Medicinal clay compositions and pharmaceutical compositions containing the same are disclosed. The medicinal clay compositions provide a protective barrier for the clay allowing manufacturing, storage and use that protects the medicinal clay from moisture and hydration that would otherwise prematurely activate the clay. The medicinal clay compositions allow use of medicinal clays in various delivery systems and types of therapeutic compositions, including foams, hydrocolloids, electrospinning, films, pastes, and the like. Methods of preparing the medicinal clay compositions and methods of use are also disclosed. Methods of using the medicinal clay compositions, pharmaceutical compositions, and cation sources to reduce microbial populations on a subject and/or remove chloride from exudate from a tissue or organ in need of treatment are also disclosed.

Medicinal clay compositions and pharmaceutical compositions containing the same are disclosed. The medicinal clay compositions provide a protective barrier for the clay allowing manufacturing, storage and use that protects the medicinal clay from moisture and hydration that would otherwise prematurely activate the clay. The medicinal clay compositions allow use of medicinal clays in various delivery systems and types of therapeutic compositions, including foams, hydrocolloids, electrospinning, films, pastes, and the like. Methods of preparing the medicinal clay compositions and methods of use are also disclosed. Methods of using the medicinal clay compositions, pharmaceutical compositions, and cation sources to reduce microbial populations on a subject and/or remove chloride from exudate from a tissue or organ in need of treatment are also disclosed.

Disclosed is a composition comprising iron oxide magnetic particles. The composition is delivered to a liver in a hepatocyte-specific manner to minimize damage to other organs, and is safely excreted from a body within a few weeks. Further, the particles have excellent hepatocyte targeting ability, and thus are used as a liver cancer treatment agent and a hepatocyte targeting carrier.

Disclosed is a composition comprising iron oxide magnetic particles. The composition is delivered to a liver in a hepatocyte-specific manner to minimize damage to other organs, and is safely excreted from a body within a few weeks. Further, the particles have excellent hepatocyte targeting ability, and thus are used as a liver cancer treatment agent and a hepatocyte targeting carrier.

Provided herein are magnetically-responsive, photosensitizer based antimicrobial microemulsions and photodynamic nanoplatforms in which a photosensitizer functionally associated with a plurality of superparamagnetic iron oxide nanoparticles are encapsulated. Also provided are methods and processes utilizing the antimicrobial microemulsions and photodynamic nanoplatforms to treat an oral disease, to reduce a microbial population in a pathogenic oral biofilm and to improve the efficacy of a photosensitizer during an antimicrobial photodynamic therapy treatment of an oral disease.

Provided herein are magnetically-responsive, photosensitizer based antimicrobial microemulsions and photodynamic nanoplatforms in which a photosensitizer functionally associated with a plurality of superparamagnetic iron oxide nanoparticles are encapsulated. Also provided are methods and processes utilizing the antimicrobial microemulsions and photodynamic nanoplatforms to treat an oral disease, to reduce a microbial population in a pathogenic oral biofilm and to improve the efficacy of a photosensitizer during an antimicrobial photodynamic therapy treatment of an oral disease.

The present invention relates to a composition in powder form comprising probiotic bacteria and at least one iron source selected from ferrous citrate, ferric citrate, ferrous sulphate monohydrate and mixtures thereof. Ferrous citrate, ferric citrate, ferrous sulphate monohydrate and mixtures thereof advantageously do not cause significant inhibition or reduction in the viability of the bacteria and thus these iron sources are advantageously used to fortify a composition in powder form comprising probiotic bacteria.

The present invention relates to a composition in powder form comprising probiotic bacteria and at least one iron source selected from ferrous citrate, ferric citrate, ferrous sulphate monohydrate and mixtures thereof. Ferrous citrate, ferric citrate, ferrous sulphate monohydrate and mixtures thereof advantageously do not cause significant inhibition or reduction in the viability of the bacteria and thus these iron sources are advantageously used to fortify a composition in powder form comprising probiotic bacteria.

Disclosed herein is a pharmaceutical composition comprising an iron carbohydrate complex for use in a method for treatment or prevention of an iron deficiency of a fetus or an infant, wherein the iron carbohydrate complex is administered to the mother of the fetus or infant.

Disclosed herein is a pharmaceutical composition comprising an iron carbohydrate complex for use in a method for treatment or prevention of an iron deficiency of a fetus or an infant, wherein the iron carbohydrate complex is administered to the mother of the fetus or infant.