Disinfecting compositions containing hypochlorous acid and acetic acid are useful for treating biofilms in or on tissue, including biofilms related to wounds or other skin trauma. The compositions are useful for treating a variety of types of tissue, both on the surface on beneath the surface of tissue. Compositions are provided having various concentrations for different tissue types and infection levels. Compositions may be provided in gel form, and may include nanoparticle encapsulated molecules for controlled release.

Disinfecting compositions containing hypochlorous acid and acetic acid are useful for treating biofilms in or on tissue, including biofilms related to wounds or other skin trauma. The compositions are useful for treating a variety of types of tissue, both on the surface on beneath the surface of tissue. Compositions are provided having various concentrations for different tissue types and infection levels. Compositions may be provided in gel form, and may include nanoparticle encapsulated molecules for controlled release.

Disinfecting compositions containing hypochlorous acid and acetic acid are useful for treating biofilms in or on tissue, including biofilms related to wounds or other skin trauma. The compositions are useful for treating a variety of types of tissue, both on the surface on beneath the surface of tissue. Compositions are provided having various concentrations for different tissue types and infection levels. Compositions may be provided in gel form, and may include nanoparticle encapsulated molecules for controlled release.

A synthetic nutritional composition comprising a mineral for use to promote, support or optimise de novo myelination, in particular the de novo myelination trajectory, and/or brain structure, and/or brain connectivity, and/or intellectual potential and/or cognitive potential and/or learning potential and/or cognitive functioning in a subject, in particular a formula fed subject.

A synthetic nutritional composition comprising a mineral for use to promote, support or optimise de novo myelination, in particular the de novo myelination trajectory, and/or brain structure, and/or brain connectivity, and/or intellectual potential and/or cognitive potential and/or learning potential and/or cognitive functioning in a subject, in particular a formula fed subject.

The present invention discloses oral compositions for nourishment of a mammalian subject which comprises steviol glycoside, citric acid monohydrate, monosodium glutamate and/or glycine. These compositions, being highly palatable, increase consumption of said composition, further configured to decrease mortality rate, increase weight gain, reduced use of either antibiotics or milk replacers and improve small intestine anatomy of said mammalian.

The present invention discloses oral compositions for nourishment of a mammalian subject which comprises steviol glycoside, citric acid monohydrate, monosodium glutamate and/or glycine. These compositions, being highly palatable, increase consumption of said composition, further configured to decrease mortality rate, increase weight gain, reduced use of either antibiotics or milk replacers and improve small intestine anatomy of said mammalian.

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.

Compositions of small molecules, matrices, and isolated cells including methods of preparation, and methods for differentiation, trans-differentiation, and proliferation of animal cells into the osteoblast cell lineage were described. Examples of osteogenic materials that were administered to cells or co-cultured with cells are represented by compounds of Formula II, IV, and VI independently or preferably in combination with a matrix to afford bone cells. Small molecule-stimulated cells were also combined with a matrix, placed with a cellular adhesive or material carrier and implanted to a site in an animal for bone repair. Matrix pretreated with compounds of Formula II, IV, and VI were also used to cause cells to migrate to the matrix that is of use for therapeutic purposes.

Compositions of small molecules, matrices, and isolated cells including methods of preparation, and methods for differentiation, trans-differentiation, and proliferation of animal cells into the osteoblast cell lineage were described. Examples of osteogenic materials that were administered to cells or co-cultured with cells are represented by compounds of Formula II, IV, and VI independently or preferably in combination with a matrix to afford bone cells. Small molecule-stimulated cells were also combined with a matrix, placed with a cellular adhesive or material carrier and implanted to a site in an animal for bone repair. Matrix pretreated with compounds of Formula II, IV, and VI were also used to cause cells to migrate to the matrix that is of use for therapeutic purposes.