The embodiments disclose a process for manufacturing a collagen protein bar including mixing an organic coconut oil with organic coconut sugar sweetener and jumbo eggs in predetermined quantities, blending baking soda, pink Himalayan sea salt and pure vanilla extract ingredients in predetermined quantities into the mixed oil, sweeteners and eggs mixture, combining with ingredients organic cassava flour and collagen protein ingredients in predetermined quantities, wherein the collagen protein source is in a range from 15% to 20% by weight of the collagen protein bar and the organic cassava flour in a range from 28% to 34% by weight of the collagen protein bar, mixing at least one organic nut and at least one chocolate in predetermined quantities into the cassava flour and collagen protein ingredient combination, baking the mixture in an oven at a predetermined temperature for a predetermined time and forming the baked mixture into a collagen protein bar.

The embodiments disclose a process for manufacturing a collagen protein bar including mixing an organic coconut oil with organic coconut sugar sweetener and jumbo eggs in predetermined quantities, blending baking soda, pink Himalayan sea salt and pure vanilla extract ingredients in predetermined quantities into the mixed oil, sweeteners and eggs mixture, combining with ingredients organic cassava flour and collagen protein ingredients in predetermined quantities, wherein the collagen protein source is in a range from 15% to 20% by weight of the collagen protein bar and the organic cassava flour in a range from 28% to 34% by weight of the collagen protein bar, mixing at least one organic nut and at least one chocolate in predetermined quantities into the cassava flour and collagen protein ingredient combination, baking the mixture in an oven at a predetermined temperature for a predetermined time and forming the baked mixture into a collagen protein bar.

A method of manufacture and a composition for dough item including a protein source. The technology as disclosed and claimed herein and its various implementations and embodiments are a modified method of manufacture and a composition for a dough item that includes protein. The technology as disclosed and claimed provides a dough based crust or other dough based item that is a protein enriched alternative to conventional breads and crusts and other dough based products. This invention results in a dough that has more protein, more complete protein, and fewer carbohydrates than conventional wheat doughs/breads.

A method of manufacture and a composition for dough item including a protein source. The technology as disclosed and claimed herein and its various implementations and embodiments are a modified method of manufacture and a composition for a dough item that includes protein. The technology as disclosed and claimed provides a dough based crust or other dough based item that is a protein enriched alternative to conventional breads and crusts and other dough based products. This invention results in a dough that has more protein, more complete protein, and fewer carbohydrates than conventional wheat doughs/breads.

The present invention concerns a non-fried noodle dough comprising sweet potato flour and a method for its preparation. Particularly, the invention pertains to a non-fried noodle dough comprising wheat flour, 5-30 wt % sweet potato flour, 1-15 wt % oil, salt and water.

The present invention concerns a non-fried noodle dough comprising sweet potato flour and a method for its preparation. Particularly, the invention pertains to a non-fried noodle dough comprising wheat flour, 5-30 wt % sweet potato flour, 1-15 wt % oil, salt and water.

The invention provides an extrudable batter for use in providing a shelf-stable, ready-to-eat high-fiber food product. The batter comprises a select amount of a powdered fiber, at least one fat component chosen from an oil and a shortening, the shortening having a solid fat content of about 2% to about 30% at ambient temperature, a humectant, a sweetener, a leavening agent and water. The resultant uncooked batter is flourless and gluten-free and is extrudable in a continuous form. The ready-to-eat high-fiber food product produced by such batter contains about 5 grams or more of fiber per serving and substantially maintains, before and after being baked, a desired shape, structure and moisture content.

Embodiments herein include gluten-free baked products such as breads gluten-free flour formulations, and related methods. In an embodiment, a bread flour substitute composition is included having a starch blend and a hydrocolloid blend. The starch blend can include a native starch with 20-30% amylose content, a native waxy starch with 0-1% amylose content, and a cross-linked starch. The hydrocolloid blend can include hydroxypropyl methylcellulose (HPMC) and psyllium fiber. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

Embodiments herein include gluten-free baked products such as breads gluten-free flour formulations, and related methods. In an embodiment, a bread flour substitute composition is included having a starch blend and a hydrocolloid blend. The starch blend can include a native starch with 20-30% amylose content, a native waxy starch with 0-1% amylose content, and a cross-linked starch. The hydrocolloid blend can include hydroxypropyl methylcellulose (HPMC) and psyllium fiber. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

Embodiments herein include gluten-free baked products such as crackers, gluten-free flour formulations, and related methods. In an embodiment, a cracker flour substitute composition is included having a starch blend including a native starch with 20-30% amylose content, a cross-linked starch and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. In an embodiment, a shelf-stable baked cracker is included. The shelf-stable baked cracker can include a flour substitute composition including a starch blend having a native starch with 20-30% amylose content, a cross-linked starch, and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.