Use of expanded constituents and manufacture of products therefrom

Inactive Publication Date: 2006-12-28
NESTEC SA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0050] It is therefore an advantage of the present invention to provide an improved method of operating a food factory to reduce drying requirements and consequently the emission of the by products of drying processes.
[0051] It is also an advantage of the present invention to provide an improved polymeric material that can be a food product or a material of manufacture or construction.
[0052] Another advantage of the present invention is to provide an improved chewable p

Problems solved by technology

In contrast, the diet of domesticated pets frequently-lacks naturally chewy foods, depriving them of the above benefits.
Conventional food processing methods often do not produce products that have textures comparable to naturally chewy foods.
But, most of these products have disadvantages.
Some are simply not edible.
When the pets chew or break up and swallow these products, they suffer digestive problems.
Some pass undigested through the pet and can contribute to diarrhea and increased fecal volume.
Even some products that claim to be made from edible constituents are not edible in final form, because of processing that fails to ensure digestibility.
Corncobs and cellulosic materials are not readily digestible and can also contribute to diarrhea and increased fecal volume.
However, some of these prior art chewy products are high in calories.
A further problem with some prior art chewy products is production cost.
The pliable materials tend to be expensive.
Attempts to mix pliable materials and less expensive materials have created a complex balancing system in which it is often difficult to ensure that the less expensive materials do not compromise the strength and integrity of the more expensive pliable materials.
Still another problem with certain prior art highly resistant chewable products is safety.
High protein products, including those fabricated from refined high protein constituents, are not only expensive but may bring potential danger as well.
Some experts believe that high protein levels can contribute to renal failure and to blockage of the urinary tract in pets consuming same.
Certain of these products are virtually rock hard.
These products can chip or break a pet's teeth.
Many of the harder products of the prior art are glassy in nature and have a tendency to shatter into sharp, hard fragments when bitten.
These fragments can lodge in the animal's throat or injure its mouth.
This is especially a problem with products produced by high pressure injection molding techniques.
For example, some non-glassy products of the prior art m

Method used

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  • Use of expanded constituents and manufacture of products therefrom
  • Use of expanded constituents and manufacture of products therefrom
  • Use of expanded constituents and manufacture of products therefrom

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0098] A comparative test will be described, wherein products made according to the invention, using expanded particles as feedstock, are compared with products produced using unexpanded particles as the base feedstock.

[0099] Rice Krispies® were selected as the expanded feed constituent of the present invention. Whole grain rice was to be the comparative non-expanded constituent. Glycerol and water constituted the molecules able to establish hydrogen bonds.

[0100] For purposes of simplicity the dry constituents are tabulated in Table 1 and liquid additives in Table 2. Extrusion is selected as the cooking method and extrusion parameters (mechanical energy input level, die pressure and amperage) for determining the various product runs are presented in Table 3.

[0101] Each of the products was made by selecting a dry constituent composition 1 or 2, processing it in an extruder 58 under a set of extrusion parameters set out in table 3 and injecting a liquid component blend A or B selec...

example 2

[0118] In Example 2, the digestibility of a product 40, made according to the present invention, was tested. The product was made by extrusion using the recipe of constituents presented in Table 6 and with injected liquids mixture A of Table 2. The extrusion conditions are the same as given in Table 3 of Example 1.

TABLE 6Product 3AINGREDIENTSPRODUCT 3AGround Rice Krispies ®87.5%  Gelatin 100 Bloom6%Potassium sorbate0.3%  Dicalcium phosphate5.2%  Nutrient mixture1%Total100% 

[0119] Eight adult beagle dogs (4 female, 4 male) in good health were individually housed and fed once per day with a test diet.

[0120] The eight dogs were fed a diet that was a combination of the products 40 of the present invention and commercial canned pet food (Winalot—a trade mark of Societé des Produits Nestlé). These foods were the sole source of nutrition for the animals for the duration of this trial. The daily energy ration for each of the dogs was calculated based on its daily metabolic energy (ME) re...

example 3

[0135] In Example 3 the chewing duration of products of the present invention was tested using a fixed group of forty dogs. The products were produced according to the parameters of Tables 1, 2 and 3. The products tested were those designated 3A and 4A and a commercial product branded as Jumbone (100 g / Small Dogs), available from Pedigree Masterfoods, Melton Mowbray, UK. These products were formed using circular dies of 25 mm diameter and divided into rods about 130 mm in length.

[0136] A veterinarian screened all participating dogs before the trial commenced, to ensure each dog was in good oral health and presented with no oral defects, such as gingivitis, bleeding and / or redness of gums, missing teeth, etc. The test dogs covered a broad range of sizes.

[0137] The dogs were presented with the products 3A, 4A and the comparative Jumbone product and their eating behaviour, as seen, for example, in the duration of chewing the products, was monitored. With regard to the determination o...

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Abstract

The present invention provides methods and products made thereby, wherein a pre-expanded constituent, including an edible constituent, is thermally treated to melt it, preferably in a dynamic process environment, to produce products ranging from high to quite low densities and from very strong to soft to apparently dry textures. The wide range of textures enables the provision of food products such as low calorie, digestible and safe, long duration pet food chews. Non-food products suitable for use in manufacture may also be produced. Cooking is preferably carried in an extruder, preferably at low moisture or in the total absence of added water. The methods of dynamic cooking reduce cost in a number of ways including but not limited to decreased process steps, increased throughput, decreased capital expenses and decreased raw product cost.

Description

FIELD OF THE INVENTION [0001] The present invention relates generally to bio-plastics products having high structural integrity. The products may include materials of manufacture as well as foods. More specifically, the present invention relates to methods for providing biodegradable polymeric materials of controllable texture and product materials so produced. BACKGROUND TO THE INVENTION [0002] Numerous methods are available for producing food products and biodegradable polymers. In the case of foods, these methods may be categorized generally as static (still) or dynamic methods. Static methods may be defined as those in which a batch of constituents is disposed in a cooking vessel and allowed to remain still or free of movement while being cooked, such as in an oven baking process or pressure moulding or baking process. These include processes in which the batch of material is caused to move on a conveyor through a cooking apparatus, such as a baking tunnel. Here the constituents...

Claims

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Application Information

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IPC IPC(8): A23G3/00A23K1/00A23K1/16A23K1/18
CPCA23K1/003A23K1/1846A23K1/1643A23K20/163A23K40/25A23K50/40A23K40/20
Inventor RUSSELL MAYNARD, JOHN
Owner NESTEC SA
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