The present invention relates to bacteriophage therapy. More particularly, the present invention relates to novel bacteriophages having a high specificity against Pseudomonas aeruginosa strains, their manufacture, components thereof, compositions comprising the same and the uses thereof in phage therapy.

Disclosed are compositions, devices, kits, and methods for treatment of Enterobacteriaceae infection. Aspects of the present disclosure are directed to bacteriophage compositions comprising one or more of ES17, ES19, HP3, HP3.1, and HP3.2. Certain aspects of the disclosure are directed to compositions comprising (a) bacteriophage ES17 or bacteriophage ES19, (b) bacteriophage HP3, and (c) bacteriophage HP3.1. Also disclosed are compositions comprising bacteriophage HP 3.2. Further disclosed are devices and kits comprising such compositions and methods for use of such compositions in treatment and prevention of pathogenic E. coli infection.

The present disclosure relates to bacteriophages and compositions capable of infecting and killing Pseudomonas, and use of the same for treating Pseudomonas, e.g. Pseudomonas aeruginosa, bacterial infections.

The present invention relates to bacteriophage therapy. More particularly, the present invention relates to novel bacteriophages having a high specificity against Pseudomonas aeruginosa strains, their manufacture, components thereof, compositions comprising the same and the uses thereof in phage therapy.

The present invention relates to a Podoviridae bacteriophage Vib-PAP-2 (Accession NO: KCTC 12910BP) that is isolated from the nature and can kill specifically Vibrio parahaemolyticus cells, which has a genome represented by the nucleotide sequence of SEQ. ID. NO: 1, and a method for preventing and treating the infections of Vibrio parahaemolyticus using the composition comprising said bacteriophage as an active ingredient.

The present invention relates to: Podoviridae bacteriophage Vib-PAP-1 (accession number KCTC 12817BP) which has the capability to specifically destroy Vibrio parahaemolyticus, is characterized by having a genome represented by SEQ ID NO: 1, and is isolated from nature; and a method for preventing and treating Vibrio parahaemolyticus infections, using a composition containing bacteriophage Vib-PAP-1 as an active ingredient.

A method of recovering viable phage from, for example, a crude phage preparation such as a lysate resulting from amplification of phage in bacterial cell culture is disclosed. The method may be universal; that is, applicable to the purification of a broad range of phage species and strains. The phage product resulting from the method may have an acceptably low endotoxin titer (e.g. less than 500 EU/ml) and sufficiently high phage titer (e.g. >1?10.sup.9 PFU/ml) for use in therapeutic applications.

A system for treating and maintaining the health of the skin of a user. The system may include a topical formulation and an oral formulation. The topical formation may include various probiotic organisms selected for enhancing and treating the skin of a user. The oral formulation may include various probiotic organisms for enhancing and treating the skin of the user. The topical formulation and the oral formulation may be used cooperatively and simultaneously to produce a beneficial, synergistic effect.

Disclosed are compositions, devices, kits, and methods for treatment of Enterobacteriaceae infection. Aspects of the present disclosure are directed to bacteriophage compositions comprising one or more of ES17, ES19, HP3, HP3.1, and HP3.2. Certain aspects of the disclosure are directed to compositions comprising (a) bacteriophage ES17 or bacteriophage ES19, (b) bacteriophage HP3, and (c) bacteriophage HP3.1. Also disclosed are compositions comprising bacteriophage HP 3.2. Further disclosed are devices and kits comprising such compositions and methods for use of such compositions in treatment and prevention of pathogenic E. coli infection.

The present invention relates to bacteriophage therapy. More particularly, the present invention relates to novel bacteriophages having a high specificity against Pseudomonas aeruginosa strains, their manufacture, components thereof, compositions comprising the same and the uses thereof in phage therapy.