The present invention relates to oral composition and the method of preparation and use of such composition for inhibiting, reducing, and/or disrupting oral biofilm. The composition comprises a stabilizing matrix, a cationic biocide, and a peroxide source.

The object of the invention is topical compositions comprising pea proteins and polyphenols and the use thereof for the treatment of local or generalised disorders caused by increased permeation of the natural epithelial barriers. Said disorders may be of bacterial, viral, inflammatory, allergic and/or fungal origin, or endogenous or idiopathic.

The object of the invention is topical compositions comprising pea proteins and polyphenols and the use thereof for the treatment of local or generalised disorders caused by increased permeation of the natural epithelial barriers. Said disorders may be of bacterial, viral, inflammatory, allergic and/or fungal origin, or endogenous or idiopathic.

The present invention provides for novel immunological and vaccine formulations comprising a newly applied non-crosslinked polyacrylic acid polymer adjuvant. The adjuvants may be combined with a wide variety of immunogens to produce vaccines that are safe and effective when administered to a wide range of target animals. The immunogens may include, but are not limited to: inactivated pathogens, attenuated pathogens, subunits, recombinant expression vectors, plasmids or combinations thereof. The animals may include, but are not limited to: humans, murine, canines, felines, equines, porcines, ovines, caprines and bovines.

The present invention provides for novel immunological and vaccine formulations comprising a newly applied non-crosslinked polyacrylic acid polymer adjuvant. The adjuvants may be combined with a wide variety of immunogens to produce vaccines that are safe and effective when administered to a wide range of target animals. The immunogens may include, but are not limited to: inactivated pathogens, attenuated pathogens, subunits, recombinant expression vectors, plasmids or combinations thereof. The animals may include, but are not limited to: humans, murine, canines, felines, equines, porcines, ovines, caprines and bovines.

This invention relates to compositions including Clostridium difficile toxins and/or toxoids and corresponding methods. The compositions of the invention include one or more excipients that increase stability and/or decrease aggregation of the toxins.

This invention relates to compositions including Clostridium difficile toxins and/or toxoids and corresponding methods. The compositions of the invention include one or more excipients that increase stability and/or decrease aggregation of the toxins.

The disclosure describes nanocarried and/or microcarried jasmonate compounds and their pharmaceutical compositions, as well as use thereof for treating or preventing angiogenesis-related or NF-κB-related disorders. Also disclosed are methods of making the nanocarried and/or microcarried compounds and their compositions.

The disclosure describes nanocarried and/or microcarried jasmonate compounds and their pharmaceutical compositions, as well as use thereof for treating or preventing angiogenesis-related or NF-κB-related disorders. Also disclosed are methods of making the nanocarried and/or microcarried compounds and their compositions.

The viscosity of aqueous dispersions of normally solid organic peroxides may be advantageously lowered through the use of surfactants which are polyglyceryl esters of C6-C12 fatty acids. The reduction in viscosity facilitates milling the peroxides to reduce particle size and also provides dispersions of small particle size peroxides which may be readily poured or pumped.