Pasta with Reduced Gluten

Abstract

A filled gluten-free or low-gluten pasta product, such as ravioli, tortellini, agnolotti or the like, wherein said pasta incorporates a low-gluten or gluten free flour and xanthan gum and is produced by cold extrusion.

Claims

1. A gluten-free or low-gluten pasta product, such as ravioli, tortellini, agnolotti or the like, wherein said pasta incorporates a low-gluten or gluten free flour and xanthan gum.

2. The pasta product of claim 1 that has been produced by cold extrusion.

3. The pasta product of claim 1, wherein the pasta further incorporates guar gum.

4. The pasta product of claim 1, wherein the pasta further incorporates rice flour.

5. The pasta product of claim 1, wherein the pasta further incorporates corn starch.

6. The pasta product of claim 1. wherein the pasta further incorporates potato starch and/or tapioca starch.

7. The pasta product of claim 1, wherein the pasta further incorporates at least 10% by mass of fresh whole egg.

8. The pasta product of claim 1, wherein the xanthan gum comprises between about 2.0% and about 3.0% of the pasta.

9. The pasta product of claim 1, wherein the pasta product has: an energy content of product is between 5500 and 80001 kJ/kg; a protein content of between 2.5% and 5.5% by mass; a total fat content of between 3.0% and 5.0%; and a total carbohydrate content of between 20% and 30%.

10. A method of manufacturing filled gluten-free or low-gluten pasta product, such as ravioli, tortellini, agnolotti or the like, wherein said pasta incorporates a low-gluten or gluten free flour and xanthan gum, said method incorporating the steps of: mixing all raw materials; cold extruding said mixture into sheets, preferably at a temperature of ≦34° C. and preferably at a pressure of ≧75 Bar; and adding the pasta filling to the pasta and forming the pasta into the desired shape.

11. The method of claim 10, wherein the pasta is a non-filled pasta product and the extrusion temperature is 32° C. and the pressure is 80 Bar,

12. The method of claim 10, wherein the pasta is a filled pasta product and the extrusion temperature is in the range 25-26° C. and the pressure is in the range 39-40 Bar.

13. The method of claim 10, wherein the pasta further incorporates guar gum.

14. The method of claim 10, wherein the pasta further incorporates rice flour.

15. The pasta method of claim 10, wherein the pasta further incorporates potato starch and/or tapioca starch.

16. The method of claim 10, wherein the pasta further incorporates at least 10% by mass of fresh egg or fresh egg pulp.

17. The method of claim 10, wherein the xanthan gum comprises between about 2.0% and about 3.0% of the pasta.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] FIG. 1 is a flowchart of a process for manufacturing a pasta product according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0018] The invention may be embodied by a cold-extrusion reduced-gluten or gluten-free filled pasta product. In this specification, ‘fresh’ denotes a pasta product that has a moisture content above about 28%. Such pasta products require chilled storage conditions at below 4° C. for maximum commercial shelf-life, as opposed to ‘dry’ pasta product that has a water content of at or below about 12.5% and is stable indefinitely at room temperature.

[0019] Because of the higher water content, the fresh pasta is more pliable, and also more liable to tear or break if stretched, such as may happen during the process of sheeting and forming the pasta around a filling.

[0020] Filled pastas are those that contain a non-pasta filling surrounded by pasta material. Common forms of filled pasta are ravioli, tortellini, agnolotti or the like, and are well-known in the art.

[0021] Two formulations have been developed and proven in trials: one for plain pasta and one for filled pasta. These are given below in tables 1 and 2.

TABLE-US-00001 TABLE 1 Plain Pasta Ingredient % by mass Rice Flour 35.65 Corn Starch 18.54 Potato Starch 7.71 Xanthan Gum 2.83 Whole Egg Pulp 11.45 Salt 0.97 Water 25.53 Colouring 0.02 TOTAL 100

TABLE-US-00002 TABLE 2 Filled Pasta Ingredient % by mass Rice Flour 35.28 Corn Starch 18.72 Potato Starch 5.20 Xanthan Gum 2.83 Whole Egg Pulp 11.45 Water 26.5 Colouring 0.02 TOTAL 100

[0022] These combinations of ingredients produce products having appearance, flavour and texture very similar to standard fresh pasta products.

[0023] Rice flour and corn starch were chosen in combination to form the basis of the pasta product. These ingredients are relatively bland in flavour. Other flours used in some products, such as chickpea and buckwheat, can produce an undesirable ‘cardboard’-like flavour.

[0024] As the gluten-free pasta dough tends to be quite short in texture, the xanthan gum acts like gluten giving the pasta dough some structure and flexibility.

[0025] It has been observed that the egg tends to help all the ingredients bind together, and gives the specific bite to the pasta. It also helps to contribute positively to the pasta colour.

[0026] In combination with the xanthan gum and egg, the potato starch has been observed to give the pasta dough the structure and clean bite required to meet sensory expectations upon cooking and consumption.

[0027] A large amount of trial work was done with different raw materials and variations in raw material levels to determine the right balance to achieve successful process capability of dough and final product quality.

[0028] Varying levels of xanthan gum were trialled. The best results were achieved with the addition of 2.83% by mass in the dough formulation for function and quality, It is anticipated that good results could be achieved with xanthan gum addition of up to about 3% by mass.

[0029] Varying levels of fresh egg pulp were trialled. The presence of the egg pulp gives the pasta a texture that differentiates the final product from e.g. shelf stable pasta, which is particularly important in the context of an otherwise low-protein formulation (due to the absence of gluten). The results indicated that at least 10% by mass fresh egg pulp needs to be added to the pasta dough formulation to achieve acceptable functionality and quality in the resulting pasta.

[0030] Different kinds of modified potato starches were trialled to determine the difference in capability and end product quality they provided, when compared with standard potato starch. Due to the filled pasta requiring better stretch during processing, a specialised modified potato starch was sourced from Paselli, a division of Avebe, and the end product quality in terms of texture was acceptable. This modified potato starch is pre-gelatinised and has a smaller particle size than the potato starch used in the plain pasta, represented by 100% of the starch grains passing through a 355 micron sieve.

[0031] Some investigation was made into alternative ingredients for the pasta dough formulation. Both xanthan gum and guar gum are used in gluten free products. Xanthan gum tends to produce a product that is more similar to gluten, in terms of producing the most similar product texture. The use of xanthan gum produces a dough which is more pliable and light, whereas guar gum produces a thinner more stringy dough. Use of xanthan gum tends to produces a better quality dough.

[0032] Potato starch and tapioca starch (made from manioc root), are larger-grained starches that gelatinize at relatively lower temperatures. Potato starch and tapioca starch seem to be interchangeable in gluten free formulations.

[0033] A large amount of trial work was done with extruder temperatures and pressures to determine the right balance between processing capability of the gluten free pasta dough and final product quality.

[0034] Pilot trials identified that an extrusion temperature of 32° C. provided the best conditions for dough extrusion for plain pasta, and 25.7° C. for filled pasta. At significantly higher extrusion temperatures the starch in the pasta dough tends to begin gelatinising. This is undesirable as it can cause the dough to ‘stick’ to the extruder screw.

[0035] Extrusion at a pressure of less than 60 Bar was trialled, however the gluten-free pasta dough product did not extrude well at this pressure. The relatively high level of moisture in the pasta dough tended to cause the dough to break apart.

[0036] Extrusion at a pressure of greater than or equal to 80 Bar worked well in extruding the gluten-free pasta dough for plain pasta, and 39.8 Bar for twin-sheet extrusion for filled pasta products. It has been identified that there is a need to balance the moisture of the dough versus the extruder pressure to achieve production of the best quality pasta product.

[0037] A detailed description of a process for producing a reduced gluten or gluten-free pasta product is given as follows, with reference to FIG. 1

[0038] For the production of plain gluten-free pasta: the raw materials are fed into a high-speed mixer and mixed until homogeneous; dough exiting the mixer is fed directly into a cold extruder; a pasta sheet is extruded from the extruder at a pasta temperature of 32° C. and about 80 Bar; the pasta sheet is fed through a calibrator to achieve get the required sheet thickness (typically about 1.0-1.1 mm); the pasta is then pasteurised; the pasta is then dried; the pasta is then chilled, cut to size and packed in modified atmosphere (MAP) packaging.

[0039] For the production of filled gluten-free pasta: the raw materials are fed into a high-speed mixer and mixed until homogeneous; dough exiting the mixer is fed directly into a cold extruder; a pasta sheet is extruded from the extruder at a pasta temperature of 25.7° C. and about 39.8 Bar; the pasta sheet is fed through a calibrator to achieve get the required sheet thickness (typically about 1.1-1.2 mm); the pasta and the (gluten-free) filling material are fed into a former and the product is formed to shape and filled; the pasta is then pasteurised; the pasta is then dried; the pasta is then chilled, and packed in modified atmosphere (MAP) packaging.

[0040] The cold extrusion can, for example, be successfully performed on extruder press equipment of the type available from Pavan Group SpA, of Via Monte Grappa 8, 35015-Galleria Veneta PD Italy.

[0041] It will be appreciated by those skilled in the art that the above described embodiment is merely one example of how the inventive concept can be implemented. It will be understood that other embodiments may be conceived that, while differing in their detail, nevertheless fall within the same inventive concept and represent the same invention.