seeds are winnowed, cleaned and dried in the sun. They may be stored in gunny bags lined with paper. An yield of 1200-1500kg of seeds and about 800-1000kg of leaves may be obtained per hectare in crops grown for both the purposes (Kumar et al, 1997).Properties and activity: Seeds contain sapogenins-diosgenin, its 25-epimer(yamogenin), tigogenin, gitogenin, yuccagenin, 25-2-spirosta-3-5-diene and its -epimer. Seeds also contain a C27-steroidal sapogenin-peptide ester-fenugreekine. Seeds, in addition, contain 4-hydroxyleucine and saponins-fenugrins A-E:two furostanol glycoxides-trigonelloxide C and (255)-22-O-methyl-52-firostan-3 ,22,26,triol-3-O- -rhamnopyrans syl(1-2) C- -D-glucopyranosyl (1-3)- -D- glucopyranoxide-26-O- -D-glucopyranoxide.Other chemical constituents are sterols- -sitosterol and cholesterol, flavone C- glycosides-vitexin, iso-vitexin, vitexin-2”-O-P-coumarate and vicenin-2. Flavonoids- quercetin and luteolin, flavonoid glycoside-vicenin-I. Invitro seedling callus culture gave flavonoids-luteolin and vitexin-1-glycoside. An essential oil is also reported from seeds. Leaves gave saponins-gracecunins A-G, flavonoids- kaempferol and quercetin; sterols- - sitosterol, sapogenins-diosgenin, gitogenin coumarin-scopoletin is also reported from the plant.Seeds are bitter, mucilaginous, aromatic, carminative, tonic, diuretic, thermogenic, galactagogue, astringent, emollient, amophrodisiac, antirheumatic, CNS depressant and antiimplantation. Fenugreekine is hypoglycaemic, diuretic, hypotensive, cardiotonic, antiphlogistic. It showed 80% inhibition of vaccina virus.... fenugreek
Nipa fruticansDescription: This palm has a short, mainly underground trunk and very large, erect leaves up to 6 meters tall. The leaves are divided into leaflets. A flowering head forms on a short erect stern that rises among the palm leaves. The fruiting (seed) head is dark brown and may be 30 centimeters in diameter.Habitat and Distribution: This palm is common on muddy shores in coastal regions throughout eastern Asia.Edible Parts: The young flower stalk and the seeds provide a good source of water and food. Cut the flower stalk and collect the juice. The juice is rich in sugar. The seeds are hard but edible.Other Uses: The leaves are excellent as thatch and coarse weaving material.... nipa palm
Pongamia pinnataPapilionaceaeSan: Karanj;Hin: Karanja, Dittouri;Ben: Dehar karanja;Mal: Ungu, Pongu; Guj, Mar, Pun: Karanj;Kan: Hongae;Tel: Kangu;Tam: Puggam; Ass: Karchaw; Ori: KoranjoImportance: Indian beech, Pongam oil tree or Hongay oil tree is a handsome flowering tree with drooping branches, having shining green leaves laden with lilac or pinkish white flowers. The whole plant and the seed oil are used in ayurvedic formulations as effective remedy for all skin diseases like scabies, eczema, leprosy and ulcers. The roots are good for cleaning teeth, strengthening gums and in gonorrhoea and scrofulous enlargement. The bark is useful in haemorhoids, beriberi, ophthalmopathy and vaginopathy. Leaves are good for flatulence, dyspepsia, diarrhoea, leprosy, gonorrhoea, cough, rheumatalgia, piles and oedema. Flowers are given in diabetes. Fruits overcomes urinary disease and piles. The seeds are used in inflammations, otalgia, lumbago, pectoral diseases, chronic fevers, hydrocele, haemorrhoids and anaemia. The seed oil is recommended for ophthalmia, haemorrhoids, herpes and lumbagoThe seed oil is also valued for its industrial uses. The seed cake is suggested as a cheap cattle feed. The plant enters into the composition of ayurvedic preparations like nagaradi tailam, varanadi kasayam, varanadi ghrtam and karanjadi churna.It is a host plant for the lac insect. It is grown as a shade tree. The wood is moderately hard and used as fuel and also for making agricultural implements and cart- wheels.Distribution: The plant is distributed throughout India from the central or eastern Himalaya to Kanyakumari, especially along the banks of streams and rivers or beach forests and is often grown as an avenue tree. It is distributed in Sri Lanka, Burma, Malaya, Australia and Polynesia.Botany: Pongamia pinnata (Linn.) Pierre syn. P. glabra Vent., Derris indica (Lam.) Bennet, Cystisus pinnatus Lam. comes under family Papilionaceae. P. pinnata is a moderate sized, semi -evergreen tree growing upto 18m or more high, with a short bole, spreading crown and greyish green or brown bark. Leaves imparipinnate, alternate, leaflets 5-7, ovate and opposite. Flowers lilac or pinkish white and fragrant in axillary recemes. Calyx cup-shaped, shortly 4-5 toothed, corolla papilionaceous. Stamens 10 and monadelphous, ovary subsessile, 2-ovuled with incurved, glabrous style ending in a capitate stigma. Pod compressed, woody, indehiscent, yellowish grey when ripe varying in size and shape, elliptic to obliquely oblong, 4.0-7.5cm long and 1.7-3.2cm broad with a short curved beak. Seeds usually 1, elliptic or reniform, wrinkled with reddish brown, leathery testa.Agrotechnology: The plant comes up well in tropical areas with warm humid climate and well distributed rainfall. Though it grows in almost all types of soils, silty soils on river banks are most ideal. It is tolerant to drought and salinity. The tree is used for afforestation, especially in watersheds in the drier parts of the country. It is propagated by seeds and vegetatively by rootsuckers. Seed setting is usually in November. Seeds are soaked in water for few hours before sowing. Raised seed beds of convenient size are prepared, well rotten cattle manure is applied at 1kg/m2 and seeds are uniformly broadcasted. The seeds are covered with a thin layer of sand and irrigated. One month old seedlings can be transplanted into polybags, which after one month can be planted in the field. Pits of size 50cm cube are dug at a spacing of 4-5m, filled with top soil and manure and planted. Organic manure are applied annually. Regular weeding and irrigation are required for initial establishment. The trees flower and set fruits in 5 years. The harvest season extends from November- June. Pods are collected and seeds are removed by hand. Seed, leaves, bark and root are used for medicinal purposes. Bark can be collected after 10 years. No serious pests and diseases are reported in this crop.Properties and activity: The plant is rich in flavonoids and related compounds. Seeds and seed oil, flowers and stem bark yield karanjin, pongapin, pongaglabrone, kanugin, desmethoxykanugin and pinnatin. Seed and its oil also contain kanjone, isolonchocarpin, karanjachromene, isopongachromene, glabrin, glabrachalcone, glabrachromene, isopongaflavone, pongol, 2’- methoxy-furano 2”,3”:7,8 -flavone and phospholipids. Stem-bark gives pongachromene, pongaflavone, tetra-O-methylfisetin, glabra I and II, lanceolatin B, gamatin, 5-methoxy- furano 2”,3”:7,8 -flavone, 5-methoxy-3’,4’-methelenedioxyfurano 2”,3”:7,8 -flavone and - sitosterol. Heartwood yields chromenochalcones and flavones. Flowers are reported to contain kanjone, gamatin, glabra saponin, kaempferol, -sitosterol, quercetin glycocides, pongaglabol, isopongaglabol, 6-methoxy isopongaglabol, lanceolatin B, 5-methoxy-3’,4’- methelenedioxyfurano 8,7:4”,5” -flavone, fisetin tetramethyl ether, isolonchocarpin, ovalichromene B, pongamol, ovalitenon, two triterpenes- cycloart-23-ene,3 ,25 diol and friedelin and a dipeptide aurantinamide acetate.Roots and leaves give kanugin, desmethoxykanugin and pinnatin. Roots also yield a flavonol methyl ether-tetra-O-methyl fisetin. The leaves contain triterpenoids, glabrachromenes I and II, 3’-methoxypongapin and 4’-methoxyfurano 2”,3”:7,8 -flavone also. The gum reported to yield polysaccharides (Thakur et al, 1989; Husain et al, 1992).Seeds, seed oil and leaves are carminative, antiseptic, anthelmintic and antirheumatic. Leaves are digestive, laxative, antidiarrhoeal, bechic, antigonorrheic and antileprotic. Seeds are haematinic, bitter and acrid. Seed oil is styptic and depurative. Karanjin is the principle responsible for the curative properties of the oil. Bark is sweet, anthelmintic and elexteric.... indian beech
Glycyrrhiza glabraPapilionaceaeSan: Yashtimadhu Hin: Jathimadh Mal: Irattimadhuram Tam:AthimadhuramTel: YashtimadhukamBen: Yashtomadhu Pun:MuletiImportance: Liquorice or Muleti is a perennial herb or undershrub about 1m high. Its dried peeled or unpeeled underground stems and roots constitute the drug which is an important constituent of all cough and catarrh syrups, throat lozenges and pastilles. This has been used in medicine for more than 4000 years. Hippocrates (400 BC) mentioned its use as a remedy for ulcers and quenching of thirst. Dioscorides, the father of Greek medicine described this drug in detail and considered it useful for maintaining shape of arteries and in burning stomach, trouble of liver and kidney, scabies, healing of wounds and as a remedy for eye diseases. It has been used in Arab system of medicine for more than 600 years from where it has been adopted to modern medicine (Gibson, 1978).The commercial name of the dried rhizome and root of the plant is liquorice which is used as flavouring agent and the taste coorigent in pharmaceutical and confectionery industries and its products are widely reported to be useful in ulcer therapy. Glycyrrhizin, a triterpene glucoside, is the principal constituent of G. glabra which is 50 times sweeter than sugar.Distribution: Liquorice is native to Mediterranean region, South Europe and Middle East. It is widely distributed in Spain, Italy, Greece, Syria, Iraq, Afghanistan, Turkey, parts of USSR and China. However its cultivation is limited to small areas in USSR, UK, and USA. In India, it grows in Punjab and Jammu and Kashmir. Semi arid areas of Haryana, Rajasthan and Gujarath states are suitable for the cultivation of Liquorice. However, its commercial cultivation has not yet been possible and the domestic requirement is largely met through imports.Botany: Glycyrrhiza glabra Linn. belongs to the family Papilionaceae. The word Glycyrrhiza is of Greek origin meaning ‘sweet’ and glabra means ‘smooth’ which refers to smooth fruit of the species. This is a tall perennial, self pollinated herb or undershrub about 1m high with long cylindrical burrowing rootstock and horizontal creeping stolons which reach 1.5-1.8m in length. Leaves are alternate, pinnate with 9-17 leaflets. Leaflets are yellowish-green, 2.5-5cm long, ovate and obtuse. Flowers are pale blue arranged in a raceme and 1.25cm long. Calyx is glandular and pubescent. The pods are glabrous, red to brown having 3-4 seeds. Rhizome is soft, flexible and fibrous with light yellow colour and a characteristic sweet taste.Agrotechnology: This plant thrives well in subtropical areas with very warm summers and cool winters with a rainfall not exceeding 500mm. Semi -arid and arid areas in subtropical zones are not suitable for the cultivation of this crop. It does not tolerate high humidity and waterlogged conditions. Well drained light loam soils which are rich in calcium and magnesium with slightly alkaline pH and free from stones are ideal for this crop. There are a number of varieties of this crop among which Spanish, Russian and Persian liquorice are quite common. Commercial varieties are Typica, Regel and Herd. This is propagated by seed, but usually multiplied vegetatively either through crown cuttings or stolon pieces. In the case of crown cuttings, 10-15cm long crown pieces with 2-3 buds are planted vertically at a distance of 0.6-0.7m in rows 1-1.5m apart. However, most of the liquorice is propagated through stolon pieces of the above size planted horizontally, preferably on ridges during spring at the same distance as above. Rapid clonal propagation is also possible by tissue culture technique. Murashige and Skoog’s medium supplemented with 6-benzylaminopurine and indole-3-acetic acid favoured multiple shoot production without any intervening callus phase. These regenerated plantlets can be transferred to earthen pots in the glass house and after a brief hardening phase, these are transplanted in the field with a high rate (90-95%) of survival. This plant normally does not require much fertilizers but in deficient soils, it is better to apply 10-15 tonnes FYM per hectare before planting. The field should be immediately irrigated after planting in spring and after the crop has sprouted, it requires very little irrigation. Space between the rows should be kept free from weeds. Short term vegetables like carrot or cabbage can be planted between the rows for additional income. In order to produce good rhizome, flowering shoots are clipped. No serious disease except leaf spot caused by Cercospora cavarae has been reported in this crop. Roots are ready for harvesting after 3-4 years. The root is dug when the top has dried during autumn (November- December). A trench 60cm deep is dug along the ridges and the entire root is lifted. Broken parts of the root left in the soil, sprout again and give another crop after 2-3 years. Thus liquorice once planted properly can be harvested for 10-15 years.Postharvest technology: Harvested roots are cut into pieces of 15-20cm long and 1-2cm in diameter. They are washed and dried upto 6-8% moisture in the sun and shade alternately which reduces the weight by 50%. The average yield of dried roots varies from 1-3 tonnes per hectare depending on the variety, soil and climatic conditions.Properties and activity: Roots gave a number of compounds the most important bieng a glucoside, glycyrrhizin which gave glycyrrhetinic acid on enzyme hydrolysis. Root also contains flavans, flavones, iso-flavanoes and coumarins including a 4-methyl coumarin, liqcoumarin, glabridin, glabrene, 4’-0-methyl and 3’-methoxyglabridin, formononetin, salicylic acid, 0-acetyl salicylic acid which has been isolated first time from nature, hispaglabridins A and B and 4’0- methylglabridin.On hydrolysis it also gave two molecules of d-glucuronic acid, each linked with 1-2 linkage to 3-hydroxyl of the sapogenin (Elgamal et al, 1969) Glycyrrhizin is antidiuretic, antiinflammatory, expectorant, antiulcerous, antihistamine. Glycyrrhizic acid is antiviral. The roots are emetic, tonic, diuretic, demulcent, mild laxative, aphrodisiac, trichogenous, expectorant, emmenagogue, alexipharmic, alterant and intellect promoting.... liquorice
Neem tea is a refreshing herbal tea, with origins in South Asia. Despite its bitter taste, it is often recommended as a beverage thanks to its many health benefits. Read this article to find out more about neem tea!
About Neem Tea
Neem tea is made from the leaves of the Neem tree. The tree can be found in India, Bangladesh and Pakistan. It is an evergreen tree which can grow up to twenty feet in just three years, and it starts bearing fruit after 3-5 years. However, during periods of severe drought, it may shed most or even all of its leaves.
The green leaves are 20-40cm long, with medium to dark green leaflets about 3-8cm long; the terminal leaflet is usually missing. The tree’s flowers are small, white and fragrant, arranged axillary. The fruit has an olive-like form, with a thin skin and a yellow-white, fibrous and bittersweet pulp.
How to prepare Neem Tea
To brew a cup of neem tea, you have to follow a few simple steps. First, boil the necessary amount of water. Then, pour it over a cup with includes a few neem leaves. Let it steep for about 5 minutes. Lastly, remove the leaves and, if you think it is needed, flavor it with honey and/or lemon.
You can make your own stack of neem leaves for neem tea. If you’ve got neem trees around, gather leaves and leave them to dry. You can use fresh neem leaves, as well. In both cases though, you have to wash the leaves well before you use them. Once you’ve got the leaves ready, whether dry or fresh, just follow the earlier-mentioned steps.
You can also make a cup of neem tea by using powdered neem leaf.
Neem Tea Benefits
Neem leaves have many antibacterial and antiviral properties. Thanks to this, neem tea is full of health benefits.
Indians chew on neem twigs to have a good oral hygiene. However, a cup of neem tea can also help you maintain a good oral hygiene. It is useful in treating bad breath and gum disease, and it fights against cavities. Neem tea is also useful in treating fungal infections, such as yeast infections, jock itch, thrush, and ringworm.
Neem tea can help you treat both indigestion and constipation. It is also useful when it comes to reducing swelling of the stomach and intestinal tract, and it can be used to counter ulcers and gout.
Neem tea, when combined with neem cream, has anti-viral uses. It can help speed up the healing time and pain associated with herpes simplex 1, herpes zoster and warts. Neem tea is also used in the treatment of malaria and other similar diseases. It helps purify and cleanse the blood, as well; therefore, it increases liver function.
Other important benefits that are related to consumption of neem tea are: treating pneumonia, treating diabetes, treating hypertension and heart diseases.
Also, neem tea doesn’t have to be used only as a beverage. Because of its anti-parasitic use, you can bathe in it. This way, the tea acts as an antiseptic, killing the parasites.
Neem Tea Side Effects
While we can say that neem tea has plenty of important health benefits, don’t forget that there are a few side effects, as well.
First of all, neem oil can be incredibly toxic for infants. Even a small amount of neem oil can cause death. Check to see if the neem tea you drink has neem oil among its ingredients. Or, just to be on the safe side, don’t give infants neem tea to drink.
You shouldn’t drink neem tea if you have a history of stomach, liver or kidney problems. Some of its active ingredients can cause you harm in this case.
Although rare, neem tea can also lead to allergic reactions. Symptoms in this case include difficulty in breathing, rashes, itching, or swelling of the throat or mouth. If you get any of these, stop drinking neem teaand contact your doctor.
Drinking neem tea is a big no if you’re trying to conceive, or you’re already pregnant. In the first case, neem tea can work as a contraceptive, therefore lessening the chances of you getting pregnant. In the second case, consumption of neem tea can lead to miscarriages.
Also, don’t drink more than six cups of neem teaa day - or any other type of tea. It won’t do you well, despite its many health benefits. Some of the symptoms you might get are: headaches, dizziness, insomnia, irregular heartbeats, vomiting, diarrhea and loss of appetite. If you get any of these symptoms, reduce the amount of neem tea you drink.
As a herbal tea, neem tea is definitely good for your health. Still, despite its many health benefits, there are a few side effects as well. Keep them both in mind when drinking neem tea.... neem tea - an indian herbal tea
Tamarindus indicaDescription: The tamarind is a large, densely branched tree, up to 25 meters tall. Its has pinnate leaves (divided like a feather) with 10 to 15 pairs of leaflets.Habitat and Distribution: The tamarind grows in the drier parts of Africa, Asia, and the Philippines. Although it is thought to be a native of Africa, it has been cultivated in India for so long that it looks like a native tree. It is also found in the American tropics, the West Indies, Central America, and tropical South America.Edible Parts: The pulp surrounding the seeds is rich in vitamin C and is an important survival food. You can make a pleasantly acid drink by mixing the pulp with water and sugar or honey and letting the mixture mature for several days. Suck the pulp to relieve thirst. Cook the young, unripe fruits or seedpods with meat. Use the young leaves in soup. You must cook the seeds. Roast them above a fire or in ashes. Another way is to remove the seed coat and soak the seeds in salted water and grated coconut for 24 hours, then cook them. You can peel the tamarind bark and chew it.... tamarind
Before the Medicine’s Bill proceeded to the Statute book to become the Medicine’s Act 1968, so great was the threat to the practice of herbal medicine and sale of herbal preparations, that the profession and trade were galvanised into mobilising opposition. Thus, the British Herbal Medicine Association was formed in 1964. In the ensuing struggle, important concessions were won that ensured survival.
The BHMA is recognised by the Medicines Control Agency as the official representative of the profession and the trade. Its objects are (a) to defend the right of the public to choose herbal remedies and be able to obtain them; (b) to foster research in herbal medicine and establish standards of safety which are a safeguard to the user; (c) to encourage the dissemination of knowledge about herbal remedies, and (d) do everything possible to advance the science and practice of herbal medicine, and to further recognition at all levels.
Membership is open to all interested in the future of herbal medicine, including herbal practitioners, herbal retailers, health food stores, wholesalers, importers, manufacturers, pharmacists, doctors and research workers.
The BHMA produces the British Herbal Pharmacopoeia. Its Scientific Committee is made up of senior herbal practitioners, university pharmacologists and pharmacognosists. Other publications include: BHMA Advertising Code (1978), Medicines Act Advertising guidelines (1979), the Herbal Practitioner’s Guide to the Medicine’s Act (F. Fletcher Hyde), and miscellaneous leaflets on ‘Herbs and Their Uses’.
The BHMA does not train students for examination but works in close co-operation with the National Institute of Medical Herbalists, and with the European Scientific Co-operative on Phytotherapy.
Chairmen since its inception: Frank Power, 1964-1969; Fred Fletcher-Hyde, 1969-1977; Hugh Mitchell 1977-1986; James Chappelle 1986-1990; Victor Perfitt 1990-.
During the years the association has secured important advantages for its membership, particularly continuity of sale of herbal medicines in health food shops. It continues to maintain vigilance in matterss British and European as they affect manufacturing, wholesaling, retailing, prescribing and dispensing.
See: BRITISH HERBAL PHARMACOPOEIA and BRITISH HERBAL COMPENDIUM. ... british herbal medicine association
The law requires labels to carry a full description of all ingredients. No label should bear the name of a specific disease or promote treatment for any serious disease or condition requiring consultation with a registered medical practitioner. Labels must not contravene The Medicines (Labelling and Advertising to the Public), SI 41, Regulations, 1978.
Misleading claims and the use of such words as “organic”, “wholesome”, “natural” or “biological” cannot be accepted on product labels. The Licensing Authority treats herbal manufacturers no differently than manufacturers of allopathic products for serious conditions.
The Advertising Standards Authority does not allow quotation of any medicinal claims, except where a Product Licence (PL) has been authorised by the Licensing Authority.
All labels must include: Name of product (as on Product Licence), description of pharmaceutical form (tablet, mixture etc), Product Licence No., Batch No., quantity of each active ingredient in each unit dose in metric terms; dose and directions for use; quantity in container (in metric terms); “Keep out of reach of children” or similar warning; Name and address of Product Licence Holder; expiry date (if applicable); and any other special warnings. Also to appear: excipients, method/route of administration, special storage instructions, and precautions for disposal, if any.
Where licences are granted, the following words should appear on the label of a product: “A herbal product traditionally used for the symptomatic relief of . . .”. “If symptoms persist see your doctor.” “Not to be used in pregnancy” (where applicable). “If you think you have . . . consult a registered medical practitioner before taking this product.” “If you are already receiving medical treatment, tell your doctor that you are taking this product.” These warnings are especially necessary should symptoms persist and be the start of something more serious than a self-limiting condition.
Herbal preparations should be labelled with the additives and colourings they contain, if any. This helps practitioners avoid prescribing medicines containing them to certain patients on whom they may have an adverse reaction.
Labels of medicinal products shall comply with the Medicines (Labelling) Regulations 1976 (SI 1976 No. 1726) as amended by the Medicines (Labelling) Amendment Regulations 1977 (SI 1977 No. 996), the Medicines (Labelling) Amendment Regulations 1981 (SI 1981 No. 1791) and the Medicines (Labelling) Amendment Regulations 1985 (SI 1985 No. 1558).
Leaflets issued with proprietory medicinal products shall comply with the requirements of the Medicines (Leaflets) Regulations 1977 (SI 1977 No. 1055).
See also: ADVERTISING: CODE OF PRACTICE. BRITISH HERBAL MEDICINE ASSOCIATION. ... labelling of herbal products
Criteria for manufacture of herbal preparations are efficacy, safety and purity. To ensure Government requirement, manufacturers test all incoming crude material by first placing it in quarantine, an area specially set aside for quality control. Material is inspected against standard samples by sight, taste, touch and microscopic analysis. Samples are taken for chemical reaction in a laboratory equipped for this purpose.
Herbal preparations are required to meet the same high pharmaceutical standards as conventional medicine.
Today’s exacting standards ensure an absence of sugar, yeast, gluten, milk derivatives, cornstarch, wheat, artificial colours, flavours, and preservatives.
The Department of Health expects manufacturers to standardise active constituents where possible and to ensure purity by eliminating from crude material pesticide residues, aflatoxins and heavy metal contaminants. Chromotography, in one of its forms (thin-layer, gas or high-pressure liquid) are used to assess purity, potency, accurate identity and contamination by lead, cadmium, etc. A Geiger-counter reveals the presence or absence of radio-activity. Each plant has its own signature or ‘fingerprint’ showing density and other important characteristics.
Failure to meet Government requirements empowers a purchaser to return the whole consignment to the supplier. Thus, a high standard of manufacturing practice is maintained.
See: Medicines Act leaflet 39, Revised Guidelines DHSS Nov 1985 ... manufacturing
(mitral incompetence) failure of the *mitral valve to close, allowing a reflux of blood from the left ventricle of the heart to the left atrium. It may be due to mitral valve prolapse (MVP) in which one or both valve leaflets flop back into the left atrium (also known as ‘floppy mitral valve’). It also results from chronic rheumatic scarring of the valve, or is secondary to left ventricular muscle damage. Its manifestations include breathlessness, atrial *fibrillation, embolism, enlargement of the left ventricle, and a systolic *murmur. Mild cases are symptomless and require no treatment, but in severe cases the affected valve should be repaired or replaced with an artificial one (mitral prosthesis).... mitral regurgitation
Betula alba
FAMILY: Betulaceae
SYNONYMS: B. alba var. pubescens, B. odorata, B. pendula, European white birch, silver birch.
GENERAL DESCRIPTION: Decorative tree, up to 15–20 metres high, with slender branches, silvery-white bark broken into scales, and light green oval leaves. The male catkins are 2–5 cms long, the female up to 15 cms long.
DISTRIBUTION: Native to the northern hemisphere; found throughout Eastern Europe, Russia, Germany, Sweden, Finland, the Baltic coast, northern China and Japan.
OTHER SPECIES: Many cultivars exist of this species of birch. The paper birch (B. papyrifera) and B. verrucosa are also used for the production of birch bud oil and/or birch tar. NB Should not be confused with the oil from the sweet birch (B. lenta) which is potentially toxic.
HERBAL/FOLK TRADITION: Birch buds were formerly used as a tonic in hair preparations. Birch tar is used in Europe for all types of chronic skin complaints: psoriasis, eczema, etc. In Scandinavia the young birch leaflets and twigs are bound into bundles and used in the sauna to tone the skin and promote the circulation. The sap is also tapped in the spring and drunk as a tonic. Buds, leaves and bark are used for ‘rheumatic and arthritic conditions, especially where kidney functions appear to need support … oedematous states; urinary infections and calculi.’.
ACTIONS: Anti-inflammatory, antiseptic, cholagogue, diaphoretic, diuretic, febrifuge, tonic.
EXTRACTION: 1. Essential oil by steam distillation from the leaf-buds. 2. Crude birch tar is extracted by slow destructive distillation from the bark; this is subsequently steam distilled to yield a rectified birch tar oil.
CHARACTERISTICS: 1. Pale yellow, viscous oil with a woody-green balsamic scent. It crystallizes at low temperatures. 2. The crude tar is an almost black, thick oily mass. The rectified oil is a brownish-yellow, clear oily liquid with a smoky, tar-like, ‘Russian leather’ odour. It blends well with other woody and balsamic oils.
PRINCIPAL CONSTITUENTS: 1. Mainly betulenol and other sesquiterpenes. 2. In the tar oil: phenol, cresol, xylenol, guaiacol, creosol, pyrocatechol, pyrobetulin (which gives the ‘leather’ scent).
SAFETY DATA: Non-toxic, non-irritant, non-sensitizing.
AROMATHERAPY/HOME: USE
Skin Care: Dermatitis, dull or congested skin, eczema, hair care, psoriasis etc.
Circulation Muscles And Joints: Accumulation of toxins, arthritis, cellulitis, muscular pain, obesity, oedema, poor circulation, rheumatism.
OTHER USES: Birch bud oil is used primarily in hair tonics and shampoos, and in some cosmetics for its potential skin-healing effects. The crude tar is used in pharmaceutical preparations, ointments, lotions, etc. for dermatological diseases. It is also used in soap and leather manufacture – rectified birch tar oil provides the heart for many ‘leather’ type perfumes and aftershaves.... birch, white
An enabling Act allowing subsequent definitive statutory instruments to be issued at the discretion of the Medicines Control Agency. The Act controls all aspects of the sale of medicines in the United Kingdom; with no exceptions.
Medicines fall into three categories: POM (Prescription Only Medicines), P (Pharmacy Only), and OTC (Over The Counter). POM and P medicines must be prescribed by a registered medical practitioner and dispensed by a pharmacist. P medicines can be sold only by a registered pharmacist. Health stores are concerned with the OTC products, the sale of which is governed by S.I. Medicines General Sales List, Order 1980, No 1922.
All medicines and substances used as medicine bearing a medicinal claim on label or advertising material must be licenced. Without a licence it is not lawful for any person, in his business, to manufacture, sell, supply, export, or import into the United Kingdom any medicinal products unless some exemption is provided in the Act or subsequent regulations. The prefix ML, followed by the Manufacturer’s number must appear on the label together with the product licence number prefixed by the capitals PL. For example, if any person other than a pharmacist sells a medicinal product which claims to relieve indigestion or headache, but the label of which bears no licence number, that shopkeeper (and the manufacturer) will be breaking the law.
All foods are exempt from licencing provided no claims are made of medicinal benefits.
A special licence (manufacturer’s) is required by any person who manufactures or assembles a medicinal product. (Section 8) He must hold a Product Licence for every product he manufactures unless some special exemption is provided by the Act. He may of course act to the order of the product licence holder. (Section 23)
“Manufacture” means any process carried on in the course of making a product but does not include dissolving or dispersing the product in, or diluting or mixing it with some other substance used as a vehicle for the purpose of administering it. It includes the mixture of two or more medicinal products.
“Assembly” means enclosing a medicinal product in a container which is labelled before the product is sold or supplied, or, where the product is already enclosed in a container in which it is supplied, labelling the container before the product is sold or supplied in it. (Section 132)
From the practitioner’s point of view, herbal medicines are exempt from the Act and no licence is required.
The consulting herbalist in private practice who compounds his own preparations from medicinal substances may apply to the Medicines Control Agency, 1 Nine Elms Lane, London SW8 5NQ for a manufacturer’s licence to authorise mixture and assembly, for administration to their patients after he has been requested in their presence to use his own judgement as to treatment required. Products thus sold, will be without any written recommendation and not advertised in any way.
The “assembly” aspect of his licence refers to his ability to buy in bulk, repackage and label. Where he uses prepackaged products and does not open the packet, or relabel, a licence is not required. He will not be able to use terms, “Stomach mixture”, “Nerve mixture”, etc, implying cure of a specific condition.
It is necessary for the practitioner to have a personal consultation with his patient before making his prescription. Subsequent treatment may be supplied by a third person or by post at the discretion of the practitioner.
A licence is required where one or more non-herbal ingredients (such as potassium iodide, sodium citrate, etc) are included. Dispensing non-herbal remedies constitutes “manufacture” for which a licence is required. (MAL 24 (3))
The main thing the licensing authority looks for before granting a licence is evidence of safety. The manufacturers’ premises must be licenced. A wholesaler or distributor, also, must have a licence.
Where a product is covered by a Product Licence certain medicinal claims may be made. Where claims are made, the Act requires a warning to appear on the label worded: “If you think you have the disease to which this product refers, consult a registered medical practitioner before taking this product. If you are already receiving medical treatment, tell your doctor you are also taking this product.” (SI 41, s.5)
Labels of all medicines, tablets, etc, must carry the words: “Keep out of the reach of children”.
Under the Act it is illegal for medicines to be offered for sale for cancer, diabetes, epilepsy, glaucoma, kidney disease, locomotor ataxy, paralysis, sexually transmitted diseases and tuberculosis; these diseases to be treated by a registered medical practitioner only.
Definition of a herbal remedy. A “herbal remedy” is a medicinal product consisting of a substance produced by subjecting a plant or plants to drying, crushing or any other process, or of a mixture whose sole ingredients are two or more substances so produced, or of a mixture whose sole ingredients are one or more substances so produced and water or some other inert substances. (Section 132)
No licence is required for the sale, supply, manufacture or assembly of any such herbal remedy in the course of a business in which the person carrying on the business sells or supplies the remedy for administration to a particular person after being requested by or on behalf of that person, and in that person’s presence, to use his own judgement as to the treatment required. The person carrying on the business must be the occupier of the premises where the manufacture or assembly takes place and must be able to close them so as to exclude the public. (Section 12 (1))
No licence is required for the sale, supply, manufacture or assembly of those herbal remedies where the process to which the plant or plants are subjected consists only of drying, crushing or comminuting and the remedy is sold or supplied under a designation which only specifies the plant or plants and the process and does not apply any other name to the remedy; and without any written recommendation (whether by means of a labelled container or package or a leaflet or in any other way) as to the use of the remedy. (Section 12 (2)) This exemption does not apply to imported products. Except where a herbal product is supplied for a medicinal use, legally it is not even a medicinal product.
The 1968 Act has been a great step forward in the history of herbal medicine, The British Herbal Medicine Association and the National Institute of Medical Herbalists fought and won many special concessions. In years following the Act standards rose sharply. Practitioners enjoy a measure of recognition, with power to manufacture and dispense their own medicines and issue official certificates for incapacitation for work.
See: BRITISH HERBAL MEDICINE ASSOCIATION. NATIONAL INSTITUTE OF MEDICAL HERBALISTS. ... medicine’s act, 1968.
Ferula galbaniflua
FAMILY: Apiaceae (Umbelliferae)
SYNONYMS: F. gummosa, galbanum gum, galbanum resin, ‘bubonion’.
GENERAL DESCRIPTION: A large perennial herb with a smooth stem, shiny leaflets and small flowers. It contains resin ducts which exude a milky juice, a natural oleoresin. The dried resinous exudation is collected by making incisions at the base of the stem.
DISTRIBUTION: Native to the Middle East and western Asia; cultivated in Iran, Turkey, Afghanistan and Lebanon. Distillation usually takes place in Europe or the USA.
OTHER SPECIES: There are two distinct types: Levant galbanum which is liquid or soft, and Persian galbanum which is solid or hard. Other Ferula species also yield galbanum gum, such as the muskroot; see also Botanical Classification section.
HERBAL/FOLK TRADITION: It was used by the ancient civilizations as an incense, and in Egypt for cosmetics and in the embalming process. It is generally used in the east in a similar way to asafetida: for treating wounds, inflammations and skin disorders and also for respiratory, digestive and nervous complaints. Zalou root (F. hermonic) is used in Beirut as an aphrodisiac.
ACTIONS: Analgesic, anti-inflammatory, antimicrobial, antiseptic, antispasmodic, aphrodisiac, balsamic, carminative, cicatrisant, digestive, diuretic, emmenagogue, expectorant, hypotensive, restorative, tonic.
EXTRACTION: Essential oil by water or steam distillation from the oleoresin or gum – only the Levant or soft type is used for oil production. A partially deterpenized oil is produced, known as ‘galbanol’. (A resinoid is also produced, mainly for use as a fixative.)
CHARACTERISTICS: Crude – A dark amber or brown viscous liquid with a green-woody scent and a soft balsamic undertone. Oil – A colourless, or pale yellow or olive liquid with a fresh green topnote and woody-dry balsamic undertone. It blends well with hyacinth, violet, narcissus, lavender, geranium, oakmoss, opopanax, pine, fir, styrax and oriental bases.
PRINCIPAL CONSTITUENTS: Pinene, cadinol, cadinene and myrcene, among others.
SAFETY DATA: Non-toxic, non-irritant, non-sensitizing.
AROMATHERAPY/HOME: USE
Skin Care: Abscesses, acne, boils, cuts, heals scar tissue, inflammations, tones the skin, mature skin, wrinkles, wounds – ‘signifies drying and preservation’..
Circulation Muscles And Joints: Poor circulation, muscular aches and pains, rheumatism.
Respiratory System: Asthma, bronchitis, catarrh, chronic coughs.
Digestive System: Cramp, flatulence, indigestion.
Nervous System: Nervous tension and stress-related complaints.
OTHER USES: The Persian gum used to be employed in pharmaceutical products. Both oil and resinoid are used as fixatives and fragrance components in soaps, detergents, creams, lotions and perfumes. Also used as a flavour ingredient in most major food categories, alcoholic and soft drinks.... galbanum
Pilocarpus jaborandi
FAMILY: Rutaceae
SYNONYMS: Pernambuco jaborandi, P. pennatifolius, iaborandi, jamborandi, arrudo do mato, arruda brava, jamguaraddi, juarandi.
GENERAL DESCRIPTION: A woody shrub up to 2 metres high with a smooth, greyish bark, large brownish-green leathery leaves containing big oil glands and reddish-purple flowers.
DISTRIBUTION: Native to Brazil; other species are found in Paraguay, Cuba, the West Indies and Central America.
OTHER SPECIES: There are many members of the Rutaceae and Piperaceae family known simply as jaborandi, such as Piper jaborandi. Others include maranham jaborandi (P. microphyllus), ceara jaborandi (P. trachylophus) and aracti jaborandi (P. spicatus).There is consequently some confusion about the exact botanical source of the oil.
HERBAL/FOLK TRADITION: Jaborandi induces salivation and most gland secretions; it was also used at one time to promote hair growth. ‘Useful in psoriasis, prurigo, deafness ... chronic catarrh, tonsillitis and particularly dropsy.’ .
ACTIONS: Antiseptic, diaphoretic, emmenagogue, galactagogue, stimulant (nerve).
EXTRACTION: Essential oil by steam distillation from the dried leaflets.
CHARACTERISTICS: An orange or yellow liquid with a sweet-herbaceous fruity odour.
PRINCIPAL CONSTITUENTS: Pilocarpine is the main active constituent; also isopilocarpine, pilocarpidine, methyl nonyl ketone, dipentene and other hydrocarbons.
SAFETY DATA: Oral toxin, skin irritant, abortifacient.
AROMATHERAPY/HOME: USE None.
OTHER USES: Various hypodermic solutions are prepared from pilocarpine: the crude oil is rarely used. Little used in perfumery or flavour work due to toxicity.... jaborandi
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