2. Medicinal plants from Siddha system of medicine useful for treating respiratory diseases
and can directly injure lung structures leading to being practiced for past 2000 years [5]; however
chronic inflammation in the airways and alveolar the printed Siddha literatures are available from
structures of the lung [12]. COPD includes 18th century onwards. Before that they were
chronic bronchitis, chronic bronchiolitis and documented on palm leaves by different authors
emphysema. Chronic bronchitis is associated [31]. The word “Siddha” denotes “Siddhi” which
with hyperplasia and hypertrophy of mucus means achievement in life arts such as
secreting glands within the large airways, philosophy, yoga, wisdom, alchemy, medicine
submucosal inflammatory cell infiltration, edema, and above all the art of longevity [31]. The
peribronchiolar fibrosis and increased smooth persons, who obtained this Siddhi, were
muscle contraction [13]. Chronic cough is a respectfully called “Siddhars”. Siddhars can also
common symptom of COPD patients [14]. be called spiritual scientists of Tamil Nadu who
Chronic bronchiolitis refers to the presence of an explored and explained the reality of nature and
inflammatory response in the respiratory its relationship to man by their yogic awareness
bronchioles and is difficult to be defined clinically and experimental findings. They postulated the
but may be recognized by the tests of small concept of spiritualism for self-improvement, and
airway function (i.e., in airways of 2 mm the practices initiated by them came to be known
diameters or less). Emphysema involves as the "Siddha System”. It is believed that Siddhi
destruction of the alveolar wall, enlargement of was obtained by 18 highly experienced and
airspaces and loss of elastic recoil [13]. intuitive Siddhars [3, 32] who were believed to
cure innumerable diseases [33]. Agasthiyar, one
2.3. Current therapies, their adverse effects among the 18 Siddhars is believed to have
and need of new therapy contributed more in the development of SSM,
Despite increased understanding of pathogenesis whose life period is approximately between fifth
of the respiratory diseases such as asthma and to sixth centuries. He is considered as the
COPD, their incidence is increasing rapidly all ‘’Hippocrates of Siddha medicine and also one of
over the world [6,7]. Several drugs are available the greatest philosophers of India [31-32]. Some
which may give a temporary good relief, but they of his works are still in standard books of
are mainly symptomatic and transient. Almost all medicine and surgery, which are in the daily use
currently available drugs such as steroids, β2- among the Siddha medical practitioners. The
agonists, anticholinergics and phosphodiesterase SSM is mainly concerned with the development
(PDE) inhibitors have numerous adverse effects. of drugs, which have high potency and long life
For example, longer use of corticosteroids for their use in future. It also aims to activate the
produces deficiency in bone mineral density [15- generation of cells and to maintain the longevity
16], cardiovascular effects [17], osteoporosis and [31, 34-36]. Siddha system is based on 96
osteonecrosis [18-19] risk of cataract [20], principles (thathuvams) which are broadly
panniculitis [21], migraine or migraine-like classified under the following categories: 5
headache [22], pharyngitis and sore throat [23] elements (pancha bhutam), 5 sense organs
and renal deterioration [24]. Most recently, it has (pori), 5 functions of sense organs (pulan), 5
been reported to cause serious pneumonia also motor organs (kanmenthiriyam), 5 perception of
[25]. The long acting β2-adrenoreceptor agonists senses with the help of five sense organs
produce myocardial ischaemia and osteoporosis (gnanenthriyam), 4 intellectual faculties
[26, 27]. Anticholinergics cause papillary (karanam), 1 wisdom of self realization (arivu), 10
dialation, blurred vision and acute glaucoma [28]. channels of life force responsible for the
PDE inhibitors like theophyline cause dynamics of prana (naadi), 10 vital nerve forces
gastrointestinal symptoms to palpitations, which is responsible for all kinds of movements
arrhythmias, hypocalcaemia, nausea, diarrhea (vayu), 5 visceral cavities (asayam), 5 five states
and headache [29, 30]. Hence continuous efforts of the human body or sheath (kosam), 6 stations
are going on worldwide to search effective and of soul (aatharam), 3 regions (mandalam), 3
safer remedies for these respiratory diseases impurities of the soul (malam), 3 humours
preferably of natural origin, to obtain negligible or (tridosham/ tridosha siddhantam), 3 physical
no adverse effects for treating these epidemic bindings (eadanai), 3 cosmic qualities (gunam), 2
diseases. acts (vinai), 8 passions (ragam), 5 states of
consciousness (avasthai). Many of these
3. Sidhha System of Medicine (SSM) principles are found in Ayurveda also but some of
Siddha medicine is one of the two ancient them are very unique to Siddha system alone.
traditional systems of India [5]. First one is The common specific features of these two
“Ayurveda”, which flourished in north India and systems are: tridosha siddhantam; wind
became popular all over the country and also in (vatham), bile (pittam) and phlegm (siletuman),
abroad, and the second one is “Siddha”, which pancha bhuta theory; space (aakasam), air
originated from Tamil Nadu, a south-east state of (vayu) ,fire (thee) , water (neer) ,earth (munn) ,
India and practiced mostly in and around areas of three gunas; subtle (sattva), activity (rajas), gross
its origin. SSM has been in existence and is (tamas), and six kinds of tastes (arusuvai).
International Journal of Pharmaceuticals Analysis, ISSN: 0975-3079, Volume 1, Issue 2, 2009 21
4. Medicinal plants from Siddha system of medicine useful for treating respiratory diseases
4.2 Adhatoda vasica Nees (Acanthaceae);
4. Medicnal Plants from SSM Used for Siddha name: Adathodai
Treating Respiratory Diseases The leaf extract of Adhatoda vasica is used in
Numerous plants seem to be used in this system; SSM to cure bronchial asthma, eosinophilia [57]
but there is no adequate data because of multiple and cough [58,59]. In some areas the traditional
reasons. The top two of them are as follows; 1) it healers use the leaves of this plant orally along
is only in ancestral use and inherited by disciple with the flowers of Hibiscus rosa-sinensis to treat
to disciple and generation to generation and 2) it asthma [60]. The relief of bronchial obstruction by
was documented in scholarly Tamil language its leaf extracts may be attributed even if partially,
with numerous cryptic references which differs to the presence of alkaloids [61, 62]. The plant
from the today’s common Tamil language and is also consists of antiinflammatory [63], antiulcer
difficult to understand even by native Tamil [64], hepatoprotective [65] and antitussive [66]
people also [50]. After a long time, some of them properties.
were translated into common Tamil language,
and thereafter, few of these texts were translated 4.3 Apium graveolens L. (Umbelliferae);
into English. Several organizations such as Siddha name: Celery-keerai
department of Ayurveda, Yoga & Naturopathy, The seeds and leaves of Apium graveolens are
Unani, Siddha and Homeopathy (AYUSH), used in the treatment of asthma and bronchitis as
Government of India; Central Council for well as liver and spleen diseases. Seeds are also
Research in Ayurveda and Siddha, New Delhi; used in the treatment of chronic skin disorders
and Gandeepam, a non government organization including psoriasis. One of its compound
(NGO)) have been established. These apigenin (flavonoid) has been proven to possess
organizations have an important role in vasodilatory action in thoracic aorta of rat [67].
maintaining and reviving the ancient Indian The another compound apiin (flavonoid) showed
systems of medicine. In addition, they encourage significant inhibitory activity on nitric oxide
the scientific studies on these systems. production in-vitro and reduces inducible nitric
Alongside, some ethnomedicinal studies were oxide synthase expression in-vivo [68]. The
also done by some groups of workers in south seeds and leaf extracts have been shown to
India [51-53] by gathering the valuable reduce the drug induced toxicity [69, 70] in rats.
information’s from the practitioners of rural area Its root has been reported for some side effects
near forest region where the people depend such as allergy and irritation [71, 72].
mostly on the herbs and have a discreet
knowledge of herbal medicines. Based on these 4.4 Boerhavia diffusa L. (Nyctaginaceae);
literatures numerous plants have been observed Siddha name: Mukaratee
for treating various human ailments. Many of The roots of B. diffusa are used in SSM for the
these plants, which are used for multiple treatment of asthma and also in other diseases
diseases and predominantly used for respiratory such as dropsy, ascities, heart disease, kidney
diseases, have been considered. Among them, stone and colitis [59]. Recent molecular studies
the plants which are commonly used for these have shown that the ethanolic extract of B.
diseases and worked out scientifically to some diffusa has immunosuppressive effect including
extent are being described below. The others are reduction of nitric oxide and superoxide in vitro
listed in Table 1. [73] which are associated with asthma and
COPD. It has also been demonstrated to have
4.1 Acalypha indica L. (Euphorbiaceae); spasmolytic [74], anti-bacterial [75] anti-microbial
Siddha name: Kuppaimeni [76], antidiabetic [77] and antifungal [78]
The Leaves, roots, stalk and flowers of Acalypha activities. There is no toxic report on this plant;
indica are used in SSM for its medicinal rather it has been shown to have
properties. The leaf powder cures respiratory chemopreventive activity in mice [79].
diseases. Its other actions include cathartic,
anthelmintic, expectorant, emetic, anodyne, 4.5 Borassus flabellifer L. (Arecaceae);
hypnotic, antimicrobial and wound healing Siddha name: Panaimaram
properties [54]. Recently, the ethanolic leaf The seeds and whole plant are used in cough
extract of this plant has been shown a potent and pulmonary affections. It is also used in
snake venom neutralizing property in the several other conditions such as hiccup, gastric
experimental animals [55] which indicates its catarrh, diabetes, pthisis, gonorrhea, indolent
detoxification effect. There is no specific study on ulcers, carbuncles and enlarged spleen [59].
its toxicological aspect; however, one clinical Fresh sap has diuretic, cooling, antiphlegmatic,
report indicated its hemolytic effect in glucose-6- laxative and anti-inflammatory activities. The ash
phosphate dehydrogenase deficient individuals of dry spadix has antacid and antibilious (used in
[56]. heartburn) properties [62]. The oral feeding of
mice with B. flabellifer flour induced the
generation of T suppressor cells which were able
International Journal of Pharmaceuticals Analysis, ISSN: 0975-3079, Volume 1, Issue 2, 2009 23
6. Medicinal plants from Siddha system of medicine useful for treating respiratory diseases
The whole plant is used to treat asthma, 5. Conclusion and Future Perspectives
bronchitis and esinophilia [57] in SSM. It has As it is observed that several conventional drugs
been proven to have anti-inflammatory activities for respiratory diseases have been derived from
[108]. The traditional claim for the usefulness of traditional medicinal plants [2,131], it is quite
this herb in bronchial asthma has been confirmed possible from SSM plants also. Since some of
by a clinical study [109]. The plant also contains these plants have kayakalpam ability (making the
chemopreventive [110] and hepatopreventive body competent for long life), it may be even
[111] properties. better because the selection of plants by
Siddhars seems very tactful, in the sense that the
4.15 Solanum xanthocarpum (Solanaceae); plants they had selected have more beneficial
Siddha name: Kandankatthiri effect than giving merely a respite from the
The fruits of Solanum xanthocarpum are used to disease alone. This concept can be well
cure bronchial asthma, eosinophilia [57] and understood by interviewing with native people of
cough [58]. It is also used in the treatment of South India who have an in-depth knowledge of
dislodging tenacious phlegm. The traditional medicinal plants of SSM. Infact, there is a real
claim for the usefulness of this herb in bronchial need of experts, who can understand and explain
asthma has been confirmed by clinical studies the ancient Tamil literatures written by the
[109,112-113]. The beneficial effect of the drug Siddhars. Thereafter those literatures should be
on bronchial asthma may be attributed to the translated into international (e.g., English) and at
depletion of histamine from bronchial and lung least some major national (e.g., Hindi, Chinese
tissue [62]. This plant also possesses tumoricidal and Japanese) languages to make SSM widely
[114], antifungal [115], antidiabetic [116] and beneficial.
mosquito larvicidal [117] activities. Further, the medicinal plants of SSM useful for
respiratory diseases can be identified and
4.16 Strychnos potatorum L. (Loganiaceae); processed for isolating different fractions by using
Siddha name: Tetankotai sensitive techniques such as high-performance
The fruits and seeds of this plant are used in liquid chromatography (HPLC) and liquid
SSM for treating bronchitis and are also useful in chromatography-mass spectrometry-mass
other ailments such as chronic diarrhea, spectrometry (LC-MS-MS) as recently being
gonorrhea, diabetes, boils and dysentery [59]. accomplished by several groups of investigators
Recent scientific studies on animal models have for medicinal plants [132-135]. These fractions
shown its anti-diabetic [118], antiulcerogenic can be first tested in vitro using certain molecular
[119], hepatoprotective [120], antidiarrheal [121] parameters of respiratory diseases such as
and diuretic properties [122]. inflammatory mediators of asthma and COPD.
The potent components then can be evaluated
4.17 Terminalia bellirica Roxb and studied in animal models as recently carried
(Combretaceae); Siddha name: Thandrikkai out for several herbal compounds. For example,
The fruits of Terminalia bellirica are effective in curcumin, a well known plant derived
asthma, cough, hoarseness, sore-throat, and compound, has been found to inhibit the allergen-
also for other conditions such as dropsy, induced airway hyperresponsiveness in guinea
dysentery and diarrhea [59]. Its fruits have been pigs [136]. Most recently, it has been reported to
indicated to have bronchodialatory and attenuate elastase and cigarette smoke-induced
antispasmodic activities [123]. Recently, its fruit pulmonary emphysema in mice [137]. Some
extracts have shown antidiabetic and other plant derived compounds such as luteolin
antidepressant activities in animal models [138], verproside [139], cannabinoids [140],
[48,124] glycyrrhizin [141] and carbenoxolone [142] have
also been demonstrated to markedly inhibit
4.18 Tylophora indica Merrill asthma mimicking features in mice. Similarly
(Asclepiadaceae); Siddha name: Kurinjan many compounds could be evolved from the
The root and leaves of Tylophora indica are used medicinal plants of SSM. Subsequent trials of
as medicine in SSM for its effectiveness in those effective compounds in clinical respiratory
asthma. These parts are also used in diarrhea, patients can then be done for evaluating their
dysentery and syphilitic rheumatism [59]. Its anti- final therapeutic efficacy. Simultaneously, the
asthmatic activity has also been clinically proved toxicological studies should also be pursued for
[125-127]. Later, it was demonstrated to prevent their better therapeutic applications. The above-
mast cell degranulation [128] and mentioned aspects can be accomplished by a
immunomodulatory effects on lymphocyte sincere interaction between scientists involved in
proliferation [129] which are associated with respiratory medicinal research on one hand and
asthmatic features. The alkaloids of this plant Siddha practioners on other hand.
have been studied for its toxicity in rat where the
higher doses only found to have lethal effect
[130].
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10. Medicinal plants from Siddha system of medicine useful for treating respiratory diseases
[106] Heo K.S. and Lim K.T. (2004) Journal of [125] Shivpuri D.N., Menon M.P. and Parkash D.
Medicinal Food, 7, 349-57. (1968) The Journal of Association of
[107] Prashanth Kumar V., Shashidhara S., Physicians of India,16, 9-15.
Kumar M.M. and Sridhara B.Y. (2001) [126] Thiruvengadam K.V., Haranath K.,
Fitoterapia, 72, 481-6. Sudarsan S., Sekar T.S., Rajagopal
[108] Emmanuel S., Ignacimuthu S., K.R., Zacharian M.G. and Devarajan
Perumalsamy R. and Amalra, T. (2006) T.V. (1978) Journal of the Indian
Fitoterapia, 77, 611-612. Medical Association, 71, 172-176.
[109] Govindan S., Viswanathan S., [127] Gupta S., George P., Gupta V., Tandon
Vijayasekaran V. and Alagappan R. V.R. and Sundaram K.R., (1979) The
(1999) Journal of Ethnopharmacology, Indian Journal of Medical Research, 69,
66, 205-210. 981-989.
[110] Shahjahan M., Vani G. and Shyamaladevi, [128] Geetha V.S., Viswanathan S. and
C.S. (2005) Chemico-biological Kameswaran L. (1981) Indian Journal of
Interactions, 156, 113-23. Pharmacology, 13, 199-201.
[111] Shahjahan M., Sabitha K.E., Jainu M. and [129] Ganguly T., Badheka L.P., Sainis K.B.
Shyamala Devi C.S. (2004) The Indian (2001) Phytomedicine, 8, 431-437.
Journal of Medical Research, 120, 194- [130] Dikshith T.S., Raizada R.B., el-Mofty M.M.,
8. Soliman A.A., Abdel-Gawad and
[112] Bector N.P. and Puri A.S. (1971) The Mulchandani N.B. (1990) Indian Journal
Journal of the Association of Physicians of Experimental Biology, 28, 208-12.
of India, 19, 741-744 [131] Barnes P.J. (2006) Br J Pharmacol, Jan;147
[113] Govindan S., Viswanathan S., Suppl 1:S297-303.
Vijayasekaran V. and Alagappan R. [132] Wang Y.C. and Yang Y.S. (2007) Journal of
(2004) Phytotherapy Research, 18, 805- Chromatography B, Analytical
9. Technologies in the Biomedical and Life
[114] Mazzio E.A. and Soliman K.F. (2009) Sciences, 850, 392-399.
Phytotherapy research, 23, 385-98. [133] Ohtake N., Nakai Y. and Yamamoto M.
[115] Singh O.M., Subharani K., Singh N.I., Devi, (2004) Journal of Chromatography. B,
N.B. and Nevidita, L. (2007) Analytical Technologies in the
Phytotherapy Research, 21, 585-90. Biomedical and Life Sciences, 812, 135-
[116] Kar D.M., Maharana L., Pattnaik S. and 148.
Dash G.K. (2006) Journal of [134] Zhang Y., Yu Z.Y. and Wu X.Q. (2004)
Ethnopharmacology, 108, 251-6. Zhongguo Zhong Yao Za Zhi, 29, 104-
[117] Mohan L., Sharma P. and Srivastava C.N. 108.
(2005) Journal of Environmental Biology [135] Belliardo F., Bicchi C., Cordero C., Liberto
/ Academy of Environmental Biology, E., Rubiolo P. and Sgorbini B. (2006)
India. 26, 399-401. Journal of Chromatographic Science,
[118] Umamaheswari S. and Mainzen Prince P.S. 44, 416-429.
(2007) Acta Poloniae Pharmaceutica, [136] Ram A., Das M., Ghosh B. (2003) Biological
64, 53-61. and Pharmaceutical Bulletin, 26, 1021-
[119] Sanmugapriya E. and Venkataraman S. 1024.
(2007) Phytomedicine: International [137] Suzuki M., Betsuyaku T., Ito Y., Nagai K.,
Journal of Phytotherapy and Odajima N., Moriyama C., Nasuhara Y.
Phytopharmacology, 14, 360-5. and Nishimura M. (2009) American
[120] Sanmugapriya E. and Venkataraman S. Journal of Physiology- Lung Cellular and
(2006) Journal of Ethnopharmacology, Molecular Physiology, 296, L614-23.
105, 154-60. [138] Das M., Ram A. and Ghosh B. (2003)
[121] Biswas S., Murugesan T., Sinha S., Maiti Inflammation Research, 52, 101-106.
K., Gayen J.R., Pal M. and Saha B.P. [139] Oh S.R., Lee M.Y. and Ahn K. (2006)
(2002) Fitoterapia, 73, 43-7. International Immunopharmacology, 6,
[122] Biswas S., Murugesan T., Maiti K., Ghosh 978-986.
L., Pal M. and Saha B.P. (2001) [140] Jan T.R., Farraj A.K., Harkema J.R. and
Phytomedicine: International Journal of Kaminski N.E. (2003) Toxicology and
Phytotherapy and Phytopharmacology, Applied Pharmacology, 188, 24-35.
8, 469-71. [141] Ram A., Mabalirajan U. and Das M. (2006)
[123] Gilani A.H. and Arif-ullah-Khan. (2008) International Immunopharmacology, 6,
Journal of Ethnopharmacology, 116, 1468-1477.
528-538. [142] Ram A., Singh S.K., Singh V.P., Kumar S.
[124] Dhingra D. and Valecha R. (2007) Indian and Ghosh, B. (2009) International
Journal of Experimental Biology, 45, Archives of Allergy and Immunology,
610-6. 149, 38-46.
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