Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.

Abstract: A sporicidal composition has a moderately low pH and includes a glycosidase and the dissocia-tion product of at least one inorganic oxidizing agent. High effective solute concentrations can enhance the efficacy of the composition. The composition can be applied to a surface and allowed to absorb into an endospore, ultimately killing at least some of those bacteria in mature endospore form. Surfaces to be treated include inanimate (hard) surfaces via cleaning and medical devices such as endoscopes, typically via immersion.

Abstract: A solid material adapted to kill bacteria in planktonic, spore and biofilm states is lethal toward a wide spectrum of gram positive and gram negative bacteria as well as other microbes. The solid material includes a significant amount of one or more surfactants entrained in a crosslinked polymeric network.

Abstract: A composition that can solvate biofilms and disrupt bacterial cell walls acts to both kill the bacteria by cell lysis and remove the biofilm. This solvent-containing composition is effective against a broad spectrum of microbes and can be used on a variety of surfaces, both living and inanimate. The polarity of the solvent component of the composition is lower than that of pure water so that the composition exhibits increased efficacy in solvating the macromolecular matrix of a biofilm and in penetrating bacterial cell walls.

Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.

Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.

Abstract: A solid material adapted to kill bacteria in planktonic, spore and biofilm states is lethal toward a wide spectrum of gram positive and gram negative bacteria as well as other microbes. The solid material includes a significant amount of one or more surfactants entrained in a crosslinked polymeric network.

Abstract: A composition that can solvate biofilms and disrupt bacterial cell walls acts to both kill the bacteria by cell lysis and remove the biofilm. This solvent-containing composition is effective against a broad spectrum of microbes and can be used on a variety of surfaces, both living and inanimate. The polarity of the solvent component of the composition is lower than that of pure water so that the composition exhibits increased efficacy in solvating the macromolecular matrix of a biofilm and in penetrating bacterial cell walls.

Abstract: A sporicidal composition has a moderately low pH and includes a glycosidase and the dissocia-tion product of at least one inorganic oxidizing agent. High effective solute concentrations can enhance the efficacy of the composition. The composition can be applied to a surface and allowed to absorb into an endospore, ultimately killing at least some of those bacteria in mature endospore form. Surfaces to be treated include inanimate (hard) surfaces via cleaning and medical devices such as endoscopes, typically via immersion.

Abstract: A solid material adapted to kill bacteria in planktonic, spore and biofilm states is lethal toward a wide spectrum of gram positive and gram negative bacteria as well as other microbes. The solid material includes a significant amount of one or more surfactants entrained in a crosslinked polymeric network.

Abstract: A composition that can solvate biofilms and disrupt bacterial cell walls acts to both kill the bacteria by cell lysis and remove the biofilm. This solvent-containing composition is effective against a broad spectrum of microbes and can be used on a variety of surfaces, both living and inanimate. The polarity of the solvent component of the composition is lower than that of pure water so that the composition exhibits increased efficacy in solvating the macromolecular matrix of a biofilm and in penetrating bacterial cell walls.

Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.

Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.

Abstract: A gel useful in reducing bacterial colonization in or around the area of a wound can be provided by combining at least one PEG with an aqueous composition having a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition such as sporicides, antifungals and antibiotics.

Abstract: A gel useful in reducing bacterial colonization in or around the area of a wound can be provided from at least one PEG and an aqueous composition having a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The resulting gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition such as sporicides, antifungals and antibiotics.

Abstract: A gel useful in reducing bacterial colonization in or around the area of a wound can be provided from at least one PEG and an aqueous composition having a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The resulting gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition such as sporicides, antifungals and antibiotics.

Abstract: A gel useful in reducing bacterial colonization in or around the area of a wound includes at least one PEG and an aqueous composition having a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition such as sporicides, antifungals and antibiotics.

Abstract: A gel useful in reducing bacterial colonization in or around the area of a wound includes at least one PEG and an aqueous composition having a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition such as sporicides, antifungals and antibiotics.

Abstract: A process for reducing bacterial colonization in or around the area of a wound includes applying to the area a gel that includes at least one PEG and an aqueous composition which has a pH of from 2 to 4, a total solute concentration of from 1.8 to 4.0 Osm/L, and from 0.9 to 1.7 g/L of at least one cationic surfactant. The aqueous composition can include a buffer system that includes an organic acid and a salt of an organic acid. The gel is effective even when free of materials having antimicrobial properties other than those provided by the aqueous composition, such as sporicides, antifungals and antibiotics.

Abstract: An aqueous composition with a higher-than-neutral pH includes a significant amount of one or more surfactants and large amounts of osmotically active solutes. This composition, as well as an acidic counterpart and solid materials, can be used in a variety of applications such as wound care, oral care, medical equipment reprocessing, healthcare acquired infection and implant treatment.