World Literature on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -75
World Literature
on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -75
World Literature on Medicinal Plants
Quoted/Consulted/Modified/Improved/Discussed/Used/Corrected in Pankaj Oudhia’s
Medicinal Plant Database.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 238. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
3 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 239. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
4 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1. Management of Nephotettix sp. in
Rice (Oryza sativa) crop. 240. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
5 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 241. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
6 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 242. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
7 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 243. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
8 Herbs) . CGBD (Offline Database
on Chhattisgarh Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 244. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
10 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 245. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
15 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 246. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
25 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 247. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
23 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 248. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
28 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1. Management of Nephotettix sp. in
Rice (Oryza sativa) crop. 249. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
19 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 250. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
20 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 251. Neem (Azadirachta
indica)+Calotropis gigantea based formulation (With
31 Herbs) . CGBD (Offline
Database on Chhattisgarh Biodiversity), Raipur,
India.
2. Mahesh B. and Satish S., Antimicrobial
Activity of Some Important Medicinal
Plant Against Plant and Human
Pathogens. World Journal of Agricultural
Sciences, 2008 4 (S): 839-843.
3. Gerhartz W.,Yamamota Y.S., F.T.
Campbell, Pfefferkorn R. and Rounsaville
J.F.. Ullmann’s
Encyclopedia of
Industrial. 1985.
4. Kroschwitz JI and Howetgrant M.,
Kirkothmer. Encyclopedia of chemical
technology. 1992; 2:893.
5. Sivastava J., Lambart J and Vietmeyer,
Medicinal plants, an expanding role in
development word bank technical paper
No.320.
6. Balandrin MF., Holke JK., Wurtele ES.,
and Bollinger WH. National plant
chemicals, Source of industrial and
Medicinal material Science. 1985;
228:1154-1160.
7. Semwal DK., Rawat U.,Bomola A. and
Samwal R, Antimicreobial activity of
Phoebe lanceolate and stephania glabra,
Journal of scientific research. 2009;
1(3):662-666.
8. Chougale AD , Padul MV Md Saiful
Arfeen, Kakad SL.
Journal of Medicinal
Plants. 2009; 8(31):76-81.
9. Kumaraswamy MV, Kavitha HU and
Satish S. Antibacterial Evaluation and
Phytochemical Analysis of Betula
utilis.World Journal of Agricultural
Sciences.2008; 4(5): 661-664.
10. Subramanian SP & Saratha V, Evaluation
of Antifungal Activity of Calotropis
gigantea
latex extract. IJPSR.2010; 1
(9):88-96.
11. Brindha D.Arthi D., Antimicrobial activity
of white and pink nelumbo nucifera gaertn
flowers. JPRHC. April 2010; 2 (2): 147-
155.
12. Kumar1 GS, Jayaveera KN, Kumar CKA,
Sanjay UP, Swamy BMV, Kumar DVK.
Antimicrobial effects of Indian medicinal
plants
against acne-inducing bacteria.
Journal of Pharmaceutical Research, 2007;
6 (2): 717-723.
13. Maji S., Dandapat P., Ojha D., Maity C. ,
Halder S.K., Mohapatra P.K.D., Pathak
T.K., Pati B.R., Samanta A. and Mondal
K.C. In vitro antimicrobial potentialities of
different solvent extracts of
ethnomedicinal plants against clinically
isolated human pathogens, Journal of
Phytology 2010; 2(4): 57–64.
14. Mahesh B and Satish S. Antimicrobial
Activity of Some Important Medicinal
Plant against Plant and Human Pathogens.
World Journal of Agricultural Sciences.
2008, 4 (S): 839-843.
15. Gupta R., Thakur B, Singh B Singh
HB,Sharma VD,
Katoch VM and
Chauhan SVS, Anti-tuberculosis activity
of selected medicinal plants against multidrug
resistant Mycobacterium tuberculosis
isolates, Indian J Med Res, 2010; 131:
809-813.
16. Betoni J.E.C; Mantovani RP; Barbosa LN;
Di Stasi CL; Junior AF, Synergism
between plant extract and antimicrobial
drugs used on
Staphylococcus aureus
diseases ,Mem. Inst. Oswaldo Cruz, 2006;
101: (4)
17. Manghani E., Pareek A., Neggi RS., Ojha
CK. Search for antimicrobial potentials
from certain indian medicinal plants. Res.
J. Med. Plant; 2011 5: 295-301.
18. Venkataswamy R., Doss A., Sukumar M.,
Mubarack H.M.Preliminmary
phytochemical screening and
antimicrobial studies of Lantana indica
roxb.Indian journal of pharmaceutical
sciences, 2010;72(2): 229-231.
19. Igbinosa O. O., Igbinosa E. O. and
Aiyegoro O.A. Antimicrobial activity and
phytochemical screening of stem bark
extracts from
Jatropha curcas (Linn).
African Journal of Pharmacy and
Pharmacology. 2009; 3(2):058-062.
20. Irobi ON, Moo-Young M, Anderson WA,
Daramola, SO (1994).Antimicrobial
activity of the bark of Bridelia ferruginea
(Euphorbiaceae). Intern. J. Pharmacog.
1994; 34: 87-90.
21. Akinpelu DA, Kolawole DO (2004).
Phytochemical and antimicrobial activity
of leaf extract of Piliostigma thonningii
(Schum.). Sci. Focus J. 2004,7: 64-70.
22. Spencer ALR, Spencer JFT (2004). Public
Health Microbiology:Methods and
Protocols. Human Press Inc. New Jersey.
2004, 325-327.
23. Kowalski R, Kedzia B Antibacterial
activity of
Silphium perfoliatum extracts.
Pharm. Biol, 2007, 45: 495-500.
24. Koona S., Budida S. Antibacterial
Potential of the Extracts of the Leaves
ofAzadirachta indica Linn. Not Sci Biol,
2011; 3(1):65-69.
25. El-Mahmood1A.M., Ogbonna1O.B. , Raji
M. The antibacterial activity of
Azadarichta indica
(neem) seeds extracts
against bacterial pathogens associated
with eye and ear infections. Journal of
Medicinal Plants Research.2010;
4(14):1414-1421.
26. Yiadom K .B., Fiagbe N, Ayim S.
Antimicrobial properties of some west
African medicinal plants IV.
Antimicrobial of xylopic acid and
constituents of the fruits of Xylopia
athiopica
(Anuonaceae).Lloydia , 1987 ;
40: 543-545.
27. Jahan T., Begum Z.A., Sultana S. Effect of
neem oil on some pathogenic bacteria.
Bangladesh J. Pharmaco,l 2007; 2: 71-72
28. Gonçalves F.S. , Neto M.A. , Bezerra
J.N.S., Macrae A., De Sousa O.V., Filho
A.A.F.,
Vieira R.H.S.F.Antibacterial
activity of guava,
psidium guajava
linnaeus, leaf Extracts on diarrhea-causing
enteric bacteria isolated from seabob
shrimp, Xiphopenaeus kroyeri (HELLER)
. Rev. Inst. Med. trop. S. Paulo. 2008;
50(1):11-15.
29. Dongmo P.M.J.
Antifungal Potential of
Eucalyptus Saligna
and EucalyptusCamaldulensis Essential Oils from
Cameroon against
Phaeoramularia
Angolensis. European Journal of Scientific
Research. 2008; 24 (3), 348-357.
30. Ghalem B.R. and Mohamed B.
Antibacterial activity of leaf essential oils
of Eucalyptus
globulus and Eucalyptus
camaldulensis.
African Journal of
Pharmacy and Pharmacology.2008; Vol.
2(10). pp. 211-215.
31. Jeong
M.R., Kim H.Y. and Cha J.D.
Antimicrobial Activity of Methanol
Extract from
Ficus carica Leaves Against
Oral Bacteria. Journal of Bacteriology and
Virology. 2009; 39(2), 97 – 102.
32. S. J. Patel, N. Venugopalan & S. Pradeep :
Screening For Antimicrobial Activity Of
Weeds . The
Internet Journal of
Microbiology. 2007; 4 (1).
33. Rojas J.J.,
Ochoa VJ, Ocampo S.A. and
Munoz J.F.,Screening for antimicrobial
activity of ten medicinal plants used in
Colombian folkloric medicine: A possible
alternative in the treatment of nonnosocomial
infections. BMC
Complementary and Alternative
Medicine, 2006,
6(2).
http://www.biomedcentral.com/1472-
6882/6/2.
1. Braunwald
E. Cough and haemoptysis. In: Harrison's Principles of internal medicine.
13th edition, McGraw-Hill, New York,
1994:P171-178.
2. Di Pede C,
Viegi G, Quackenboss JJ, Boyer-Pfersdorf P, Lebowitz MD. Respiratory
symptoms and risk factors in an Arizona population
sample of Anglo and MexicanAmerican whites. Chest 1991;99:916-922.
3. Wynder EL,
Lemon FR, Mantel N. Epidemiology of persistent cough. American Review
of Respiratory Disease1965;91:679-700.
4. Braman SS
and Corrao WM. Chronic cough. Diagnosis and treatment. Prim Care
1985;12:217-225.
5. Braman SS
and Corrao WM. Cough: Differential diagnosis and treatment. Clinics in
Chest Medicine 1987;8:177-188.
6. Annual
Reports, P.R.U., Halfkine Institute, Bombay.
7. Amin, A.H.
Chemical and pharmacological studies of vasicinone: A new alkaloid from
Adhatoda vasica Nees (Alembic Chemical Works Co.
Ltd., Borado-3). Indian Journal
of
Pharmacology 1961;23:117.
8. Annual
Report, P.R.U., A.I.I.M.S., New Delhi.
9. Chaudhury
RR and Haq M. Review of plants screened for antifertility activity. Bull.
Medico-Ethno-Bot. Res. 1980;1(3):408.
10. Chopra RN et al. Glossary of Indian Medicinal
Plants, C.S.I.R., New Delhi, 1956;P91.
11. Kuroyangi
T, Sato M. Effect of prednisolone and glycyrrhizin on passive transfer of
experimental allergic encephalomyelitis. Allergy
1966;15:67-75.
12. Cyorg J.
A pharmacological study of the anti-inflammatory activity of Chinese herbs: A
review. Acupuncture and Electro-Therapeutics
Research 1982;7:173-202.
13. Gulati
OD, Pandey DC. Anti-inflammatory activity of
Tinospora cordifolia.
Rheumatism 1982;17(2):76-83.
14. Pendse VK
et al. An experimental study of water extract of Tinospora cordifolia in
acute and chronic inflammation. Indian Journal of
Pharmacology 1981;13(1):73.
15. Rege N. et al. Hepatoprotective effects against
carbon-tetrachloride induced-liver
damage. Indian Drugs 1984;21(12):544-546.
16. Sharma AK and Singh RH. Screening of anti-inflammatory activity of certain
indigenous drugs on Carrageenin-induced hind paw
oedema in rats. Bull. MedicoEthno-Bot. Res. 1980;1(2):262-271.
17. Singh RH and Chaturvedi GN. On the antibacterial
activity of some Ayurvedic drugs.
Journal Research Indian Medicine 1974;9(2):65-66.
18. Akhtar Husain et al. Dictionary of Indian
Medicinal Plants. Published by Central
Institute of Medicinal and Aromatic Plants, Lucknow,
India. 1992; P 151.
19. Akhtar Husain et al. Dictionary of Indian
Medicinal Plants. Published by Central
Institute of Medicinal and Aromatic Plants, Lucknow,
India. 1992; P. 313-314.
Breese, C 2005, ‗Pranayama & The Art of
Breathing‘, PhD thesis,
University of Metaphysical Sciences
Dr Halpern 2009, California College of Ayurveda,
viewed 12
October, 2009,
<http://www.ayurvedacollege.com/articles/drhalpern/
clinical/asthma->
Govindan, S Viswanathan, S Vijayasekaran, V &
Alagappan, R
1998, ‗A pilot study on the clinical efficacy of
Solanum
xanthocarpum and Solanum trilobatum in bronchial
asthma‘, Journal
of Ethnopharmacology, vol. 66, pp. 205-210
Goyeche, JRM Abo, Y & Ikemi, Y 1982, ‗Asthma:
The Yoga
Perspective Part II: Yoga Therapy in the Treatment
of Asthma‘,
Journal of Asthma, vol. 19, no. 3, pp. 189-201
Katiyar, SK & Bihari, S 2006, ‗Role of Pranayama
in Rehabilitation
of COPD patients – a Randomised Controlled Study‘,
Indian Journal
of Allergy, Asthma and Immunology, vol. 20, no. 2,
pp. 98-104
Kumar, P Clark, M 2007, Kumar & Clark Clinical
Medicine, 6th edn,
Edinburgh: W B Saunders
Manocha, R Marks, GB Kenchington, P Peters, D &
Salmone, CM
2002, ‗Sahaja yoga in the management of moderate to
severe
asthma: a randomised control trial‘, Thorax, vol.
57, no. 2, pp. 110-
115
Mishra, LC 2004, Scientific Basis for Ayurvedic
Therapies, CRC
Press LLC, United States of America
Access Economics 2004, Wake up Australia: the Value
of Healthy
Sleep, Sleep Health Australia Report, pp i - iii
Arendt, J 2005, ‗Melatonin: Characteristics,
Concerns, and
Prospects‘, Journal Of Biological Rhythms, vol 20,
issue 4, pp 291-
303
Arias, AJ, Steinberg, K, Banga, A, & Trestman,
RL 2006,
‗Systematic review of the efficacy of meditation
techniques as
treatments for medical illness‘, Journal of
Alternative &
Complementary Medicine vol 12, issue 8, pp 817-32
Harinath, K., Malhotra, A.S., Pal, K., Prasad, R.,
Kumar, R., Kain,
T.C., Rai, L., Sawhney, R.C., 2004, ‗Effects of
Hatha Yoga and
Omkar Meditation on Cardiorespiratory Performance,
Psychologic
Profile, and Melatonin Secretion‘, Journal of
Alternative and
Complementary Medicine, vol 10, issue 2, pp 261–268
Khalsa SB 2004, „Treatment of chronic insomnia with
yoga: a
preliminary study with sleep-wake diaries‘, Applied
Psychophysiology and Biofeedback, vol 29, issue 4,
pp 269-78
NIGMS 2008, Circadian Rhythms Fact Sheet, National
Institute of
General Medical Sciences, viewed 13 October 2009,
http://
www.nigms.nih.gov/Publications/Factsheet_CircadianRhythms.htm
Patra S, & Telles S 2009, ‗Positive impact of
cyclic meditation on
sleep‘, Medical Science Monitor, vol 15, issue 7, pp
375-81
Plesman, J 2008, The Biochemistry of Insomnia,
Hypoglycemic
Health Association of Australia , viewed 10 October
2009, http://
www.hypoglycemia.asn.au/articles/insomnia.html
Raub, JA 2002, ‗Psychophysiologic Effects of Hatha
Yoga on
Musculoskeletal and Cardiopulmonary Function: A
Literature
Review‘, Journal of Alternative and Complementary
Medicine, vol 8,
issue 6, pp 797-812.
Rubia K 2009, ‗The neurobiology of Meditation and
its clinical
effectiveness in psychiatric disorders‘, Biological
Psychology, vol 82,
issue 1, pp 1-11
Sevadevi 2008, Yoga to Balance the Doshas, The
Australian
Association of Yoga in Daily Life, viewed 11 October
2009,
Better Health website 2008, viewed 1 September 2008,
<http://
www.betterhealth.vic.gov.au/bhcv2/bhcarticles.nsf/pages/
Hypertension_means_high_blood_pressure?Open>
Cardiovascular Physiology Concepts website, 2008,
viewed 6
September, 2008,
<http://www.cvphysiology.com/Blood%
20Pressure/BP012.htm>
Innes, K.E, and Vincent, H.K, 2006, 'The Influence
of Yoga-Based
Programs on Risk Profiles in Adults with Type 2
Diabetes Mellitus: A
Systematic Review', Evidence-based Complementary and
Alternative Medicine, vol.4 (4), pp. 469-486, viewed
6th September
2008,
http://ecam.oxfordjournals.org/cgi/content/full/4/4/469
Jayasinghe, S. R. 2004, 'Yoga in cardiac health (A
Review)',
European Jornal of Cardiovascular Prevention &
Rehabilitation, vol.
11(5), pp. 369-375, viewed 2nd September, 2008,
http://
rollingwaveyoga.com/uploads/Yoga_for_CVS_health.pdf
Jerath, R, Edry, J.W, Barnes, V.A, Jerath, V, at
Augusta Women‘s
Centre, 2006 'Physiology of long pranayamic
breathing: Neural
respiratory elements may provide a mechanism that
explains how
slow deep breathing shifts the autonomic nervous
system', Medical
Hypothesis, vol. 67, pp. 566-571, viewed 19th
September, 2008,
http://www.sciencedirect.com/science?
_ob=ArticleURL&_udi=B6WN2-4JRVDBB-
4&_user=559483&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&
_version=1&_urlVersion=0&_userid=559483&md5=b305c9234180f7
8b5bea8f05a021c9ff
McCaffrey, R, Ruknui, P, Hatthakit, U, Kasetsomboon,
P, 'The
effects of yoga on hypertensive persons in Thailand
2005 (Clinical
Trial)' Holistic Nursing Practice. vol. 19(4), pp.
173-80, viewed 8th
September 2008, http://
ovidsp.uk.ovid.com.ezproxy.lib.monash.edu.au/spb/ovidweb.cgi?
&S=PMBHPDDHPPHFMDHLFNHLMHFHOMMCAA00&Link+Set=S
.sh.39%7c7%7csl_10
Mussalo, H, Vanninen, E, Ikäheimo, R, Laitinen, T,
Laakso,
M,Länsimies, E, Hartikainen, J, 2002, 'Baroreflex
sensitivity in
essential and secondary hypertension', Clinical
Autonomic
Research, vol.12(6), pp.465-471, viewed 28th
September 2008,
http://www.springerlink.com.ezproxy.lib.monash.edu.au/content/
uxmyj6cddr08yy8u/fulltext.pdf
National Institute of Mental Health website 2008,
Bette Runk,
Division of Communication and Education, National
Institute of
Mental Health, viewed 21st September 2008, http://
psychotherapy.com/bio.html
Patel, C.
1975, 'Randomised control trial of yoga and biofeedback
in management of hypertension', The Lancet, vol. 306
(7925), pp.93
-95, viewed at
http://www.sciencedirect.com/science?
_ob=MImg&_imagekey=B6T1B-498RP0B-183-
1&_cdi=4886&_user=559483&_orig=search&_coverDate=07%
2F19%2F1975&_sk=996932074&view=c&wchp=dGLbVzzzSkzV&md5=450a809089a90a3424c177cc64e336aa&ie=/
sdarticle.pdf
1. Martinez‐Cayuela, M. Review: Oxygen
free radicals and human
disease. Biochimie 1995; 77:147‐161.
2. Nadkarni, AK.
Indian Materia Medica. Bombay: Popular Book
Depot; 1987;1: 21‐22.
3. Kirtikar, KR & Basu,
BD. Indian Medicinal Plants. Allahabad:
Lalit M. Basu; 1991; 3: 2066‐2068.
4. Swami Sadashiva Tirtha.
The Ayurvedic Encylopedia: Natural
secrets of healing ,
prevention and longevity. New York:
Ayurvedic Holistic center Press;2007 ; 2:407.
5.
Ajay KS. Asthma and Ayurveda. Delhi: Sri Satguru Publication;
2008; 1: 29‐44.
6.
Paliwa, JK, Dwiwedi, AK, Singh, S. Pharmacokinetics and in‐situ
absorption studies of a
new antiallergic compound 73/602 in
rats. Int J Pharm 2000; 197: 1‐2, 213‐220.
7. Tripathi, RM and Das,
PK. Studies on Antiasthmatic and
antianaphylactic activity of
Albizzia lebbeck. Indian J
Pharmacol 1977; 9:3, 189‐194.
8. Gupta I, Gupta V,
Parihar A, Gupta S, Ludtke R. Effects
of
Boswellia serrata gum resin in‐patients with bronchial asthma:
results of a double
blind, placebo‐controlled,
6‐week
clinical
study. Eur J Med Res 1998; 11: 511‐514.
9. Sangraula H, Kumar VL. Anti‐inflammatory studies
on latex of
Calotropics
procera. Indian J of Pharmacol 1999; 31: 1‐78.
10.
Shinde, UA, Phadke, AS, Nair AM, Mungantiwar AA, Dixit VJ and
Saraf, MN. Preliminary
studies on the immunomodulatory
activity of Cedrus deodara wood oil. Fitoterapia 1999; 70: 333‐
339.
11. Wu JB, Chun YT,
Ebizuka Y, Sankawa V. Biologically active
constituents of Centipeda
minima: isolation of a new phenolinester
and the antiallergic activity of
sesquiterpene lactones.
Chem Pharm Bull 1985; 33: 4091‐4094.
12. Gupta SS. Prospects and
perspectives of natural products in
medicine. Indian J Pharmacol 1994; 26: 1‐12.
13.
Ammon, HP, Wahl, MA. Pharmacology of Curcuma
longa. Planta
Medica 1991; 57: 11‐7.
14. Srivastava, S, Gupta PP, Prasad R., Dixit KS, Palit G. Evaluation
of antiallergic activity
(type I hypersensitivity) of Inula
racemosa in rats. Indian J Pharmacol 1999; 43:2, 235‐241.
15. Doshi VB, Shetge VM,
Mahashur AA, Kamat SR. Picrorrhiza
kurroa in bronchial asthma. J Postgrad Med 1983; 29: 89‐95.
16. Govindan SS, Viswanathan
S, Vijayasekaran V, Alagappu R. A
pilot study on clinical
efficacy of Solanum xanthocarpum and
Solanum trilobatum in bronchial
asthma. J Ethnopharmacol
1999; 66:2, 205‐210.
17. Saraf MN, Patwardhan BK.
Pharmacological studies on
Sarcostemma brevistigma Whight
part II. Bronchodilator
activity. Indian Drugs 1988; 26: 54‐57.
18. Gokhale AB, Damre AS,
Kulkami KR, Saraf MN. Preliminary
evaluation of anti‐inflammatory and anti‐arthritic activity of S.
lappa, A. speciosa and A. aspera.
Phytomedicine 2002; 9(5):
433‐37.
19. Nayampalli SR, Desai NK,
Ainapure SS. Antiallergic activity of
Tinospora cordifolia in animal
models. Indian J Pharmacol
1986; 18:250‐252.
20. Nayampalli SS, Sheth UK.
Evaluation of antiallergic activity of
Tylophora indica using rat lung
perfusion. Indian J Pharmacol
1979; 229‐232.
21.
Nair AM., Saraf MN. Inhibition of antigen and compound 48/80
induced contractions of
guinea pig trachea by the ethanolic
extract of the leaves of Vitex
nigundo Linn. Indian J Pharmacol
1995; 27: 230‐233.
Belz, R. G., M. van der Laan, C. F. Reinhardt. Soil
degradation of parthenin-does it contradict the
role of allelopathy in the invasive weed.
Parthenium hysterophorus L.? J. Chem. Ecol.
35: 1137-1150 (2009).
Dhileepan, K. and K. A. D. W. Senaratne. How
widespread is Parthenium hysterophorus and its
biological control agent Zygogramma bicolorata
in South Asia?
Weed Res. 49: 557-562 (2009).
Evans, H. C. Parthenium hysterophorus: a review of its
weed status and the possibilities for biological
control. Biocon./News Inform. 18: 89-98 (1997).
McFadyen, R. E.. Parthenium weed and human health in
Queensland. Aust. Family Physician 24: 1455–
1459 (1995)
Javaid, A. and T. Anjum. Parthenium hysterophorus L.
–
a noxious alien weed. Pak. J. Weed Sci. Res. 11:
1-6 (2005).
Javaid, A. and T. Riaz. Spread of aggressive alien
weed
parthenium hysterophorus L. in district Okara,
Pakistan. J. Anim. Plant Sci. 17: 59-62 (2007).
Javaid, A., S. Shafique and S. Shafique. Invasion of
noxious alien weed
Parthenium hysterophorus
L. in grazing lands of Lahore, Pakistan. J. Anim.
Plant Sci. 19: 149-153 (2009).
Joshi, S. Interference effect of Cassia uniflora
Mill. on
Parthenium hysterophorus L. Plant Soil 132:
213-218 (1991).
Kohli R. K. and D. Rani. Parthenium hysterophorus –
a
review. Res. Bull. (Sci.) Panjab Univ. (India) 44:
105–149 (1994).
Navie, S. C., R. E. McFayden, F. D. Panetta and S.
W.
Adkins. The biology of Australian weeds. 27.
Parthenium hysterophorus L. Plant Prot. Q. 11:
76-88 (1996).
Reinhardt, C. F., R. G. Belz, K. Hurle. Role of the
allelochemical parthenin in the invasive strategy
of the alien plant Parthenium hysterophorus L.
South Afr. J Bot. 75: 417-418 (2009).
Riaz,. T. and A. Javaid. Invasion of exotic weed
Parthenium hysterophorus L. in district
Sheikhupura, Pakistan. Int. J. Biol. Biotech. 4(2-
3): 163-166 (2007).
Riaz, T., S. N. Khan, A. Javaid and A. Farhan. Weed
flora of
Gladiolus in Lahore, Pakistan.
Pak. J.
Weed. Sci. Res. (1-2): 113-120 (2007).
Riaz, T. and A. Javaid. Invasion of hostile alien
weed
Parthenium hysterophorus L. in Wah Cantt,
Pakistan. J. Anim. Plant Sci. 19: 26-29 (2009).
Sharman, M., D.M. Persley, J.E. Thomas.
Distribution in Australia and seed transmission
of tobacco streak virus in Parthenium
hysterophorus. Plant Dis. 93: 708-712 (2009).
Riaz, T. and A. Javaid. Prevalence of alien weed
Parthenium hysterophorus L. in grazing andwastelands of district
Attock. Pakistan. J. Anim.
Plant Sci. 21(3): 542-545 (2011).
Tang, S. Q., F. Wei, L.Y. Zeng. Multiple
introductions
are responsible for the disjunct distributions of
invasive
Parthenium hysterophorus in China:
evidence from nuclear and chloroplast DNA.
Weed Res. 49: 373-380 (2009).
Wakjira, M., G. Berecha, S. Tulu. Allelopathic
effects of
an invasive alien weed Parthenium
hysterophorus L. compost on lettuce
germination and growth. Afr. J Agric Res. 4:
1325-1330
(2009).
[1] Shashidhara S, Bhandarkar AV, Deepak M.
Comparative
evaluation of successive extracts of leaf and stem
bark of Albizzia
lebbeck for mast cell stabilization activity.
Fitoterapia 2008; 79(4):
301-302.
[2] Pratibha N, Saxena VS, Amit A, D’Souza P, Bagchi
M, Bagchi
D. Antiinflammatory activities of Aller-7, a novel
polyherbal
formulation for allergic rhinitis. Int J Tissue
React 2004; 26: 43-51.
[3] Babu NP, Pandikumar P, Ignacimuthu S.
Anti-inflammatory
activity of Albizia lebbeck Benth., an
ethnomedicinal plant,
in acute and chronic animal models of inflammation.
J
Ethnopharmacol 2009; 125(2): 356-360.
[4] Resmi CR, Venukumar MR, Latha MS. Antioxidant
activity of
Albizzia lebbeck (Linn.) Benth. in alloxan diabetic
rats. Indian J
Physiol Pharmacol 2006; 50(3): 297-302.
[5] Venkatesh P, Mukherjee PK, Kumar NS,
Bandyopadhyay A, Fukui
H, Mizuguchi H, et al. Anti-allergic activity of
standardized
extract of Albizia lebbeck with reference to
catechin as a
phytomarker. Immunopharmacol Immunotoxicol 2010;
32(2):
272-276.
[6] Saha A, Ahmed M. The analgesic and
anti-inflammatory activities
of the extract of Albizia lebbeck in animal model.
Pak J Pharm
Sci 2009; 22(1): 74-77.
[7] Anwikar S, Bhitre M. Study of the synergistic
anti-inflammatory
activity of Solanum xanthocarpum schrad and Wendl
and Cassia
fistula Linn. Int J Ayurveda Res 2010; 1(3):
167-171.
[8] Bhitre J, Bhakti P, Milind. Study of the synergistic
antiinflammatory activity of Solanum xanthocarpum
schrad and
wendl and Piper nigrum linn. Int J Ayurvedic Herbal
Med 2011; 1:
42 -53.
[9] Gupta RK, Hussain T, Panigrahi G, Das A, Singh
GN, Sweety
K, Faiyazuddin M, et al. Hepatoprotective effect of
Solanum
xanthocarpum fruit extract against CCl4
induced acute liver
toxicity in experimental animals. Asian Pac J Trop
Med 2011;
4(12): 964-968.
[10] Gupta R, Sharma AK, Sharma MC, Dobhal MP, Gupta
RS.
Evaluation of antidiabetic and antioxidant potential
of lupeol in
experimental hyperglycaemia. Nat Prod Res 2011.
DOI:10.1080/147
86419.2011.560845.
[11] Poongothai K, Ponmurugan P, Ahmed KS, Kumar BS,
Sheriff
SA. Antihyperglycemic and antioxidant effects of
Solanum
xanthocarpum leaves (field grown & in vitro
raised) extracts on
alloxan induced diabetic rats. Asian Pac J Trop Med
2011; 4(10):
778-785.
[12] Mohan L, Sharma P, Srivastava CN. Combination
larvicidal
action of Solanum xanthocarpum extract and certain
synthetic
insecticides against filarial vector, Culex
quinquefasciatus (SAY).
Southeast Asian J Trop Med Public Health 2010;
41(2): 311-319.
[13] Nagulendran K, Velavan S, Mahesh R. In vitro
antioxidant activity
and total polyphenolic content of Cyperus rotundus
rhizomes. E-J
Chem 2007; 4: 440-449.
[14] Battu GR, Ethadi S, Prayaga Murthy P, VS
Praneeth D,
Mallikarjuna Rao T. In-vitro antibacterial activity
and preliminary
phytochemical screening of three algae from
Visakhapatnam
Coast, Andhra Pradesh, India. Int J Pharm Pharm Sci
2011; 3(4):
399-401.
[15] Abdullahi SK, Lawal GH. Phytochemical and
microbial screening
of Parkinsonia aculeata L. leaves. Int J Drug Dev
& Res 2010; 2(1):
1-7.
[16] Panda SK, Padhi LP, Mohanty G. Antibacterial
activities and
phytochemical analysis of Cassia fistula (Linn.) leaf.
J Adv Pharm
Technol Res 2011; 2(1): 62-67.
[17] Kumar S, Lincy Joseph L, George M, Bharti V.
Antimicrobial
activity of methanolic extracts of Rumex nepalensis
leaves. Int J
Pharm Pharm Sci 2011; 3(4): 240-242.
[18] Zulfiker AH, Siddiqua M, Nahar L, Habib MR,
Uddin N, Hasan
N, et al. In vitro antibacterial, antifungal &
cytotoxic activity of
Scoparia dulcis L. Int J Pharm Pharm Sci 2011; 3(2):
198203.
[19] Wiegand I, Hilpert K, Hancock REW. Agar and
broth dilution
methods to determine the minimal inhibitory
concentration (MIC)
of antimicrobial substances. Nat Protocol 2008; 3:
163-175.
[20] National Committee for Clinical Laboratory
Standards. Methods
for Dilution antimicrobial susceptibility tests for
bacteria that
grow aerobically: approved standards. 5th ed. NCCLS
document
M7-A5. NCCLS. Wayne, PA, USA: NCCLS; 2000.
[21] Rasika CT, Lavate SM , Jadhav RB, Kamble GS,
Deshpande NR.
Evaluation of phenol and flavonoid content from
aerial parts of
Tecoma stans. Int J Pharm Pharm Sci 2011; 3(4):
126-127.
[22] Meda A, Lamien CE, Romito M, Millogo J,
Nacoulma OG,
Determination of the total phenolic, flavonoid and
proline
contents in Burkina Fasan honey, as well as their
radical
scavenging activity. Food Chem 2005; 91: 571-577.
[23] Hassan MM, Oyewale AO, Amupitan JO, Abduallahi
MS, Okonkwo
EM. Preliminary phytochemical and antibacterial
investigation of
crude extracts of the root bark of Detarium
microcarpum. J Chem
Soc Nigeria 2004; 29: 26-29.
[24] Usman H, Osuji JC. Phytochemical and in vitro
anti microbial
assay of the leaf extract of Newbouldia leavis. Afr
J Trad CAM
2007; 4: 476-480.
[25] Taher M, Susanti D, Rezali MF, Zohri FSA,
Ichwan SJA,
Alkhamaiseh SI, et al. Apoptosis, antimicrobial and
antioxidant
activities of phytochemicals from Garcinia malaccensis
Hk.f.
Asian Pac J Trop Med 2012; 5(2): 136-141.
[26] Vital PG, Rivera WL. Antimicrobial activity,
cytotoxicity, and
phytochemical screening of Voacanga globosa (Blanco)
Merr. leaf
extract (Apocynaceae). Asian Pac J Trop Med 2011;
4(10): 824-828.
[27] Vijayakumar A, Duraipandiyan V, Jeyaraj B,
Agastian P, Karunai
Raj M, Ignacimuthu S. Phytochemical analysis and in
vitro
antimicrobial activity of Illicium griffithii Hook.
f. & Thoms
extracts.Asian Pac J Trop Dis 2012; 2(3): 190-199.
[28] Ahmed Moussa, Djebli Noureddine, Meslem
Abdelmelek, Aissat
Saad. Antibacterial activity of various honey types
of Algeria
against Pathogenic Gram-Negative Bacilli:
Escherichia coli and
Pseudomonas aeruginosa. Asian Pac J Trop Dis 2012;
2(3): 211-214.
[29] Pratibha N, Saxena VS, Amit A, D’Souza P,
Bagchi M, Bagchi
D. Anti-inflammatory activities of Aller-7, a novel
polyherbal
formulation for allergic rhinitis. Int J Tissue
React 2004; 26: 43-51.
[30] BirenS, Nayak BS. Search for medicinal plants
as a source of antiinflammatory and anti-arthritic agents-A review. Pharmacogn
Magz 2007; 2: 77-86.
[31] Thatte U, Bhalerao S. Pharmacovigilance of
ayurvedic medicines
in India. Indian J Pharmacol 2008; 40: 2.
1. Austen KF: Allergies, anaphylaxis and systemic
mastocytosis. In: Harrison’s
Principles of Internal Medicine. McGraw Hill
Professional, New York, 16th
edition, 2005: 3416-3429.
2. Bingham CO and Austen KF: Mast-cell responses in
the development of asthma.
J Allergy Clin Imunol 2000; 105: S527-S534.
3. Dombrowicz D and Capron M: Eosinophils, allergy
and parasites. Curr Opin
Immunol 2001; 13: 716-720.
4. Simons FE: Anaphylaxis: Recent advances in
assessment and treatment. J Allergy
Clin Immunol
2009; 124: 625–636.
5. Vidya SM, Krishna V, Manjunatha, Mankani KL,
Ahmed M and Singh SDJ:
Evaluation of hepatoprotective effect of
Clerodendron serratum L. Ind J Exp Biol
2007; 45: 538-542.
6. Yang H, Xie JL and Sun HD: Study on chemical
constituents of Saussurea lappa.
I & II. Acta Botannica Yunnanica 1997; 19:
85-96.
7. Govindan S, Viswanathan S, Vijayasekaran V and
Alagappan R: A pilot study on
the clinical efficacy of Solanum xanthocarpum
and Solanum trilobatum in
bronchial asthma. J Ethnopharmacol 1999; 66: 205-210.
8. Gokhale AB, Dikshit VJ, Damle AS, Kulkarni KR and
Saraf MN: Influence of
ethanolic extract of Tephrosia purpurea Linn. on
mast cells and erythrocytes
membrane integrity. Ind J Exp Biol 2000; 38:
837-840.
9. Organization of Economic Cooperation &
Development, OECD. OECD
Guideline 423 for testing of chemicals, acute oral
toxicity. 2001.
10. Gupta SS, Paresh RM and Ram AK: Development of
anti-allergic and antihistaminic activity in relation to histamine releasing
effects of a plant saponin
form Clerodendron serratum. Aspects of Allergy and
Applied Immunology 1968;
2: 133-142.
11. Kim HM, Hong SH and Jeong HJ: Inhibitory effects
of Xanthii fructus extract on
mast cell mediated allergic reaction in murine
model. J Ethnopharmacol 2003;
88: 229-234.
12. Dale HH and Hartley P: Anaphylaxis to separated
proteins of horse serum.
Biochem J 1916; 10: 408-433.
13. Fedele G, Celestino I, Spensieri F, Loredana F,
Maria N, Mineo W, Maria ER,
Eliana MC, Fabio A and Clara MA: Lipooligosaccharide
from Bordetella
pertussis induces mature human monocyte-derived
dendritic cells and drives a
Th2 biased response. Microbes Infect 2007; 9:
855–863.
14. Janeway CA, Travers P, Walport M and Shlomchik
MJ: Allergy and
hypersensitivity. In: Immunobiology-immune system in
health and disease, New
York, Garland Science Publishing, Edition 6, 2005:
517-555.
15. Yang H, Jiang B, Zhi NA, Guo YP and Sun HD: Two
new iridoid glycosides
from Clerodendron serratum. Chin Chem Lett 2000; 11:
231-234.
16. Waly NM: Verifying the Scientific Name of Costus
[Saussurea
lappa((Decne.)C.B.Clarke.) – Asteraceae. JKAU Sci
2009; 21: 327-334.
17. Chadi A, Fraundorfer PF and Beaven MA: Compound
48/80 activates mast cell
phospholipase D via heterotrimeric GTP-binding
proteins. J Pharmacol Exp Ther
2000; 292: 122-130.
18. Pelter A, Ward RS, Rao EV, Ranga E and Raju N:
8-Substituted flavonoids and
30-substituted 7-oxygenated chalcones from Tephrosia
purpurea. J Chem Soc
Perk Transac 1981; 1: 2491–2498.
1. Harborne JB. Introduction to Ecological
Biochemistry, 2nd Ed., Academic Press, New
York, NY. 1982
2. Harborne JB. Turner B. L., Plant
Chemosystematics, Academic Press, London, UK, 1984.
3. Pridham JB. Phenolics in Plants in Health and
Disease, Pergamon Press, New York, NY,
1960
4. Shahidi F,
Naczk M. Phenolics in Food and Neutraceuticals: Sources, Applications
and
Health Effects, CRC Press, Boca Raton, FL.,
2004
5. Beckman CH. Physiol.Mol.Plant Pathol., 2000,
57,101-110
6. Wu H, Haig T, Prately J, Lemerie D, Journal of
Chromatogr.A 1999.864, 315-321
7. Wu H, Haig T, Prately J, Lemerie D, An M.,
Journal of Agri. Food Chem.2000,48, 5321-
5325
8. Einhellig FA. Putnam AR, Tang CS.The Science of
Allelopathy, John Wiley and sons.
New York, 1996, 171-189
9. Koshihara T,Neichi T, Murota S, Lao A, Fujimoto
Y, Tatsuno T, Biochim. Biophys. Acta,
1984, 792, 92-97
10. Zhou J, Ashoori F, Susuki S, Nishigaki I, Yagi
K, J. Clin. Biochem. Nutr.1993, 15,119-125
11. Tanaka T, Kojima T, Kawamori T, Yoshimi N, Mori
H, Cancer Res. 1993,53,2775-2779.
12. Serrano A, Palacios C, Roy G, Cespon C, Villar
MI, Nocito M, Porque PG, Arch.
Biochem. Biophys. 1998, 350, 49-54
13. Cliffford MN, Journal of Sci. Food Agri. 1999,
79,362-372
14. Prior RL, Wu H, Gu L. Flavonoid metabolism and
challenges to understanding
mechanisms of health effects. J. Sci. Food Agric.
2006, 86, 2487-2491.
15. Harborne JB. Flavonoids: Advances in Research
since 1986, Chapman and Hall, London
1994, 589-618
16. Shirley BW. Trends Plant Sci.1996, 31,377-382
17. Shashidhara S, Bhandarkar AV, Deepak M.
Comparative evaluation of successive extracts
of leaf and stem bark of Albizzia lebbeck for
mast cell stabilization activity.
Fitoterapia 2008 ;79(4):301-2.
18. Pratibha N, Saxena VS, Amit A, D'Souza P, Bagchi
M, Bagchi D. Antiinflammatory
activities of Aller-7, a novel polyherbal
formulation for allergic rhinitis. Int.
J. Tissue.
React 2004; 26: 43-51.
19. Babu NP, Pandikumar P, Ignacimuthu S.
Anti-inflammatory activity of
Albizia lebbeck Benth., an ethnomedicinal plant, in
acute and chronic animal models of
inflammation. J Ethnopharmacol
2009;125(2):356-60.
20. Resmi CR, Venukumar MR, Latha MS. Antioxidant
activity of Albizzia lebbeck (Linn.)
Benth. in alloxan diabetic rats. Indian J Physiol
Pharmacol 2006;50(3):297-302.
21. Venkatesh P, Mukherjee PK, Kumar NS,
Bandyopadhyay A, Fukui H, Mizuguchi , Islam
N. Anti-allergic activity of standardized extract of
Albizia lebbeck with reference to
catechin as a phytomarker. Immunopharmacol
Immunotoxicol 2010;32(2):272-6.
22. Saha A, Ahmed M. The analgesic and
anti-inflammatory activities of the extract of
Albizia lebbeck in animal model. Pak J Pharm Sci
2009; 22(1):74-7.
23. Anwikar S, Bhitre M. Study of the synergistic
anti-inflammatory activity
of Solanum xanthocarpum Schrad and Wendl and Cassia
fistula Linn. Int J Ayurveda
Res 2010;1(3):167-71.
24. Bhitre J, Bhakti P, Milind. Study of the
synergistic antiinflammatory activity of solanum
xanthocarpum schrad and wendl and piper nigrum linn;
International Journal of Ayurvedic
and Herbal Medicine 2011; 1: 42 –53.
25. Gupta RK, Hussain T, Panigrahi G, Das A, Singh
GN, Sweety K, Faiyazuddin M, Rao CV.
Hepatoprotective effect of Solanum xanthocarpum
fruit extract against CCl(4) induced
acute liver toxicity in experimental animals. Asian
Pac J Trop Med 2011; 4(12):964-8.
26. Gupta R, Sharma AK, Sharma MC, Dobhal MP, Gupta
RS. Evaluation of antidiabetic and
antioxidant potential of lupeol in experimental
hyperglycaemia. at Prod Res 2011.
DOI:10.1080/14786419.2011.560845.
27. Poongothai K, Ponmurugan P, Ahmed KS, Kumar BS,
Sheriff SA. Antihyperglycemic and
antioxidant effects of Solanum xanthocarpum leaves (field grown & in vitro raised)
extracts on alloxan induced diabetic rats. Asian Pac
J Trop Med 2011;4 (10):778-85.
28. Mohan L, Sharma P, Srivastava CN. Combination
larvicidal action
of Solanum xanthocarpum extract and certain
synthetic insecticides against filarial vector,
Culex quinquefasciatus (SAY). Southeast Asian J Trop Med Public Health
2010;
41(2):311-9.
29. Nagulendran K, Velavan S, Mahesh R. In Vitro
Antioxidant Activity and Total
Polyphenolic Content of Cyperus rotundus Rhizomes, E-Journal of Chemistry 2007; 4:
440-449.
30. Das S, Haldar PK, Pramanik G, Suresh RB,
Evaluation of Anti-Inflammatory Activity of
Clerodendron infortunatum Linn. Extract in Rats; Global Journal of
Pharmacology, 4,
2010, 48-50.
31. Narayanan N, Thirugnanasambantham P, Viswanathan
S, Vijayasekaran V, Sukumar E.
Evaluation of antinociceptive, antiinflmmatory
and antipyretic activities of ethanolic
extract of roots of
Clerodendron serratum on
experimental animal models, J
Ethnopharmacol, 65,1999, 237-241.
32. Vidya SM, Krishna V, Manjunatha BK, Mankani,
MAnzoor Ahmed KL, Singh J, S.D.
Evaluation of hepatoprotective activity of Clerodendrum serratum L, Indian Journal of
Experimental Biology, 45, 2007, 538-542.
33. Gupta SS, Rai M, Gupta NK, Histamine releasing
effects of a few Indian medicinal plants
used in bronchial asthma, Curr. Sci, 36,1967, 42.
34. Modh PR, Gupta SS, Effect of a plant saponin on
Histamine release in relation to their anticholinesterase activity, Indian
J.Physioal, Pharmacol, 13, 1969, 57.
35. Srimal RC, Sharma SC, Tandon JS, Antilnflammatory and other pharmacologlcal effects
of Hedychium spicatum (Buch-Hem), Indian Journal of Pharmacology, 16, 1984,
143-147.
36. Bhatt ID, Prasad K, Rawat S, Rawal RS,
Evaluation of antioxidant phytochemical diversity
in Hedychium spicatum: A high value medicinal plant
of Himalaya. PHOG MAG, 4, 2008,
202-205.
37. Ganga Rao Battu, Sambasivarao Ethadi, Prayaga
Murthy.P, V.S.Praneeth.D, Mallikarjuna
Rao.T. In-Vitro Antibacterial Activity And
Preliminary Phytochemical Screening Of Three
Algae From Visakhapatnam Coast, Andhra Pradesh,
India. Int J Pharm Pharm Sci 2011;
3(4) : 399-401.
38. Harborne JB, Phytochemical Methods: A Guide to
Modern Techniques of Plant Analysis,
(3rd edition). Chapman and Hall Co., New York, 1998,
1-302.
39. Malik EP, Singh MB. Plant Enzymology and
Hittoenzymology, (First Edn.) Kalyani
Publishers, New Delhi, 1980, 286.
40. Rasika CT, Lavate SM , Jadhav RB, Kamble GS and
Deshpande NR.
.
Evaluation Of
Phenol And Flavonoid Content From Aerial Parts Of
Tecoma Stans. Int J Pharm Pharm Sci
2011; 3(4) 126-127.
41. Chang C. Yang M, Wen H, Chern J Estimation of
total flavonoid content in propolis by
two complementary calorimetric methods. J. Food Drug
Analysis 2002, 10:178-182.
42. Meda A, Lamien CE, Romito M, Millogo J, Nacoulma
OG, Determination of the total
phenolic, flavonoid and proline contents in Burkina
Fasan honey, as well as their radical
scavenging activity. Food Chem 2005; 91: 571-577.
43. Zhishen J, Mengcheng T, Jianming W. The
determination of flavanoid contents in
mulberry and their scavenging effects on superoxid
radicals. Food Chem. 1999, 64, 555–
559.
44. Kessler M, Ubeaud G, Jung L. Anti- and
pro-oxidant activity of rutin and quercetin
derivatives. J. Pharm. Pharmacol. 2003;55: 131-142.
45. Cook NC, Samman S (1996). Flavonoids- chemistry,
metabolism, cardioprotective effects,
and dietary sources. Nutr. Biochem. 7: 66- 76.
46. Shahidi F, Wanasundara PK. Phenolic
antioxidants. Crit Rev. Food Sci. Nutr.
1992. 32:
67-103.
47. Das NP, Pereira TA Effects of flavonoids on
thermal autooxidation of Palm oil: structure-
activity relationship. J. Am. Oil Chem. Soc. 1990;
67: 255- 258.
48. Younes M. Inhibitory action of some flavonoids
on enhanced spontaneous lipid
peroxidation following glutathione depletion. Plant
Med ,1981;43: 240-245.
49. Hassan MM, Oyewale AO, Amupitan JO, Abduallahi
MS, Okonkwo EM, Preliminary
Phytochemical and antibacterial investigation of
crude extracts of the root bark of
Detarium microcarpum, J.Chem. Soc. igeria 2004; 29:
26-29.
1. Anonymous, 1986. The useful plants of India,
Publications and Information Directorate,
CSIR, New Delhi, India, p.581.
2. Chand, R., Kumar, S., Sharma, A.K. and
Srivastava, L., 1995. Variation of solasodine in
Solanum sisymbriifolium and Solanum xanthocarpum
with plant growth and development,
Indian Drugs, 32(8): 362-365.
3. Chase, C.R. and Pratt, R.J., 1949. Fluorescence of
powdered vegetable drugs with particular
reference to development of a system at
identification, J. Amer. Pharm. Ass., 38: 324-331.
4. Chopra, R.N., Nayar, S.L. and Chopra, I.C., 1956.
Glossary of Indian Medicinal Plants,
CSIR, New Delhi, India, p.229.
5. Gawande, A., Wankhade, S., Shankhopal, K.V. and
Shinde, G.B., 1991. Isolation, purification
and characterization of solasodine – A Steroidal
alkaloid from Solanum surattense berries,
Indian Drugs, 28(3): 149-150.
6. Kay, A.L., 1938. Microscopical studies of Drugs,
Bailliee Tindall and Cox, London.
7. Kirtikar, K.R. and Basu, B.D., 1935. Indian
Medicinal Plants III, Bishen Singh Mahendra
Pal Singh, Dehradun, pp.2051-2069.
8. Lama, S. and Santra, S.C., 1979. Development of
Tibetan Plant Medicine, Sci. Cult., 45:
262-265.
9. Mathew, K.M., 1983. The Flora of the Tamil Nadu
Carnatic, Vol.III, Part I & II, The
Rapinat Herbarium, St. Joseph’s College,
Tiruchirapalli, India, pp.1061-1064.
10. Murugesa Mudhaliar, K.S., 1988. Gunapadam, Vol.I
(In Tamil), Tamil Nadu Siddha Medical
Board, Chennai, India, p.167.
11. Singh, M.P., Malla, S.B., Rajbhandari, S.B. and
Manandhar, A., 1979. Medicinal plants of
Nepal - Retrospects and Prospects, Econ. Bot.,
33(2): 185-198.
Alejandro R. & M. Delibes. 2003. Population
fragmentation and extinction in the Iberian lynx Biological
Conservation 109: 321-331
Bhuju, D.R. & M. Ohsawa. 2001. Patch
implications in
the maintenance of species richness in an isolated
forest site. Biological Conservation 98:
117–125.
Cane, J. H. & V. J. Tepedino. 2001. Causes and
extent of
declines among native North American invertebrate
pollinators: detection, evidence and consequences.
Conservation Ecology 5: 1. [online] URL:
http://www.consecol.org/vol5/iss1/art1
Cooke, T. 1908. Flora of Bombay Presidency.
Published
by BSI Calcutta.
Courchamp, F., T. Clutton-Brock & B. Grenfell.
1999.
Inverse density dependence and the Allee effect.
Trends in Ecology and Evolution 14: 405–410.
Fitzgibbon, C.D. 1997. Small mammals in farm
woodlands: the effects of habitat, isolation and surrounding land use
patterns. Journal of Applied Ecology
34:530–539.
Hinsley, S.A., R. Pakeman, P.E. Bellamy & I.
Newton.
1996. Influences of habitat fragmentation on bird
species distributions and regional population sizes.
Proceedings of the Royal Society of London 263:
307–313.
Kendi, F.D., B.A. Melbourene & C.R. Margules.
2001.
Effects of within- and between-patch processes on
community dynamics in a fragmentation experiment. Ecology 82: 1830-1846.
Kitazawa, T. & M. Ohsawa. 2002.
Patterns of species
diversity in rural herbaceous communities under
different management regimes, Chiba, central
Japan. Biological Conservation 104: 239
– 249.
Lenore, F. 2002.
Effect of habitat fragmentation on the
extinction threshold: a synthesis. Ecological Applications 12: 346-353.
Lienert, J., M. Fischer & M. Diemer. 2002. Local extinctions of the wetland
specialist Swertia perennis L.
(Gentianaceae) in Switzerland: a revisitation study
based on herbarium records. Biological Conservation 103: 65-76.
Noss, R.S. 1996.
Conservation of biodiversity at the landscape scale. pp. 574-589. In: R. C. Szaro & D. W.
Johnston, (eds.)
Biodiversity in Managed Landscapes: Theory and Practice. Oxford, New
York, USA.
Opdam, P., G. Rijsdijk & F. Hustings. 1985. Bird
communities in small woods in an agricultural landscape: effects of area and
isolation. Biological Conservation 34: 333–352.
Phatak, V.G. & S. Satakopan. 1957. Plant types of the
ponds of the plains around Baroda. I-Pond vegetation
at harni (Baroda). Journal of The M.S. University of Baroda 6: 11-40
Risser, P. G. 1987. Landscape ecology: state of the
art.
pp. 3-14.
In: M. G. Turner (ed.) Landscape
Heterogeneity and Disturbance.
Ecological Studies: 64,
Springer Verlag, New York.
Robin, L.M. & J.C. David. 2001. The
diversitydisturbance relationship: is it generally strong and
peaked?
Ecology 82: 3479-3492
Shah, G.L. 1978.
Flora of Gujarat State. S. P. University, Vallabh Vidyanagar.
Skidmore, A.K., A. Gauld & P. Walker. 1996.
Classification of kangaroo habitat distribution using three
GIS models.
International Journal of Geographical
Information Systems 10:441–454. .
Stephens, P.A. & W.J. Sutherland. 1999.
Consequences
of the Allee effect for behaviour, ecology and
conservation. Trends in Ecology and
Evolution 14: 401–
405.
Tilman, D., R.M. May, C.L. Lehman & M.A. Nowak.
1994. Habitat
destruction and the extinction debt.
Nature 371: 65-66.
Young, A., T. Boyle & T. Brown. 1996. The population
genetic consequences of habitat fragmentation for
plants.
Trends in Ecology and Evolution 11: 413–
418.
Dukes, PD., D.J. Morton, and S.E Jenkins Jr.1%5.
Infection of indigenous hosts by
Pseudomonassolanacearumin south Georgia.
Phytopathology 55:1055. (Abstr.)
Graham, J.and A.B. Lloyd. 1973. Solanum cinereumR.
Br., a wild host ofPseudomonas
solanacearumbiotype II.J. Aust. Inst. Agric. Sci.
44:124-126.
Granada, G.A.
and L.Sequeira. 1981. Aselective medium for Pseudomonassolanacearum.
Phytopathology 71:220. (Abstr.)
Granada, G.A. and L.Sequeira. 1983. Survival of Pseudomonassolanacearumin
soil,
rhizosphere and plant roots. Can. J.Microbiol.
29:433-440.
Hayward, A.C. 1991. Biology and epidemiology
ofbacterial wilt caused by Pseudomonas
solanacearum.Annu. Rev. Phytopathol. 29:65-87.
Jackson, M.T and L.C. Gonzdlez. 1981. Persistence of
Pseudomonassolanacearum(race 1)
in a naturally infested soil in Costa Rica.
Phytopathology 71:690-693.
Kishore, V.,
V.Sunaina, and G.S. Shekhawat. 1993. Estimation of infection by
Pseudomonassolanacearumin weed and non-host plants.
In: National Symposium
on Potato: Present and Future. CPRS, Madipuram,
India, March 1-3,1993. J.Indian
Potato Assoc. 20:55.
Moffett, M.L. and A.C. Hayward. 1920. The role of
weed species in survival of
Pseudomonassolanacearumin tomato cropping land.
Australas. Plant Pathol. 9:6-8.
Olsson, K. 1976. Experience of brown rot caused by
Pseudomonassolanacearumin
Sweden. In: Sequeira, L. and A.Kelman (eds.).
Proceedings 1st International
Conference/Ist Workshop Ecological Control of
Bacterial Wilt. North Carolina
State University,Raleigh, NC, USA. p. 105-109.
Quimio, A.J. and H.H. Chan. 1979. Survival of
PseudomonassolanacearumE.E Smith in
the rhizosphere of some weed and economic plant
species. Philipp. Phytopathol.
15:108-121.
Rao, M.VB.
and M.S. Sohi. 1976. Additional hosts for PseudomonassolanacearumE.E
Smith. Curr. Sci. 45:75-76.
Sunaina, V., V.Kishore, and G.S. Shekhawat. 1969.
Latent survival of Pseudomonas
solanacearumin potato tubers and weeds.
Pflanzenkr.Pflanzenschutz 96:361-364.
1. Vasudevan M, Parle M. Pharmacological actions of
Thespesia populnea relevant to
Alzheimer’s disease. Phytomedicine 2006; 13:
677-687.
2. Dhingra D, Parle M, Kulkarni SK. Genetic basis of
Alzheimer’s disease. Indian J
Pharm Sci 2005; 67: 409-413.
3. Wood AJJ.
Drug therapy: Alzheimer’s disease. New Engl J Med 2004; 351: 56-67.
4. Dadkar VN, Tahiliani RR, Jaguste VS, Damle VB,
Dhar HL. Double-blind
comparative trial of Abana and methyl dopa for
immunotherapy of hypertension in
Indian patients. Jpn Heart J 1990; 31: 193-199.
5. Rao R. Abana in cardiac disease and cardiac
neurosis. Probe 1988; 27: 274-279.
6. Tiwari AK, Shukla SS, Agarwal Α, Dubey GP.
Lowering of serum total cholesterol to
high density lipoprotein cholesterol ratios in
hypercholesterolaemic patients by
Abana: possible cardioprotective action. Altern Med
1990; 3: 145-148.
7. Wahal PK. A preliminary report on the inhibitory
effect of Abana on platelet
aggregation and adhesiveness in cases of coronary
heart disease and hypertension.
Probe 1991; 30: 312-315.
8. Talib SH, Khan ZH. Evaluation of Abana therapy in
anxiety complex syndrome with
special reference to
vanilyll mandelic acid (VMA) as marker of assessment. Probe
1986; 25: 147-150.
9. Itoh J, Nabeshima T, Kameyama T. Utility of an
elevated plus maze for evaluation of
nootripics, scopolamine and electroconvulsive shock.
Psychopharmacol 1990; 101:
27-33.
10. Reddy DS, Kulkarni SK. Possible role of nitric
oxide in the nootropic and
antiamnesic effects of neurosteroids on aging and
dizocilpine-induced learning
impairment. Brain Res 1998; 799: 215-229.
11. Parle M, Vasudevan M, Singh N. Swim everyday to
keep dementia away. J Sport Sci
Med 2005; 4: 37-46.
12. Parle M, Singh N. Animal models for testing
memory. Asia Pacific J Pharmacol
2004; 16: 101-120.
13. Parle M, Dhingra D, Kulkarni SK. Neuromodulators
of learning and memory. Asia
Pacific J Pharmacol 2004; 16: 89-99.
14. Nishiyama N, Zhou Y, Saito H. Beneficial effects
of DX-9386, a traditional Chinese
prescription, on memory disorder produced by
lesioning the amygdale in mice. Biol
Pharm Bull 1994; 17: 1679–1681.
15. Kumar MHV, Gupta YK. Antioxidant property of
Celastrus paniculatus Willd.: a
possible mechanism in enhancing cognition.
Phytomedicine 2002; 9: 302–311.
16. Sulochana B, Rao M, Chetana P, Devi U. Centella asiatica treatment during
postnatal period enhances learning and memory in
mice. Physiol Behav 2005; 86: 449
– 457.
17. Abe K, Saito H. Effects of saffron and its
constituent crocin on learning behavior and
long-term potentiation. Phytother Res 2000; 14:
149–152.
18. Thakur VD, Mengi SA. Neuropharmacological
profile of Eclipta alba (Linn.) Hassk.
J Ethnopharmacol 2005; 102: 23–31.
19. Dhingra D, Parle M, Kulkarni SK. Memory enhancing
activity of Glycyrrhiza glabra
in mice. J Ethnopharmacol 2004; 91: 361-365.
20. Joshi H, Parle M. Nardostachys jatamansi
improves learning and memory in mice. J
Med Food 2006; 9: 113-118.
21. Joshi H, Parle M. Evaluation of nootropic
potential of Ocimum sanctum Linn. in
mice. Indian J Exp Bio 2006; 44, 133-136.
22. Joshi H, Parle M. Effect of piperine on memory
and behavior mediated via
monoamine neurotransmitters. J Trad Med 2005; 23:
39-43.
23. Joshi H, Parle M. Zingiber officinale: Evaluation
of its nootropic effect in mice. Afr J
Trad CAM 2006; 3: 64-74.
24. Schliebs R, Liebmann A, Bhattacharya SK, et
al. Systemic administration of defined
extracts from Withania somnifera (Indian Ginseng)
and shilajit differentially affects
cholinergic but not glutamatergic and gabaergic
markers in rat brain. Neurochem Int
1997; 30: 181-190.
25. McGeer EG, McGeer PL. Brain inflammation and the
therapeutic implications. Curr
Pharm Design 1999; 5: 821-836.
26. Rao SK, Andrade C, Reddy K, et al. Memory
protective effect of indomethacin
against electroconvulsive shock-induced retrograde
amnesia in rats. Biol Psychiat
2002; 51: 770-773.
27. Stephan A, Laroche S, Davis S. Learning deficits
and dysfunctional synaptic
plasticity induced by aggregated amyloid deposits in
the dentate gyrus are rescued by
chronic treatment with indomethacin. Eur J Neurosci
2003; 17: 1921-1927.
28. Choi E, Hwang J. Anti-inflammatory, analgesic
and antioxidant activities of the fruit
of Foeniculum vulgare. Fitoterapia 2004; 75: 557–
565.
29. Bhalla TN, Gupta MB, Bhavgava KP.
Anti-inflammatory activity of Boerhaavia
diffusa L. J Indian Med Res 1971; 6: 11–15.
30. Ahmad F, Khan RA, Rasheed S. Preliminary
screening of methanolic extracts of
Celastrus paniculatus and Tacomelia undulate for analgesic and
anti-inflammatory
activities. J Ethnopharmacol 1994; 42: 193–198.
31. Ramaswamy AS, Periyasamy SM, Basu N.
Pharmacological studies on Centella
asiatica Linn. (Brahma manduki) (n.o. Umbelliferae).
J Res Industrial Med 1970; 4:
160–175.
32. Jagtap AG, Shirke SS, Phadke AS. Effect of
polyherbal formulation on experimental
models of inflammatory bowel diseases. J
Ethnopharmacol 2004; 90: 195–204.
33. Leal LK, Ferreira AA, Bezerr GA, Matos FJ, Viana
GS. Antinociceptive, antiinflammatory and bronchodilator activities of
Brazilian medicinal plants containing
coumarin: a comparative study. J Ethnopharmacol
2000; 70: 151–159.
34. Al-Zuhair H, El-Sayeh B, Ameen HA, Al-Shoora H.
Pharmacological studies of
cardamom oil in animals. Pharmacol Res 1996; 34:
79–82.
35. Asmawi MZ, Kankaanranta H, Moilanen E, Vapaatalo
H. Anti-inflammatory
activities of Emblica officinalis Gaertn. leaf
extracts. J Pharm Pharmacol 1993; 45:
581– 584.
36. Yokota T, Nishio H, Kubota Y, Mizoguchi M. The
inhibitory effect of glabridin from
liquorice extracts on melanogenesis and
inflammation. Pigm Cell Res 1998; 11: 355–
361.
37. Kelm MA, Nair MG, Strasburg GM, De Witt DL.
Antioxidant and COX inhibitory
phenolic compounds from Ocimum sanctum Linn.
Phytomedicine 2000; 7: 7–13.
38. Majumdar AM, Dhuley JN, Deshmukh VH, Raman PH,
Naik SR. Anti-inflammatory
activity of piperine. Jap J Med Sci Biol 1990; 43:
95-100.
39. Thomson M, Al-Qattan KK, Al-Sawan SM, et al. The
use of ginger (Zingiber
officinale Rosc.) as a potential anti-inflammatory
and antithrombotic agent. Prostag
Leukotr Ess 2002; 67: 475-478.
40. Agarwal R, Diwanay S, Patki P, Patwardhan B.
Studies on immunomodulatory
activity of
Withania somnifera (Ashwagandha) extracts in experimental immune
inflammation. J Ethnopharmacol 1999; 67: 27–35.
41. Sinclair AJ, Bayer AJ, Johnston J, Warner C,
Maxwell SR. Altered plasma
antioxidant status in subjects with Alzheimer’s
disease and vascular dementia. Int J
Geriatr Psychiatry 1998; 13: 840-855.
42. Berr C. Oxidative stress and cognitive
impairment in the elderly. J Nutr Health
Aging
2002; 6: 261-266.
43. Butterfield DA, Lauderback CM. Lipid
peroxidation and protein oxidation in
Alzheimer’s disease: potential causes and
consequences involving amyloid-beta
peptide-associated free radical oxidative stress.
Free Radical Bio Med 2002; 32:
1050-1060.
44. Floyd RA, Hensley K. Oxidative stress in brain
aging. Implications for therapeutics of
neurodegenerative disease. Neurobiol Aging 2002; 23:
795-807.
45. Perry G, Cash AD, Smith MA. Alzheimer disease
and oxidative stress. J Biomed
Biotech 2002; 2: 120-123.
46. Sayre LM, Zagorski MG, Surewicz WK, Krafft GA, Perry G. Mechanisms of
neurotoxicity associated with amyloid beta
deposition and the role of free radicals in
the pathogenesis of Alzheimer’s disease: a critical
appraisal. Chem Res Toxicol 1997;
336: 1216-1222.
47. Rogers EJ, Milhalik S, Ortiz D, Shea TB. Apple
juice prevents oxidative stress and
impaired cognitive performance caused by genetic and
dietary deficiencies in mice. J
Nutr Health Aging 2003; 7: 1-6.
48. Bickford PC, Gould T, Briederick L, et al.
Antioxidants-rich diets improve cerebellar
physiology and motor learning in aged rats. Brain
Res 2000; 886: 211-217.
49. Manikandan S, Devi RS. Antioxidant property of α-asarone against noise-stressinduced changes
in different regions of rat brain. Pharmacol Res 2005; 52: 467–474.
50. Kamat JP, Boloor KK, Devasagayam TPA,
Venkatachalam SR. Antioxidant
properties of Asparagus racemosus against damage
induced by γ-radiation in rat liver
mitochondria. J Ethnopharmacol 2000; 71: 425–435.
51. Subathra M, Shila S, Devi MA, Panneerselvam C.
Emerging role of Centella asiatica
in improving age-related neurological antioxidant
status. Exp Gerontol 2005; 40:
707–715.
52. Chatterjee S, Poduval TB, Tilak JC, Devasagayam
TPA. A modified, economic,
sensitive method for measuring total antioxidant
capacities of human plasma and
natural compounds using Indian saffron (Crocus
sativus). Clinica. Chimica Acta
2005; 352: 155–163.
53. Seo WG, Pae HO, Oh GS, et al. Inhibitory effects
of methanol extract of Cyperus
rotundus rhizomes on nitric oxide and superoxide
productions by murine macrophage
cell line, RAW 264.7 cells. J Ethnopharmacol 2001;
76: 59–64.
54. Hinneburg I, Dorman HJD, Hiltunen R. Antioxidant activities of extracts from
selected culinary herbs and spices. Food Chem 2006;
97: 122–129.
55. Bhattacharya A, Chatterjee A, Ghosal S,
Bhattacharya SK. Antioxidant activity of
active tannoid principles of Emblica officinalis
(amla). Indian J Exp Biol 1999; 37:
676–680.
56. Fukai T, Satoh K, Nombra T, Sakagamic H.
Preliminary evaluation of antinephritis
and radical scavenging activities of glabridin
from Glycyrrhiza glabra. Fitoterapia
2003; 74: 624–629.
57. Tripathi YB, Tripathi E, Upadhyay A. Antilipid peroxidative property of
Nardostachys jatamansi. Indian J Exp Biol 1996; 34:
1150–1151.
58. Khajuria A, Thusu N, Zutshi U, Bedi KL. Piperine
modulation of carcinogen induced
oxidative stress in intestinal mucosa. Mol cell
Biochem 1998; 189: 113–118.
59. Naika GH, Priyadarsinia KI, Naika DB,
Gangabhagirathib T, Mohana H. Studies on
the aqueous extract of Terminalia chebula as a potent antioxidant
and a probable
radioprotector. Phytomedicine 2004; 11: 530–538.
60. Ahmed RS, Seth V, Pasha ST, Banerjee BD.
Influence of dietary ginger (Zingiber
officinales Rosc) on oxidative stress induced by
malathion in rats. Food Chem
Toxicol 2000; 38: 443–450.
61. Kaur K, Rani G, Widodo N, et al. Evaluation of
the anti-proliferative and antioxidative activities of leaf extract from in
vivo and in vitro raised Ashwagandha. Food
Chem Toxicol 2004; 42; 2015–2020.
1. Anonymous (1992). Preparation of kwath and
Dashmulakwath,
in Bangladesh
National Formulary of Ayurvedic Medicine,
(Approved by the Govt. of Bangladesh vide Ministry
of Health
and Family Welfare, Memo No.
Health-1/Unani-2/89/(Part-I)
116, dated 3-6-i1, 20-32.
2. Gould JC & Bowie JH, The determination of bacterial sensitivity
of antibiotics. Edinburgh Med. J., 59,178-199,
(1952).
3. Persoone. (1980). Proceedings of the
International Symposium
on Brine Shrimp,
Artemia salina, Universal Press, Witteren,
Belgium, pp.1-3.
4. McLaughlin, J.L. (1991). Bench-top Bioassays for
the Discovery
of Bioactive Compounds in Higher Plants. Brenesia,
34: 1-14
5. Meyer, B.N., Ferrigni, N.R., Putnam, J.E.,
Jacobssen, L.B.,
Nichols, D.E. and McLaughlin, J.L. (1982). Brine
Shrimp: A
Convenient General Bioassay for Active Plant
Constituents.
Planta Med, 45: 31-34.
Prashar R, Kumar A. International J. Pharmacogn; 33:
181(1995).
Quadrat M, Khaeque AB, Khan RA, Roy N. Sci. Res; 3:
9(1996).
Queshi SA, Zahoor S, Mirza M. The occurrence of
tumor inhibiting compounds in plants Hamdard Medicus; 40: 31-
35(1997).
Ravindranath V, Satyanarayana MN, Phytochemistry;
19: 203(1980).
Razina
TG, Zueva EP,
Amosova EN et
al. Medicinal Plant
Preparations used as
adjuvant therapeutics in
experimental oncology. Eksp Klin Farmakol; 63:
59-61(2000).
(Contd.)
Comments
Post a Comment