A comparative in vitro antibacterial potential of extracts (aqueous and ethanol) of five important medicinal plants (Aegle marmelos, Azadirachta indica, Terminalia chebula, Mangifera indica and Ocimum sanctum) were investigated using microbial growth inhibition assays against the common human pathogenic bacteria (Staphylococcus aureus, Pseudomonas aeruginosa and Escherichia coli) of clinical origin. All the plant materials showed varying degrees of strain specific inhibitory action and ethanol extract of the plant materials showed higher antibacterial activity than their aqueous counterparts. Besides, T. chebula and A. marmelos had the strongest antibacterial activity out of which, T. chebula possessed a wider spectrum and a superior antiba...
Ethanol and Aqueous extracts of ten Indian medicinal plants were tested for their antibacterial prop...
Bacterial pathogens have evolved numerous defense mechanisms against antimicrobial agents; hence res...
The worldwide increase of multidrug resistance in both community- and health-care associated bacteri...
A comparative in vitro antibacterial potential of extracts (aqueous and ethanol) of five important m...
Abstract: Plants are rich source of antibacterial agents, which could be exploited in human disease ...
The antimicrobial potential of seventy-seven extracts from twenty-four plants was screened against e...
AbstractObjectiveTo evaluate the antibacterial efficacy of five Indian medicinal plants such as Acal...
Ethanolic and aqueous extracts of 10 Indian medicinal plants traditionally used in medicine at Vidis...
The extensive use of antibiotics to treat bacterial infections has led to the widespread emergence o...
225-228The aim of the study was to evaluate the antimicrobial property of five medicinal plants, vi...
Background: Medicinal plants have been used to prevent and treat various health problems. Aim: The p...
Historically, bacteria have been the cause of some of the most deadly diseases and widespread epide...
The present research work was focused on the antibacterial activity of medicinal plants (Aegle marme...
AbstractInfectious diseases are one of the major problems in developing as well as developed countri...
Infectious diseases are one of the major problems in developing as well as developed countries. Trad...
Ethanol and Aqueous extracts of ten Indian medicinal plants were tested for their antibacterial prop...
Bacterial pathogens have evolved numerous defense mechanisms against antimicrobial agents; hence res...
The worldwide increase of multidrug resistance in both community- and health-care associated bacteri...
A comparative in vitro antibacterial potential of extracts (aqueous and ethanol) of five important m...
Abstract: Plants are rich source of antibacterial agents, which could be exploited in human disease ...
The antimicrobial potential of seventy-seven extracts from twenty-four plants was screened against e...
AbstractObjectiveTo evaluate the antibacterial efficacy of five Indian medicinal plants such as Acal...
Ethanolic and aqueous extracts of 10 Indian medicinal plants traditionally used in medicine at Vidis...
The extensive use of antibiotics to treat bacterial infections has led to the widespread emergence o...
225-228The aim of the study was to evaluate the antimicrobial property of five medicinal plants, vi...
Background: Medicinal plants have been used to prevent and treat various health problems. Aim: The p...
Historically, bacteria have been the cause of some of the most deadly diseases and widespread epide...
The present research work was focused on the antibacterial activity of medicinal plants (Aegle marme...
AbstractInfectious diseases are one of the major problems in developing as well as developed countri...
Infectious diseases are one of the major problems in developing as well as developed countries. Trad...
Ethanol and Aqueous extracts of ten Indian medicinal plants were tested for their antibacterial prop...
Bacterial pathogens have evolved numerous defense mechanisms against antimicrobial agents; hence res...
The worldwide increase of multidrug resistance in both community- and health-care associated bacteri...