Sci.: 7(2), 2009, 1004-1010 antihepatotoxic effect of portulaca oleracea linn. Leaves against ccl4 induced hepatotoxicity in rats. PORTULACA OLERACEA LINN. Compounds which is having antimicrobial properties and. Activity of Portulaca oleracea over the different growth. Gulasiman, Purslane, Portulaca olearacea: Herbal Medicine: An illustrated compilation of Philippine medicinal plants by Dr Godofredo Stuart, with botanical. Antibacterial / Seeds and Leaves: Study of hydroalcoholic extract of leaves and seeds of P. Oleracea showed marked antibacterial effect against nine bacteria. Nov 19, 2012 - pharmacological activities like antimicrobial, antioxidant, antidiabetic, neuronal, antinociceptive and anti-inflammatory activity. Anti-arthritic activity. Jagan et al had (2011) reported the anti-arthritic activity of Petroleum-ether extract of Portulaca oleracea Linn. Fruends Adjuvant arthritis model in male.

Infectious diseases are becoming a major cause of human and animal mortality and morbidity. Elektronik Elemanlar Ve Devre Teorisi Pdf To Word. This is further aggravated by the rapid development of multi-drug resistance, limited antibacterial spectrum and adverse effects of available antimicrobial agents [ ].

Human pathogenic bacteria include amongst others Staphylococcus aureus; a major cause of bacteremia, associated with higher morbidity and mortality compared to other bacteremia-causing pathogens [ ]. The burden of S.

Progecad Architecture Download Crack For Gta there. Aureus bacteremia, particularly methicillin-resistant S. Aureus bacteremia is due to the fact that, it is highly expensive in terms of cost and resource. The incidence of S. Aureus bacteremia and its complications has increased abruptly in recent years because of the increased frequency of invasive procedures which has led to great number of immunocompromised patients and resistance of S. Aureus strains to available antibiotics. This changing epidemiology of S.

Aureus bacteremia, in combination with the inherent virulence of the pathogen, is commanding an urgent need for improved strategies and better antibiotics to prevent and treat S. Aureus bacteremia [, ]. The investigation of certain indigenous plants for their antimicrobial properties may yield useful results. This has consequently increased the attention and demand given to antimicrobials derived from the plants [ ]. Natural products, either as pure compounds or as standardized plant extracts, provide exceptional opportunities for new drug leads because of the unmatched chemical diversity of naturally derived compounds [, ]. The medicinal value of plants is associated with some chemical substances also known as phytochemicals that produce a definite physiological action on humans. The present study was designed to investigate the activities of 12 selected Cameroonian medicinal plants against S.

Aureus clinical isolates. The antibacterial activities of the 12 plant extracts on S. Aureus isolates are presented in Table. Edulis and Occimum gratissimum with MIC values ranging from 64–256 µg/ml were found to have the best inhibitory activity on almost all the tested microorganisms. Scoparia dulcis, Spilanthes filicaulis, Commelina erecta and E. Spciosa with MIC = 64–512 µg/ml were found to have similar antibacterial activity, being more active compared to Kalanchoe crenata (MIC = 512–1024 µg/ml). Aspilia africa, Drymaria cordata, Portulaca oleracea and Sida veronicifolia were almost inactive on these microorganisms.

Staph 23 JN Staph 55 M Staph 67 JN Staph 18 JL Staph 79 M Staph 58 M Staph 22 JN Staph 70 M Staph 02 JN Staph 94 M Staph 75 N A. Africa CMI >1024 >1024 >1024 >1024 >1024 >1024 >1024 >1024 >1024 >1024 >1024 CMB / / / / / / / / / / / CMB/C MI / / / / / / / / / / / A. Serial Key For Camtasia Studio 7. Frutucosa CMI >1024 512 >1024 >1024 >1024 >1024 >1024 >1024 >1024 512 >1024 CMB / 1024 / / / / / / / 1024 / CMB/CMI / 2 / / / / / / / 2 / C.

Erecta CMI >1024 128 256 128 256 256 512 512 512 256 512 CMB / 1024 512 512 >1024 512 >1024 >1024 1024 512 >1024 CMB/CMI / 8 2 4 / 2 / / 2 2 / D. Cordata CMI >1024 >1024 512 512 >1024 512 >1024 >1024 >1024 >1024 >1024 CMB / / >1024 >1024 / >1024 / / / / CMB/CMI / / / / / / / / / / D. Edulis CMI 256 256 128 64 64 256 256 256 128 128 256 CMB 512 512 256 256 128 1024 1024 1024 256 256 1024 CMB/CMI 2 2 2 4 2 4 4 4 2 2 4 E.

Speciosa CMI >1024 256 512 64 256 256 512 256 512 256 512 CMB / 1024 1024 128 512 512 1024 >1024 >1024 1024 >1024 CMB/CMI / 4 2 2 2 2 2 / / 4 / K. Crenata CMI 256 512 256 256 256 512 >1024 >1024 128 128 256 CMB 512 >1024 512 1024 1024 1024 / / 256 256 512 CMB 2 / 2 4 4 2 / / 2 2 2 O. Gratissimum CMI 256 128 256 128 256 256 256 512 512 64 128 CMB 512 256 1024 512 512 512 512 >1024 1024 128 256 CMB/CMI 2 2 4 4 2 2 2 2 2 2 P. Oleracea CMI >1024 512 512 >1024 >1024 >1024 >1024 >1024 >1024 512 >1024 CMB / 1024 1024 / / / / / / 1024 / CMB/CMI / 2 2 / / / / / / 2 / S.