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of plant extract and essential oils for antifungal activity against Botrytis cinerea. Plant Disease 1997;81:204-10.

2. Reinhard J, Srivivasan MV, Zhang S. Scent-triggered navigation in honeybees. Nature 2004;427:411.

3. Sharma N, Tripathi A. Fungitoxicity of the essential oil of Citrus sinensis on post-harvest pathogens. World J Microbiol Biotechnol 2006;22:587-93.

4. Dudareva N, Negre F, Nagegowda DA, Orlova I. Plant volatiles: Recent advances and future perspectives. Crit Rev Plant Sci 2006;25:417-40.

5. Sachs M. Ayurvedic Beauty Care-ageless techniques to invoke natural beauty. USA: Lotus Press; 1994.

6. Baur AW, Kirby WMM, Sherris JC, Turck M. Antibiotic susceptibility testing by standard single disk method. Am J Clin Pathol 1966;45:493-6.

7. Kathi K, Mindy G. Aromatherapy. Alternate medicine. Series No. 1. New Delhi: Sri Satguru Publications; 1999. p. 59.

8. Kathi K, Mindy G. Aromatherapy. Alternate medicine. Series No. 1. New Delhi: Sri Satguru publications; 1999. p. 60.

9. Rastogi RP, Mehrotra BN. Compendium Indian Medicinal Plants. Vol. 3. New Delhi: Publications and Information Directorate, CSIR; 1993. p. 517.

10. Rastogi RP, Mehrotra BN. Mehrotra. Compendium Indian Medicinal Plants. Vol. 3. New Delhi: Publications and Information Directorate, CSIR; 1993. p. 527

11. De-Moreas CM, Mescheer MC, Tomlinson JH. Caterpillar-induced nocturnal plant volatiles repel nonspecific females. Nature 2001;410:577-80.

12. Hammer KA, Carson CF, Riley TV. Antifungal activity of the components of Melaleuca alternifolia (tea tree) oil. J Appl Microbiol 2003;95:853-60.

13. Rastogi RP, Mehrotra BN. Compendium Indian Medicinal Plants. Vol. 1. New Delhi: Publications and Information Directorate, CSIR; 1993. p. 141.

14. Pawar VC, Thaker VS. Evaluation of the anti-Fusarium oxysporum f. sp cicer and anti-Alternaria porri effects of some essential oils. World J Microbiol Biotechnol 2007;23:1099–106.

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Accepted 27 March 2009Revised 31 December 2008

Received 27 May 2008Indian J. Pharm. Sci., 2009, 71 (2): 134-136

*Address for correspondence E-mail: anjoo1999@gmail.com

Antibacterial Activity of Medicinal Plants Against Pathogens causing Complicated Urinary Tract InfectionsANjANA SHARMA*, S. CHANDRAKeR, V. K. PATeL AND PADMINI RAMTeKeBacteriology Laboratory, Department of Post Graduate Studies and Research in Biological Sciences, R. D. University, Jabalpur-482 001, India

Sharma, et al.: Antibacterial activity of medicinal plants against complicated UTI

Seventeen Indian folklore medicinal plants were investigated to evaluate antibacterial activity of aqueous, ethanol and acetone extracts against 66 multidrug resistant isolates of major urinary tract pathogens (Escherichia coli, Klebsiella pneumoniae, Pseudomonas aeruginosa and Enterococcus faecalis) by disc diffusion method. Ethanol extract of Zingiber officinale and Punica granatum showed strong antibacterial activity against Escherichia coli. Ethanol extracts of Terminalia chebula and Ocimum sanctum exhibited antibacterial activity against Klebsiella pneumoniae. Ethanol extract of Cinnamomum cassia showed maximum antibacterial activity against Pseudomonas aeruginosa while ethanol extract of Azadirachta indica and Ocimum sanctum exhibited antibacterial activity against Enterococcus faecalis. The results support the folkloric use of these plants in the treatment of urinary tract infections by the tribals of Mahakoshal region of central India.

Key words: Urinary tract infection (UTI), multidrug resistant, antibacterial activity, Indian medicinal plants

Urinary tract infections (UTI) are most common form of bacterial infections, affecting people throughout

their lifespan[1,2]. The pathogenesis of complicated and uncomplicated UTI is complex and influenced by many host biological behavioral factors and properties of the infecting uropathogens. Leading etiological agents of UTI’s include Escherichia coli, Candida

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Indian Journal of Pharmaceutical Sciences 137March - April 2009

albicans, Enterococcus faecalis, Pseudomonas aeruginosa, Klebsiella pneumoniae and Proteus mirabilis[3]. The incidence of acute uncomplicated UTI is estimated to exceed 0.5 episodes per annum among women between 18-30 y[4]. Despite the existence of potent antibiotics, resistant or multiresistant strains are continuously appearing, imposing the need for a permanent search and development of new drugs. For Centuries plants have been used throughout the world as drugs and remedies for various diseases[5]. These drugs serve as prototype to develop more effective and less toxic medicines. Hence, an attempt has been made to evaluate antibacterial activity of seventeen folklore medicinal plants used by tribals in Mahakoshal region of central India against urinary tract pathogens.

Plant parts were collected on the basis of the information provided in the ethanobotanical survey of India and local medicine men of Mahakoshal region (MP), India. Each specimen/plant material was labeled, numbered, annoted with the date of collection, locality and their medicinal uses were recorded (Table 1). Fresh plant material was washed thoroughly, air dried and then homogenized to fine powder and stored in airtight containers[6].

Plant material (10 g) was extracted with 100 ml distilled water by subjecting it slow heat for 6 h; filtered through muslin cloth and centrifuged at 5000×g for 15 min. The supernatant was collected and concentrated to one-fourth of the total volume[7].

Organic solvent extraction of the plant materials were prepared according to the method described by Nair et al.[7] with some modifications. 10 g of plant material was crushed and blended into powder using an electric blender with each organic solvent i.e ethanol and acetone separately. The blended material was subjected to agitation on rotary shaker (190-220 rpm) for 30 min, filtered with muslin cloth; centrifuged (5000×g for 15 min), and concentrated to one-fourth of the total volume.

The test organisms included the gram-positive E. faecalis (7 isolates) and gram-negative E. coli (34 isolates), K. pneumoniae (15 isolates), and P. aeruginosa (10 isolates). All the 66 UTI isolates were obtained from the bacterial germplasm culture collection, Bacteriology laboratory, R. D. University, Jabalpur, India. The bacteria were grown in the nutrient broth at 37° and maintained on nutrient agar slants at 4°.

In vitro antibacterial activity was examined for aqueous, ethanol and acetone extracts from 17 different traditionally used medicinal plants. Antimicrobial activities of these extracts were evaluated by Agar disc diffusion method[8]. For all the bacterial strains, overnight cultures grown in broth were adjusted to an inoculum size of 106 CFU/ml for inoculation of the agar plates[9]. A lawn of UTI bacterial culture[10] was made on Mueller Hinton agar plates and sterile filter paper discs soaked with 10 µl (concentration 50 mg/ml) each of aqueous,

TABLE 1: SELECTED INDIAN MEDICINAL PLANTS FOR ANTIBACTERIAL ACTIVITYPlant Species and common name Family Part used Medicinal usesZ. officinale (Adrak) Zingiberaceae Rhizome Analgesic, sedative, antipyretic and antibacterialC. cassia (Dalchini) Lauraceae Bark Antibacterial, circulatory, respiratory, uterotonic and stomachicT. chebula (Harrah) Combretaceae Fruit Laxative, stomachic, tonic and alternativeP. ovata (Isabgol) Plataginaceae Husk Constipation, colitis, irritable bowel, cystitisA. nilotica (Babool) Fabaceae Leaf Treating premature ejaculationP. anisum (Saunph) Apiaceae Seed Antiseptic, antispasmodic, aromatic, carminative, digestive, galactogogue, pectoral, stimulantC. asiatica (Brahmi) Apiaceae Stem Tonic, sedative, alterativeO. sanctum (Tulsi) Laminaceae Leaf Cures cough, cold, chronic, catarrh, nausea, respiratory problem, skin diseases, antibacterialA. indica (Neem) Meliaceae Fruit Skin disease, blood disorder, antibacterialP. fraternus (Bhumiamla) Euphorbiaceae Leaf Jaundice, liver disease, fever, genitourinary disease, edemaC. sativum (Dhana) Apiaceae Seed Flatulence, colic, joint pain, antisepticA. indicum (Atibala) Malvaceae Stem Demulcent, aphrodisiac, laxative, astringent and diuretic, expectorant, antiinflammatory and analgesicP. granatum (Anar) Lythraceae Seed Anthelminthic (esp. tapeworm), diarrhea, dyspepsiaS. cumini (Jamun) Myrtaceae Bark Astringent, stomachic, carminative, antiscorbutic, diureticC. scariosus (Nagarmotha) Cyperaceae Root Astringent, diaphoretic, desiccant, cordial and stomachicA. paniculata (Kalmegh) Acanthaceae Bark Laxative, vulnerary, antipyretic, antiperiodic, antiinflammatory, expectorant, depurative, antibacterialM. indica (Aam) Anacardiaceae Leaf Supplement of sexual potency, antiallergic, hypoglycaemic and antidiabetic

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Indian Journal of Pharmaceutical Sciences138 March - April 2009

ethanol and acetone extract was placed on it. Disc soaked in distilled water, ethanol and acetone served as control. Following an incubation period of 24 h at 370, antibacterial activity was evaluated by inhibition zones of bacterial growth. The results are represented as average zone of inhibition of all the isolates of individual species.

Fifty-one aqueous, ethanol and acetone extracts of the plant belonging to 17 families were tested against gram-positive and gram-negative urinary tract pathogenic bacteria. Ethanolic extract showed considerably more activity than the acetone and aqueous extract. Maximum antibacterial activity was shown by ethanol extract of Z. officinale, P. granatum and acetone extract of T. chebula against E. coli with

the inhibition of 14 mm zone size (fig. 1). Similar results were observed by previous scientist against pathogenic bacteria[11-14]. Ethanol extracts of T. chebula and O. sanctum were found to be active with the inhibition of 16 mm against K. pneumoniae (fig. 2) while ethanol extract of C. cassia showed significant activity with 18 mm of clear inhibition zone against P. aeruginosa (fig. 3). Previous reports from china have revealed that various parts of C. cassia such as the fruit, oil, inner bark and leafy twigs possessed good antimicrobial activity. The ethanol extract of C. asiatica and O. sanctum show broad-spectrum activity against E. faecalis with the inhibition zone of 19 mm (fig. 4). Best antimicrobial activity was found in case of ethanol extract of Z. officinale, P. granatum, T. chebula, O. sanctum, C. cassia, C. asiatica and

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Fig. 1: Antibacterial activity of plant extracts against Escherichia coli. Antibacterial activity of aqueous ( ), ethanol ( ) and acetone ( ) extracts of plants against Escherichia coli

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Fig. 3: Antibacterial activity of plant extracts against Pseudomonas aeruginosa.Antibacterial activity of aqueous ( ), ethanol ( ) and acetone ( ) extracts of plants against Pseudomonas aeruginosa

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Fig. 2: Antibacterial activity of plant extracts against Klebsiella pneumoniae. Antibacterial activity of aqueous ( ), ethanol ( ) and acetone ( ) extracts of plants against Klebsiella pneumoniae

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Fig. 4: Antibacterial activity of plant extracts against Enterococcus faecalis. Antibacterial activity of aqueous ( ), ethanol ( ) and acetone ( ) extracts of plants against Enterococcus faecalis

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Indian Journal of Pharmaceutical Sciences 139March - April 2009

acetone extract of T. chebula against multidrug resistant UTI pathogens. This probably explains the use of these plants by indigenous people against a number of infections since generations. The plants studied here had shown that they are potentially rich in antimicrobial compounds and have also been extensively used by the tribals. The millenarian use of these plants in folk medicine suggests that they represent an economic and safe alternative for treatment of Urinary Tract Infections.

ACKNOWLEDGEMENTS

The authors are thankful to Head, Department of Post Graduate Studies and Research in Biological Sciences, R. D. University, Jabalpur, India for providing laboratory facilities.

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Accepted 31 March 2009Revised 5 January 2009

Received 7 January 2008Indian J. Pharm. Sci., 2009, 71 (2): 136-139

*Address for correspondence E-mail: abimanu1@yahoo.co.in

Role of Surfactant and pH in Dissolution of CurcuminS. M. H. RAHMAN*, T. C. TeLNy1, T. K. RAVI2 AND S. KUPPUSAMy2

Department of Pharmaceutics, PSG College of Pharmacy, Peelamedu, Coimbatore-641 004, India, 1Department of Pharmaceutical Analysis, Pulla Reddy Institute of Pharmacy, Jinnaram (M), Medak-502 313, India, 2Department of Pharmaceutics, Sri Ramakrishna Institute of Paramedical Sciences, Sarojini Noidu Road, Coimbatore-641 044, India

Rahman, et al.: Dissolution of Curcumin

Curcumin is a phytoconstituent with wide range of biological activity. It is poorly soluble in water. In the present study a new dissolution medium was developed, as there is no validated dissolution method available in the literature. The composition of the dissolution medium was selected on the basis of solubility data at 37°. Solubility data revealed that addition of surfactant may be suitable as a dissolution medium. The suitability of dissolution medium (0.5% sodium lauryl sulphate in water) relative to the other dissolution medium was evaluated. The selected dissolution media was used for the evaluation of curcumin tablets.

Key words: Curcumin, dissolution medium, sodium lauryl sulphate

Curcumin is a potent phytoconstituent with wide range of biological activity[1]. Developing dissolution method for poorly soluble drugs has been a consistent