The present invention relates to water dispersible formulations of 3-nitrooxypropanol and derivatives thereof as well as to the production of such formulations.

A pet treat pocket is provided. The pet treat pocket has a flexible member including a pocket disposed on a top surface of the flexible member. The pocket defines an interior volume and the interior volume is sized to encapsulate a pill. An exterior length of the pocket is less than a length of the flexible member, and an exterior width of the pocket is less than a width of the flexible member such that the flexible member extends beyond the exterior dimensions of the pocket forming a lip surrounding a circumference of the pocket. The flexible member and the pocket are both composed of an ingestible and pet-safe material. The ingestible and pet-safe material can adhere to itself such that the flexible material can be molded to completely envelope the pocket and maintain a sealed configuration.

A pet treat pocket is provided. The pet treat pocket has a flexible member including a pocket disposed on a top surface of the flexible member. The pocket defines an interior volume and the interior volume is sized to encapsulate a pill. An exterior length of the pocket is less than a length of the flexible member, and an exterior width of the pocket is less than a width of the flexible member such that the flexible member extends beyond the exterior dimensions of the pocket forming a lip surrounding a circumference of the pocket. The flexible member and the pocket are both composed of an ingestible and pet-safe material. The ingestible and pet-safe material can adhere to itself such that the flexible material can be molded to completely envelope the pocket and maintain a sealed configuration.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

The invention relates to a process for the continuous production of an adsorption product of a nitrooxy-functional organic compound adsorbed on the surface of a particulate adsorbent material, the process comprising the steps of: continuously feeding particulate adsorbent material into an elongated cavity; continuously conveying the material within the cavity in a downstream direction; continuously spraying a liquid adsorbate onto the particulate adsorbent material, wherein the liquid adsorbate comprises the nitrooxy-functional organic compound; continuously agitating the mixture thus obtained to form the adsorption product; and continuously removing the adsorption product from the cavity. The invention further relates to an adsorption product obtained by such process and the use of such adsorption product in ruminant nutrition.

The disclosure relates to isolated microorganisms—including novel strains of the microorganisms—microbial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

The disclosure relates to isolated microorganisms—including novel strains of the microorganisms—microbial consortia, and compositions comprising the same. Furthermore, the disclosure teaches methods of utilizing the described microorganisms, microbial consortia, and compositions comprising the same, in methods for modulating the production and yield of milk and milk components in ruminants. In particular aspects, the disclosure provides methods of increasing desirable components of milk in ruminants. Furthermore, the disclosure provides for methods of modulating the rumen microbiome.

One composite composition of the present invention contains: a silicon fine particle; and a silicon suboxide (SiO.sub.X, wherein x is 1/2, 1, or 3/2) and/or a mixed composition of the silicon suboxide and silicon dioxide, at least partially covering the surface of the silicon fine particle.

One composite composition of the present invention contains: a silicon fine particle; and a silicon suboxide (SiO.sub.X, wherein x is 1/2, 1, or 3/2) and/or a mixed composition of the silicon suboxide and silicon dioxide, at least partially covering the surface of the silicon fine particle.

An edible enterosorbent containing a treated enterosorbent, wherein the treated enterosorbent comprises a parent sorbent that has been acid and/or lecithin treated, and wherein the treated sorbent is operable for adsorption of one or more toxins from a gastrointestinal tract of a living being when introduced thereto, such that a bioavailability of and exposure of the living being to the one or more toxins is decreased. Methods of making and utilizing the edible enterosorbent are also provided.