Listing 1 - 4 of 4 |
Sort by
|
Choose an application
Geoffrey Hill has said that some great poetry 'recognises that words fail us'. These essays explore Hill's struggle over fifty years with the recalcitrance of language. This book seeks to show how all his work is marked by the quest for the right pitch of utterance whether it is sorrowing, angry, satiric or erotic. It shows how Hill's words are never lightly 'acceptable' but an ethical act, how he seeks out words he can stand by - words that are 'getting it right'.This book is the most comprehensive and up-to-date critical work on Geoffrey Hill so far, covering all his work up to 'Scenes from
Hill, Geoffrey --- Criticism and interpretation. --- Literature --- Literary Studies: Poetry & Poets --- LITERARY CRITICISM / European / English, Irish, Scottish, Welsh --- Ireland --- Geoffrey Hill. --- Scenes from Comus. --- language. --- pitch. --- poems. --- poetry. --- recalcitrance. --- satiric. --- sorrowing. --- utterance.
Choose an application
Over the last few decades, the study of microbial biofilms has been gaining interest among the scientific community. These microbial communities comprise cells adhered to surfaces that are surrounded by a self-produced exopolymeric matrix that protects biofilm cells against different external stresses. Biofilms can have a negative impact on different sectors within society, namely in agriculture, food industries, and veterinary and human health. As a consequence of their metabolic state and matrix protection, biofilm cells are very difficult to tackle with antibiotics or chemical disinfectants. Due to this problem, recent advances in the development of antibiotic alternatives or complementary strategies to prevent or control biofilms have been reported. This book includes different strategies to prevent biofilm formation or to control biofilm development and includes full research articles, reviews, a communication, and a perspective.
Technology: general issues --- antibiofilm --- antimicrobial agent --- bacteria --- fungi --- polymicrobial biofilm --- microalga --- free fatty acids --- encapsulation --- biofilm --- chronic wounds --- host response --- S100A8/A9 --- dental plaque --- quorum sensing --- microbial resistance --- bacterial adhesion --- blocking effect --- hydrodynamics --- parallel plate flow cell --- carbon nanotubes --- poly(dimethylsiloxane) --- adhesion --- Escherichia coli --- Biofilm --- Public Engagement --- Outreach --- Control Strategies --- Oral Biofilm --- TiO2 nanofibers --- electrospinning --- biofilm prevention and control --- multidrug-resistant bacteria --- biomedical application --- biofilms --- biofilm inhibition --- dental implants --- peri-implantitis --- polyether-ether-ketone --- Pseudomonas aeruginosa --- Candida albicans --- mixed-species biofilm analysis --- flow cytometry --- bacteriophage therapy --- prosthesis related infections --- hardware infections --- left ventricular assist devices --- Acinetobacter baumannii --- antibiotic resistance --- antibiotic tolerance --- persister --- intraspecies community --- EPS matrix --- peptide nucleic acid-fluorescence in situ hybridization --- urinary tract infections --- catheter-associated urinary tract infections --- confocal laser scanning microscopy --- recalcitrance --- biofilm control --- Klebsiella pneumoniae --- KPC and OXA-48-like carbapenemases --- Galleria mellonella infection model --- linear oligoethyleneimine hydrochloride --- bacteriophage --- endotracheal tube --- n/a
Choose an application
Over the last few decades, the study of microbial biofilms has been gaining interest among the scientific community. These microbial communities comprise cells adhered to surfaces that are surrounded by a self-produced exopolymeric matrix that protects biofilm cells against different external stresses. Biofilms can have a negative impact on different sectors within society, namely in agriculture, food industries, and veterinary and human health. As a consequence of their metabolic state and matrix protection, biofilm cells are very difficult to tackle with antibiotics or chemical disinfectants. Due to this problem, recent advances in the development of antibiotic alternatives or complementary strategies to prevent or control biofilms have been reported. This book includes different strategies to prevent biofilm formation or to control biofilm development and includes full research articles, reviews, a communication, and a perspective.
antibiofilm --- antimicrobial agent --- bacteria --- fungi --- polymicrobial biofilm --- microalga --- free fatty acids --- encapsulation --- biofilm --- chronic wounds --- host response --- S100A8/A9 --- dental plaque --- quorum sensing --- microbial resistance --- bacterial adhesion --- blocking effect --- hydrodynamics --- parallel plate flow cell --- carbon nanotubes --- poly(dimethylsiloxane) --- adhesion --- Escherichia coli --- Biofilm --- Public Engagement --- Outreach --- Control Strategies --- Oral Biofilm --- TiO2 nanofibers --- electrospinning --- biofilm prevention and control --- multidrug-resistant bacteria --- biomedical application --- biofilms --- biofilm inhibition --- dental implants --- peri-implantitis --- polyether-ether-ketone --- Pseudomonas aeruginosa --- Candida albicans --- mixed-species biofilm analysis --- flow cytometry --- bacteriophage therapy --- prosthesis related infections --- hardware infections --- left ventricular assist devices --- Acinetobacter baumannii --- antibiotic resistance --- antibiotic tolerance --- persister --- intraspecies community --- EPS matrix --- peptide nucleic acid-fluorescence in situ hybridization --- urinary tract infections --- catheter-associated urinary tract infections --- confocal laser scanning microscopy --- recalcitrance --- biofilm control --- Klebsiella pneumoniae --- KPC and OXA-48-like carbapenemases --- Galleria mellonella infection model --- linear oligoethyleneimine hydrochloride --- bacteriophage --- endotracheal tube --- n/a
Choose an application
Over the last few decades, the study of microbial biofilms has been gaining interest among the scientific community. These microbial communities comprise cells adhered to surfaces that are surrounded by a self-produced exopolymeric matrix that protects biofilm cells against different external stresses. Biofilms can have a negative impact on different sectors within society, namely in agriculture, food industries, and veterinary and human health. As a consequence of their metabolic state and matrix protection, biofilm cells are very difficult to tackle with antibiotics or chemical disinfectants. Due to this problem, recent advances in the development of antibiotic alternatives or complementary strategies to prevent or control biofilms have been reported. This book includes different strategies to prevent biofilm formation or to control biofilm development and includes full research articles, reviews, a communication, and a perspective.
Technology: general issues --- antibiofilm --- antimicrobial agent --- bacteria --- fungi --- polymicrobial biofilm --- microalga --- free fatty acids --- encapsulation --- biofilm --- chronic wounds --- host response --- S100A8/A9 --- dental plaque --- quorum sensing --- microbial resistance --- bacterial adhesion --- blocking effect --- hydrodynamics --- parallel plate flow cell --- carbon nanotubes --- poly(dimethylsiloxane) --- adhesion --- Escherichia coli --- Biofilm --- Public Engagement --- Outreach --- Control Strategies --- Oral Biofilm --- TiO2 nanofibers --- electrospinning --- biofilm prevention and control --- multidrug-resistant bacteria --- biomedical application --- biofilms --- biofilm inhibition --- dental implants --- peri-implantitis --- polyether-ether-ketone --- Pseudomonas aeruginosa --- Candida albicans --- mixed-species biofilm analysis --- flow cytometry --- bacteriophage therapy --- prosthesis related infections --- hardware infections --- left ventricular assist devices --- Acinetobacter baumannii --- antibiotic resistance --- antibiotic tolerance --- persister --- intraspecies community --- EPS matrix --- peptide nucleic acid-fluorescence in situ hybridization --- urinary tract infections --- catheter-associated urinary tract infections --- confocal laser scanning microscopy --- recalcitrance --- biofilm control --- Klebsiella pneumoniae --- KPC and OXA-48-like carbapenemases --- Galleria mellonella infection model --- linear oligoethyleneimine hydrochloride --- bacteriophage --- endotracheal tube --- antibiofilm --- antimicrobial agent --- bacteria --- fungi --- polymicrobial biofilm --- microalga --- free fatty acids --- encapsulation --- biofilm --- chronic wounds --- host response --- S100A8/A9 --- dental plaque --- quorum sensing --- microbial resistance --- bacterial adhesion --- blocking effect --- hydrodynamics --- parallel plate flow cell --- carbon nanotubes --- poly(dimethylsiloxane) --- adhesion --- Escherichia coli --- Biofilm --- Public Engagement --- Outreach --- Control Strategies --- Oral Biofilm --- TiO2 nanofibers --- electrospinning --- biofilm prevention and control --- multidrug-resistant bacteria --- biomedical application --- biofilms --- biofilm inhibition --- dental implants --- peri-implantitis --- polyether-ether-ketone --- Pseudomonas aeruginosa --- Candida albicans --- mixed-species biofilm analysis --- flow cytometry --- bacteriophage therapy --- prosthesis related infections --- hardware infections --- left ventricular assist devices --- Acinetobacter baumannii --- antibiotic resistance --- antibiotic tolerance --- persister --- intraspecies community --- EPS matrix --- peptide nucleic acid-fluorescence in situ hybridization --- urinary tract infections --- catheter-associated urinary tract infections --- confocal laser scanning microscopy --- recalcitrance --- biofilm control --- Klebsiella pneumoniae --- KPC and OXA-48-like carbapenemases --- Galleria mellonella infection model --- linear oligoethyleneimine hydrochloride --- bacteriophage --- endotracheal tube
Listing 1 - 4 of 4 |
Sort by
|