The present invention relates to the amelioration of toxic effects that are caused by therapies aimed at FGFR4-inhibition. In particular, the invention relates to the combination of FGFR4 inhibitors and agents capable of reducing bile acid levels and to the use thereof in the treatment of diseases.

The present invention relates to the amelioration of toxic effects that are caused by therapies aimed at FGFR4-inhibition. In particular, the invention relates to the combination of FGFR4 inhibitors and agents capable of reducing bile acid levels and to the use thereof in the treatment of diseases.

Methods for using bioadhesive and stearic interactions specific to copolymers with at least two moieties, to minimize adverse effects mediated by external influences on cell, tissue, organ system, and organism biology. Copolymers have bioadhesive properties driven by electrostatic and hydrophobic interactions and passivation though hydrophilic moieties. These copolymers are useful for reducing rates of viral infectivity in target cells, and in reducing host morbidity. These copolymers are useful for reducing ADC related toxicity including corneal epithelial toxicity. Formulations of these copolymers are safe and well tolerated. Epithelial cells and surfaces including precursor or stem cell corneal epithelial cells are treated with these copolymers to confer utility and benefit.

Methods for using bioadhesive and stearic interactions specific to copolymers with at least two moieties, to minimize adverse effects mediated by external influences on cell, tissue, organ system, and organism biology. Copolymers have bioadhesive properties driven by electrostatic and hydrophobic interactions and passivation though hydrophilic moieties. These copolymers are useful for reducing rates of viral infectivity in target cells, and in reducing host morbidity. These copolymers are useful for reducing ADC related toxicity including corneal epithelial toxicity. Formulations of these copolymers are safe and well tolerated. Epithelial cells and surfaces including precursor or stem cell corneal epithelial cells are treated with these copolymers to confer utility and benefit.

The present invention relates to a fast dissolving tablet comprising a therapeutically effective amount of a phosphate binding polymer, such as sevelamer or pharmaceutically acceptable salt or derivative thereof, that exhibit limited swelling in the oral cavity, has pleasant taste and mouth feel, high phosphate binding capacity with fast binding kinetics and require limited amount of water intake. A process for the preparation thereof is disclosed.

The present invention relates to a fast dissolving tablet comprising a therapeutically effective amount of a phosphate binding polymer, such as sevelamer or pharmaceutically acceptable salt or derivative thereof, that exhibit limited swelling in the oral cavity, has pleasant taste and mouth feel, high phosphate binding capacity with fast binding kinetics and require limited amount of water intake. A process for the preparation thereof is disclosed.

A method for detaching, removing or otherwise disrupting bacteria or biofilm by applying with pressure an antimicrobial wash. The antimicrobial wash contains a biguanide compound or mixtures thereof.

A method for detaching, removing or otherwise disrupting bacteria or biofilm by applying with pressure an antimicrobial wash. The antimicrobial wash contains a biguanide compound or mixtures thereof.

Antimicrobial polymer coating formulations are prepared that protect biological surfaces by treating, reducing, ameliorating, preventing or inhibiting pathogenic microorganism ingress to a human or animal host, reducing the potential for infection, particularly by necrotizing fasciitis originating microorganisms, through use of a polymer coating barrier containing antimicrobial agents that facilitates sustained release of biocidal agents active against such opportunistic microorganisms. Such formulations are effective for inhibiting microbial ingress pertaining to soft tissue and skin tears, abrasions, punctures and surgical wounds, and can be used as in water environments and as a skin protectant sunscreen and insect repellent.

Antimicrobial polymer coating formulations are prepared that protect biological surfaces by treating, reducing, ameliorating, preventing or inhibiting pathogenic microorganism ingress to a human or animal host, reducing the potential for infection, particularly by necrotizing fasciitis originating microorganisms, through use of a polymer coating barrier containing antimicrobial agents that facilitates sustained release of biocidal agents active against such opportunistic microorganisms. Such formulations are effective for inhibiting microbial ingress pertaining to soft tissue and skin tears, abrasions, punctures and surgical wounds, and can be used as in water environments and as a skin protectant sunscreen and insect repellent.