The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.

A method for creating a cold formed bar such as a fruit and vegetable bar. The invention is an improved process for manipulating the total sugars without having the cold formed bar lose its characteristic texture or appearance. In one aspect, the invention adds a solid binder to a conventional mixing operation after the liquid binder and the dry ingredients are added. In one aspect, the invention uses a combination binder that allows reduction of liquid binder and reduces added sugar level on finished product. The combination binder does not impact whole piece appearance in the cold form bar while providing enough binding capacity to hold the bar together throughout processing and shelf life.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

pH-adjusted soy protein products, particularly isolates, that have a natural pH of about 6 and have a non-beany flavor are provided by the processing of soy protein product which is completely soluble in aqueous media at a pH of less than about 4.4 and heat stable in this pH range or a concentrated soy protein solution produced in the preparation of such soy protein product.

pH-adjusted soy protein products, particularly isolates, that have a natural pH of about 6 and have a non-beany flavor are provided by the processing of soy protein product which is completely soluble in aqueous media at a pH of less than about 4.4 and heat stable in this pH range or a concentrated soy protein solution produced in the preparation of such soy protein product.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.