A dog chew formed from a dairy-based material, wherein said dairy-based material is a mixture of one or more dairy ingredients combined with a binding agent, and said mixture of one or more dairy ingredients comprises the largest portion, by weight, of the dog chew, and said binding agent is added in a sufficient quantity to allow the dairy-based material to be pliable and stable. In the preferred embodiment, the dog chew also includes a flavoring material wherein the dairy-based material comprises the majority of the exterior surface of the dog chew, and said flavoring material includes meats from poultry, mammals, or fish.

A dog chew formed from a dairy-based material, wherein said dairy-based material is a mixture of one or more dairy ingredients combined with a binding agent, and said mixture of one or more dairy ingredients comprises the largest portion, by weight, of the dog chew, and said binding agent is added in a sufficient quantity to allow the dairy-based material to be pliable and stable. In the preferred embodiment, the dog chew also includes a flavoring material wherein the dairy-based material comprises the majority of the exterior surface of the dog chew, and said flavoring material includes meats from poultry, mammals, or fish.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

Cholesterol, high-density lipoproteins, and low-density lipoproteins in a companion animal can be improved by adjusting the diet of the animal to increase the amount of a compound which positively or negatively modulates the cholesterol, high-density lipoproteins, or low-density lipoproteins or adjusting the diet of the animal to decrease the amount of a compound which positively or negatively modulates cholesterol, high-density lipoproteins, or low-density lipoproteins.

Cholesterol, high-density lipoproteins, and low-density lipoproteins in a companion animal can be improved by adjusting the diet of the animal to increase the amount of a compound which positively or negatively modulates the cholesterol, high-density lipoproteins, or low-density lipoproteins or adjusting the diet of the animal to decrease the amount of a compound which positively or negatively modulates cholesterol, high-density lipoproteins, or low-density lipoproteins.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

Biological waste such as food, organic or other biologically-derived waste is converted into shelf-stable and health-safe invertebrate feed. The method for converting includes pre-treating waste by fragmenting, reducing microbial contaminants, optionally amending with components that optimize fermentation, inoculating with microorganisms and mixing. Fermentation takes place in a bioreactor and produces fermentation leachate and solid fermentate. In the post-treatment steps, the solid fermentate is separated from the fermentation leachate. The solid fermentate is ground, dewatered and milled. The solid fermentate can be used as an invertebrate feed with or without further processing.

Pressed powder pet chew products and methods of manufacturing such products are disclosed. Pressed powder pet chew products may comprise “pressed bone” and “knotted bone” pet chew products. Pressed bone pet chew products may comprise a shaped, pressed and hardened powder mixture. The powder mixture may comprise a cheese powder which may optionally be mixed with other powdered substances. The powder mixture may be heated, poured into a mold, pressed, and dried in order to produce the single block pressed powder pet chew products. Knotted bone pet chew products may comprise multiple stacked and knotted layers of hardened powder mixture. The powder mixture may be heated, formed into strips, stacked, knotted, and dried in order to produce the knotted bone pet chew products.