The disclosure concerns a method for producing a layered cookie comprising at least one biscuit and a filling, the layered cookie containing 10 wt % to 25 wt % fat and 15 wt % to 40 wt % sugar, wherein the slowly-digestible-starch-over-total-available-starch ratio of the layered cookie is at least 31 wt %, the method including: forming a dough comprising a cereal flour, fat, sugar and at most 8 wt % added water relative to the total weight of the dough; molding the dough into the shape of a biscuit; baking the biscuit; and assembling the biscuit with a filling to form a layered cookie; wherein the cereal flour comprises refined cereal flour, in an amount of at least 21 wt % over the total weight of the dough, with a water absorption under 55% as measured by Brabender Farinograph.

The disclosure concerns a method for producing a layered cookie comprising at least one biscuit and a filling, the layered cookie containing 10 wt % to 25 wt % fat and 15 wt % to 40 wt % sugar, wherein the slowly-digestible-starch-over-total-available-starch ratio of the layered cookie is at least 31 wt %, the method including: forming a dough comprising a cereal flour, fat, sugar and at most 8 wt % added water relative to the total weight of the dough; molding the dough into the shape of a biscuit; baking the biscuit; and assembling the biscuit with a filling to form a layered cookie; wherein the cereal flour comprises refined cereal flour, in an amount of at least 21 wt % over the total weight of the dough, with a water absorption under 55% as measured by Brabender Farinograph.

The invention refers to a process for obtaining dough compositions made from flour and starch having rheological characteristics that are adequate for the manufacture of food products, by mixing dry ingredients (flour, starch and additives) in determined ratios, and adding an adequate amount of water to the mix until obtaining homogenous dough. The obtained dough is of great use for the food industry.

The invention refers to a process for obtaining dough compositions made from flour and starch having rheological characteristics that are adequate for the manufacture of food products, by mixing dry ingredients (flour, starch and additives) in determined ratios, and adding an adequate amount of water to the mix until obtaining homogenous dough. The obtained dough is of great use for the food industry.

A food dough extrusion machine (10). The machine has a platform (2) and at least one extrusion unit (1) supported by the platform (2). The extrusion machine (10) has a guidance (3) by which the at least one extrusion unit (10) is supported on the platform (2) and by which the at least one extrusion unit (10) is adjustable relative to the platform (2) and/or removable from the platform (2).

A system for three-dimensional (3D) printing edible objects, the system including: a first 3D printer including: a first processor; one or more cartridges for storing ingredients used in printing a 3D printed edible object, a plurality of extruders for extruding the ingredients during printing of the 3D printed edible object and a plurality of relays coupled to the plurality of extruders. A first cartridge stores a first ingredient while a second cartridge stores a second ingredient that may be different from the first ingredient. A first extruder extrudes the first ingredient and a second extruder extrudes the second ingredient in a synchronized motion. A first subset of the plurality of relays is configured to control the first extruder and a second subset of the plurality of relays is configured to control the second extruder.

A system for three-dimensional (3D) printing edible objects, the system including: a first 3D printer including: a first processor; one or more cartridges for storing ingredients used in printing a 3D printed edible object, a plurality of extruders for extruding the ingredients during printing of the 3D printed edible object and a plurality of relays coupled to the plurality of extruders. A first cartridge stores a first ingredient while a second cartridge stores a second ingredient that may be different from the first ingredient. A first extruder extrudes the first ingredient and a second extruder extrudes the second ingredient in a synchronized motion. A first subset of the plurality of relays is configured to control the first extruder and a second subset of the plurality of relays is configured to control the second extruder.

A dry particulate mix for use in yeast leavened bakery products, includes: 3-90 wt. % of non-fermentable carbohydrates, including at least 3 wt. % of a non-fermentable sugar alcohol; 0-50 wt. % of fermentable sugars; two or more bakery ingredients selected from the group consisting of: 10-90 wt. % of viable yeast; 10-50 wt. % of baking powder; 5-90 wt. % of emulsifier; 3-50 wt. % of ascorbic acid; and 0.0001-1 wt. % of bakery enzyme;
all of these percentages being calculated on the combined amount of these two to five bakery ingredients; and wherein the weight ratio of non-fermentable carbohydrates to fermentable sugars exceeds 1:1. A sweetened dough is obtainable by incorporating therein 3-75% by weight of the final dough of the dry particulate mix.

Methods and products related to a baked cereal product having a pre-baked SA content and a post-baked SAG content, wherein the post-baked SAG content is less than about 25% below the pre-baked SAG content.

Methods and products related to a baked cereal product having a pre-baked SA content and a post-baked SAG content, wherein the post-baked SAG content is less than about 25% below the pre-baked SAG content.