The present invention generally relates to the field of pet food.
More precisely, the present invention concerns a palatable dry food for cats, wherein said food is characterized by both a specific ingredient formulation and a specific nutritional composition.
The present invention further concerns a method for preparing such a palatable dry cat food.
The worldwide pet food market extends continuingly due to a pet population that becomes larger and larger over time, especially in developed countries.
Facing thus an increasing public demand for pet foods, the pet food industry looks for supplying foods which have a high nutritional value and a high degree of palatability, with competitive production costs.
There is a wide range of pet foods available on the market. These pet foods may be classified in different categories depending on their consumption purpose: (a) complete diets, (b) complementary diets, and (c) snacks, treats, and edible toys. Complete diets are designed to be fed in addition to water for an extended period of time as the sole source of nutrients; they are thus expected to meet all the energetic and nutrient requirements of the animal. Complementary diets are not sufficient alone to ensure that all nutrient and energy needs are provided for; they thus have to be combined with other diets. Snacks, treats, and edible toys are appetizers or rewards that are offered from time to time by the pet owner to the animal.
Concerning more specifically complete diets, they can in turn be classified in three main categories depending on their moisture content, which is either low or medium or high:
Dry and semi-dry pet foods are generally preferred by manufacturers and pet owners alike because they are more convenient to store and use. However, many animals, and particularly cats, are picky eaters desiring a high degree of palatability.
There is thus a continuing need for new palatable food products for cats, which provide a robust flavour and which are easily and cost-effectively (i) manufactured by the pet food industry and (ii) usable by cats' owners.
The present invention here provides new combinations of ingredient formulations and nutritional compositions that have been selected for their ability to provide palatable dry cat foods.
It is provided herein a palatable dry food for cats, wherein said food is characterized by both a specific ingredient formulation and a specific nutritional composition.
It is further provided a method for preparing such a palatable dry cat food.
It is yet further provided a method for feeding cats using the palatable dry cat foods of the present invention.
Unless specifically stated otherwise, percentages are expressed herein by weight of a product reference (in particular, a dry cat food product).
In the present disclosure, ranges are stated in shorthand, so as to avoid having to set out at length and describe each and every value within the range. Any appropriate value within the range can be selected, where appropriate, as the upper value, lower value, or the terminus of the range. For example, a range of 0.1-1.0 represents the terminal values of 0.1 and 1.0, as well as the intermediate values of 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, and all intermediate ranges encompassed within 0.1-1.0, such as 0.2-0.5, 0.2-0.8, 0.7-1.0, etc.
As used throughout, the singular form of a word includes the plural, and vice versa, unless the context clearly dictates otherwise. Thus, the references “a”, “an”, and “the” are generally inclusive of the plurals of the respective terms. For example, reference to “a method” or “a food” includes a plurality of such “methods” or “foods”. Similarly, the words “comprise”, “comprises”, and “comprising” are to be interpreted inclusively. Likewise the terms “include”, “including” and “or” should all be construed to be inclusive. All these terms however have to be considered as encompassing exclusive embodiments that may also be referred to using words such as “consist of”.
The methods and compositions and other embodiments exemplified here are not limited to the particular methodologies, protocols, and reagents that are described herein because, as the skilled artisan will appreciate, they may vary.
Unless defined otherwise, all technical and scientific terms, terms of art, and acronyms used herein have the meanings commonly understood by the skilled artisan in the field(s) of the invention, or in the field(s) where the term is used. Although any compositions, methods, articles of manufacture, or other means or materials similar or equivalent to those described herein can be used in the practice of the present invention, the preferred compositions, methods, articles of manufacture, or other means or materials are described herein.
The term “about” as used herein when referring to a measurable value such as an amount, a temporal duration, and the like, is meant to encompass variations of ±5%, more preferably ±2%, even more preferably ±1% from the specified value, as such variations are appropriate to reproduce the disclosed methods and products.
In the context of the present invention, the term “adult cat” means cats with the exception of kittens, the kittens being cats having less than 12 months. Accordingly, the term “adult cats” herein refers to cats having at least 12 months, and preferably having more than 12 months.
As used herein, the term “palatability” or “palatability effect” refers to the overall willingness of a pet to eat a certain pet food. Whenever a pet shows a preference, for example, for one of two or more pet foods, the preferred pet food is more “palatable”, and has “enhanced palatability”. Such preference can arise from any of the pet's senses, but typically is related to, inter alia, taste, aroma, flavour, texture, smell and/or mouth feel.
Different methods exist to determine a palatability effect. Examples of such methods involve exposure of pets to pet foods either simultaneously (for example, in side-by-side, free-choice comparisons, e.g., by measuring relative consumption of at least two different pet foods), or sequentially (e.g., using single bowl testing methodologies). At least two different methods may be used to consolidate the thus obtained results on the palatability effect of a given pet food.
The term “food” or “diet” as used herein means a product or composition that is eaten by an animal and provides at least one nutrient to the animal. More specifically, a “food” is here a “nutritionally-balanced food”.
A “nutritionally-complete”, “nutritionally-balanced” or “complete and nutritionally-balanced food” or “complete diet” is one that contains all known required nutrients for the intended recipient or consumer of the food, in appropriate amounts and proportions based, for example, on recommendations of recognized or competent authorities in the field of companion animal nutrition. Such foods are therefore capable of serving as a sole source of dietary intake to maintain life or promote production, without the addition of supplemental nutritional sources.
The term “cat food” means a product intended for consumption by a cat.
Pet foods, such as cat foods, are generally classified depending on their moisture content, which is either low or medium or high. In particular, dry products have less than about 14% moisture. Typical dry pet foods are kibbles.
The term “kibble” used herein refers to particulate chunks or pieces formed by either a pelleting or extrusion process. The pieces can vary in sizes and shapes, depending on the process or the equipment. For instance, kibbles can have spherical, cylindrical, oval, or similar shapes.
“Palatability enhancers” (PEs), or “palatants”, or “palatability agents”, or “appetizing factors”, and any other similar terms mean any material that enhances the palatability of a food product to an animal. A PE may be a single material or a blend of materials, and it may be natural, processed or unprocessed, synthetic, or part of natural and part of synthetic materials. Typically, a PE for animal food is a liquid or dry edible composition that provides a taste, aftertaste, smell, mouth feel, texture, and/or organoleptic sensation that is pleasant to the target animal.
“Macronutrients” are understood herein to mean protein, carbohydrate, fat, and fiber. Protein could be of animal or vegetable origin. The same applies for the fat and carbohydrate macronutrients, which may be present in vegetable and/or animal form.
As used herein, the term “micronutrients” is intended to mean substances which the animal's metabolism needs to absorb, even though they do not supply energy. They serve, for example, to build up macromolecules or as cofactors for essential enzyme reactions. Micronutrients include fatty acids, amino acids, macrominerals, microminerals, vitamins and vitamin-like substances, to satisfy the essential nutrient requirements of animals, preferably cats, yet preferably adult cats.
The term “microminerals” or “mineral trace elements” means herein one or more selected from iron, zinc, manganese, selenium, iodine, and copper. “Microminerals” are different from “macrominerals”, which term is used herein to encompass any one from calcium, phosphorus, sodium, magnesium, chloride, potassium, sulfur, and combinations thereof.
The term “yeast” herein encompasses any yeast, preferably inactive, as well as yeast by-products that are compatible with compositions for animal consumption.
As used herein, the term “meat tissue” means meat and meat by-products including carcass, bones, skin, offal, and muscle, that may be obtained directly from a slaughterhouse, thus being fresh, raw or frozen, but not being dried, cooked or boiled.
“Coating”, as used herein, refers to the topical deposition of a palatability-enhancing composition onto the surface of a basal food composition, such as by spraying, dusting, and the like. A palatability-enhancing composition for use as a coating material in the pet food industry is typically a mixture of one or more palatability enhancers and fat.
“Inclusion” as used herein, refers to the addition of a palatability enhancer internally to a pet food preparation, by mixing it with other pet food ingredients, before further processing steps for obtaining the final pet food product (including thermal treatment and/or extrusion and/or retorting, etc.).
By the term “initial ration”, it is meant herein the pet food ration specifically adjusted to a given pet based on its usual food consumption and its daily energy requirements.
The inventors have found through an extensive series of dietary studies on adult domestic cats, based upon formulations with different ingredients (in nature and/or amount) and upon compositions with different nutritional constraints, that adult cats show preferences for specific ingredient formulations together with specific nutritional compositions.
The cat foods according to the present invention include macronutrients and micronutrients allowing to have nutritionally-balanced cat foods, that should satisfy all the nutrient needs of an adult cat. The food balance is determined according to the known dietary standards in the veterinary field, for example by following recommendations of the National research Council (NRC) or the guidelines of the American Association of Feed Control Officials (AAFCO).
The present invention is directed to cats, preferably adult cats.
In a first aspect, the present invention concerns a palatable dry cat food characterized by:
a) an ingredient formulation comprising at least, in % by weight of the dry cat food:
Preferably, said ingredient formulation defined in a) above comprises at least, in % by weight of the dry cat food:
For example, the palatable dry cat food according to present invention has a formulation comprising at least one of, in % by weight of the dry cat food:
Yet for example, the palatable dry cat food according to the present invention has a nutritional composition comprising at least one of, in % by weight of the dry cat food:
With respect to the ingredient formulation:
(i) Rice is a cereal grain that may be used as a source of carbohydrates. Rice forms may be selected from whole rice, broken rice, rice semolina, rice flour, and the like, and any combinations thereof. Rice types may be selected from Indica, Japonica, and combinations thereof. Rice may be wild rice, brown rice, brewer's rice, and the like, and any combinations thereof.
(ii) Corn is a cereal grain that may be used as a source of carbohydrates. Corn forms may be selected from whole corn, broken corn, ground corn meal, corn flour, corn grits, corn flakes, and the like, and any combinations thereof.
(iii) Corn gluten or corn gluten meal is a by-product of the manufacture of maize starch (and sometimes ethanol). Corn gluten is a source of vegetable protein, with a standard protein level of at least about 58%.
(iv) Poultry meal by-products (or poultry by-product meal) are the ground, rendered, clean parts of the carcass of slaughtered poultry such as necks, heads, feet, undeveloped eggs, gizzards, and intestines (provided their content is removed), exclusive of feathers (except in such amounts as might occur unavoidably in good processing practices). Poultry by-product meal contains from about 58% to about 75% protein.
(v) Whole dried eggs are an excellent source of protein of animal origin. Egg protein has been used as the reference protein to which all other proteins have been compared for humans for many years. Whole dried eggs contain at least about 40% protein.
(vi) Fiber source or dietary fiber refers to food ingredients corresponding to components of a plant that are resistant to digestion by animal's digestive enzymes. Fiber can be soluble or insoluble. Soluble fiber is resistant to digestion and absorption in the small intestine, but undergoes complete or partial fermentation in the large intestine. Sources of soluble fiber for use in the diets disclosed herein include, but are not limited to, beet pulp, guar gum, chicory root, psyllium, pectin, carob flour, blueberry, cranberry, squash, apples, oats, beans, citrus, barley, and peas. Insoluble fibers are fibers that do not dissolve in water and tend to increase the rate at which food passes through the digestive tract. Sources of insoluble fiber include, but are not limited to, cellulose, wheat oat, corn bran, flax seed, grapes, celery, green beans, cauliflower, potato skins, fruit skins, vegetable skins, peanut hulls, and soy fiber.
(vii) Fish material encompasses fish meal, fish oil, and the like, and combinations thereof. Fish meal is obtained by cooking, pressing, drying, and milling fresh raw fish or fish trimmings. Fish meal is an excellent source of highly digestible protein, long chain omega-3 fatty acids (such as EPA and DHA). Fish oil is extracted from fishery materials prior to making fish meal. Fish oil is an excellent source of energy, vitamin A, vitamin D, and omega-3 fatty acids. Typical examples of fish oil are tuna oil, sardine oil, salmon oil, anchovy oil, and the like, and combinations thereof.
(viii) Yeasts are well known in the art as being protein-rich. Yeasts include, without limitation, brewer's yeast, baker's yeast, torula yeast, molasses yeast, and the like. Yeast by-products (that are also encompassed here by the term “yeast”, as mentioned in the Definitions above) include, without limitation, yeast extracts, yeast hydrolyzates, cream yeasts, etc.
(ix) Vitamins are also included in the diets according to the present invention in specific amounts, to avoid deficiency and to maintain animal's health. Examples of vitamins include, without limitation, vitamin A, vitamin B1 (or thiamin), vitamin B2 (or riboflavin), vitamin B6 (or pyridoxine), vitamin B12 (or cobalamin), vitamin B3 (or niacin), vitamin B5 (or panthotenic acid), vitamin B9 (or folic acid), vitamin C (L ascorbic acid), vitamin D, vitamin E, vitamin H (biotin), vitamin K, vitamin B4 (or choline chloride), and combinations thereof.
(x) As defined above, microminerals are one or more selected from iron, zinc, manganese, selenium, iodine, and copper.
(xi) Taurine is a derivative compound from sulfur amino acids, and is required for healthy reproduction, healthy eyesight and hearing. Taurine is well-known and commonly used in the pet food industry, especially in cat food manufacturing.
With respect to the nutritional composition:
(i) Moisture refers to the water content of a given product, in particular here of the dry cat food according to the present invention. Water is known as the most important nutrient for life and plays a part in all major physiological functions.
(ii) Protein is any group of complex organic macromolecules that contain carbon, hydrogen, oxygen, nitrogen, and usually sulfur and are composed of one or more chains of amino acids. Proteins are fundamental components of all living cells and include many substances, that are necessary for the proper functioning of a living organism. They are essential in the diet of animals for the growth and repair of tissue and can be obtained from animal and/or vegetable sources.
(iii) Fat or lipid is a group of organic compounds, including fats, oils, waxes, sterols, and triglycerides, that are insoluble in water but soluble in nonpolar organic solvents. Fat, together with carbohydrates and proteins, constitute the principal structural material of living cells. Fat in food is a major source of energy. Fat can be obtained from animal and/or vegetable sources.
(iv) Ash or ashes refer to any inorganic material in food, such as minerals, corresponding to the residue that remains after burning, this burning removing water and organic material such as protein, fat, starch, and fibers.
(v) Total fiber or total dietary fiber includes soluble and insoluble fibers as described above.
(vi) Starch is a naturally abundant nutrient digestible carbohydrate, composed of thousands of glucose molecules linked together by simple chemical bonds. Starch is a source of energy and is found chiefly in the seeds, fruits, tubers, roots, and stem pith of plants, notably in corn, potatoes, wheat, barley, and rice.
In particular, the palatable dry cat food according to the present invention has a formulation that further comprises at least one of the following typical ingredients: meat tissue, pork meal by-products (or pork by-product meal), wheat, wheat gluten, pea protein concentrate, animal fat, soy flour, palatability enhancers, phosphoric acid, minerals, amino acids, antioxidants, and the like.
With respect to these additional ingredients that may be comprised in the cat food formulation:
(i) Meat tissue can be meat and/or meat by-products as defined above.
(ii) Pork meal by-products (or pork by-product meal) correspond to pork greaves meal, that is a high-protein meal obtained as a by-product from rendering or extraction of pork. Pork meal by-products contain at least about 55% protein.
(iii) Wheat is a cereal grain that may be used as a source of nutrients (e.g., proteins, starch, minerals, and vitamins). Wheat forms may be selected from whole wheat, broken wheat, ground wheat meal, wheat flour, wheat grits, wheat flakes, and the like, and any combinations thereof. When wheat is present in said ingredient formulation, then said dry cat food preferably comprises less than about 10% wheat by weight. Yet preferably, said dry cat food comprises less than about 8% wheat by weight.
(iv) Wheat gluten is the protein part of wheat and is a source of vegetable protein, with a standard protein level of at least about 58% protein.
(v) Pea protein concentrates are made by separating the protein fraction of pea seeds from the fiber and starch fractions. Several processes are known, yielding to products containing at least about 50% protein.
(vi) Animal fats are fats of animal origin, excluding marine origin. Typical animal fats are tallow, lard, poultry fat, and the like, as well as by-products thereof. Also are encompassed herein the fats that are derived from animal sources, or that are produced by animals, with the exception of marine oils.
(vii) Soy flour is obtained by grinding soya beans. It is a source of vegetable proteins with a standard protein level of at least about 40% protein.
(viii) Examples of palatability enhancers are, without limitation, animal digests which result from chemical and/or enzymatic hydrolysis of clean, undecomposed animal tissue; Maillard reaction products which result of the mixtures of different ingredients that react together during a heat process; minerals such as phosphate salts; fats or lipids; and the like.
(ix) Phosphoric acid is an edible acid that can be used in pet food for different purposes such as antimicrobial agent, acidifying agent, and the like.
(x) Macrominerals are as defined above.
(xi) Amino acids are preferably selected from Arginine, Methionine, Lysine, and combinations thereof.
(xii) Antioxidants are fat preservatives from natural or synthetic origins, such as for example tocopherols, rosemary extract, BHA, BHT, Propyl gallate, Octyle gallate, and the like.
Palatability enhancers are conventionally used either by inclusion or by coating or both.
For example, palatability enhancers can be incorporated or included into the pet food preparation according to the following method. The palatability enhancer(s) is(are) contacted with the raw ingredients of the pet food preparation prior to cooking. In this case, the palatability enhancer(s) is(are) combined to proteins, fibre, carbohydrates and/or starch, etc., of the basal food preparation and is(are) cooked with those materials in the cooker-extruder.
In a preferred embodiment, the palatable dry cat food according to the present invention is coated with a palatability-enhancing composition.
For example, one can cite a method for coating dry pet foods such as kibbles. Kibbles of uncoated, extruded basal pet food can be placed in a container such a tub or a coating drum for mixing. A fat, such as pork fat or poultry fat, is heated and then sprayed onto the pet food in a manner to obtain a coating of the kibbles. The coating does not need to be a continuous layer, but is preferably uniform. After the fat, one or more palatability enhancers may be applied as either liquid(s) or dry powder(s), while mixing the product. A liquid palatability enhancer is typically sprayed on while a dry palatability enhancer is typically dusted on. Alternatively, palatability enhancers can be mixed with the fat and applied concurrently. Yet alternatively, palatability enhancers are coated before deposition of fat.
For clarity purposes, the mixture of one or more palatability enhancers and fat is herein referred to as a “palatability-enhancing composition”. In particular, this palatability-enhancing composition, which combines fat and one or more palatability enhancers, may contain all or part only of the total amount of fat in the dry cat food and/or all or part only of the total amount of palatability enhancers in the dry cat food.
In another aspect, the present invention concerns a method for preparing a palatable dry cat food as described above, wherein said method comprises at least the steps of:
Preferably, this method for preparing a palatable dry cat food further comprises a step d) of coating the dry cat food obtained in step c), with a palatability-enhancing composition, as described above.
Typically, dry pet foods such as kibbles can be prepared by different common methods. One of these methods, that is widely used, is a cooker-extruder method. In the cooker-extruder method, ingredients are first blended together to form an admixture. This admixture is transferred into a conditioner where it is sufficiently moistened to become extrudable. The admixture then enters a cooker-extruder where it is cooked at an elevated temperature and pressure and then forced out of the apparatus through a die. This die forms the extruder product into a specific shape. Individual pieces of food are created by periodically slicing off the end of the extruded stream of product. The individual pieces are then dried in a hot air dryer. Generally, the product is dried until it contains less than 14% moisture, and preferably about 3 to 10% moisture. The dried particles or pieces are then transferred by bulk conveyor to a coating drum and sprayed with fat. Other liquids such as liquid palatability enhancers, and powders such as dry palatability enhancers may also be applied to the pieces as a coating material. In other words, the pieces may be globally coated by a palatability-enhancing composition comprising fat and one or more palatability enhancers, wherein said fat and said one or more palatability enhancers can be applied concomitantly, or sequentially, or at time intervals.
Yet in another aspect, the present invention relates to a method for feeding a cat, comprising:
a) feeding said cat with a palatable dry cat food as described above.
The above-described palatable cat foods provide significant advantages over the prior art. The effects of the present invention can be measured by tests such as single-bowl test (also called “monadic test”) or “two-bowl test” (also called “versus test”). Of course, the person skilled in the art is free to use any other appropriate test than those herein described to determine preference or acceptability. Such alternative tests are well known in the art.
In a “monadic test” or “monadic feeding trial” or “single-bowl test”, only one pet food is given to pets at one given time, giving thus access to the acceptability of this specific pet food by the pet. When several pet foods are presented sequentially using monadic testing, the preference for one pet food compared to the other can be established by comparing the sequentially-collected data. Tests can be performed on panel of 40 cats, depending on the test's objectives.
A “monadic-based feeding trial” is either a conventional monadic feeding trial or an adjusted monadic feeding trial in order to maximize reliability and sensitivity. Such an adjusted monadic feeding trial can be a monadic feeding trial wherein, e.g.:
Parameters studied: quantities of consumed pet food.
Statistical Analysis:
A statistical analysis is performed, preferably a parametric analysis, yet preferably an analysis of variance with mixed effects if data are quantitative and a logistic regression with mixed effects if data are qualitative. Typically, a student's T-test for quantitative data or a chit for qualitative data is done from these models to study the differences of each criterion for one pet food. Typical significance levels for statistical tests are noted as below:
A “two-bowl test” or “two-pan test” or “versus test” enables one to determine preference of pets for one pet food compared simultaneously to another. A “versus test” is based on the postulate whereby the more food consumed, the more palatable it is. Tests can be performed on panel of 40 cats, depending on the test's objectives.
CR
A=consumption of A (g)×100/(consumption of A+B) (g)
CR
B=consumption of B (g)×100/(consumption of A+B) (g);
If animals have higher or lower consumption compared to predetermined values (which are function of, e.g., the animal weight and/or metabolism), they are not taken into account into statistical treatment.
Statistical analysis is used to determine if there is a significant difference between the 2 ratios. A Student's t-test with 3 error thresholds, namely 5%, 1% and 0.1%, is performed.
Significance levels are noted as below:
The present invention will be further described by reference to the following examples, which are presented for the purpose of illustration only and are not intended to limit the scope of the invention.
In this example, three nutritionally-balanced food compositions in the form of kibbles, suitable for consumption by cats, and obtained after an extrusion process, were prepared. Those 3 cat foods were formulated in order to meet the AAFCO nutrient recommendations.
There were also formulated in a way to have a specific ingredient formulation comprising some specific ingredients, each present at a specific level, and a specific nutritional composition.
As shown in Table 1 below, the diets A, B, and C were formulated in order to have from about 11 to about 22% rice, from about 5 to about 22% corn gluten, from about 8 to about 27% poultry meal by-products, from about 3 to about 22% corn, from about 0.9 to about 5% whole dried eggs, from about 0.5 to about 5.5% fiber source, from about 0.5 to about 5.5% fish material, from about 0.9 to about 7% yeast, from about 0.3 to about 5% vitamins and/or microminerals and/or taurine.
In addition, all the diets were characterized by a specific nutritional composition comprising at least, in % by weight of the diet, from about 3 to about 8.5% moisture, from about 33 to about 42% protein, from about 9.5 to about 18% fat, from about 4 to about 10% ashes, from about 4 to about 10.5% total fibers and from about 20 to about 30.5% starch.
1Arg: arginine; Met: methionine; Lys: lysine
2cat premix: vitamins, microminerals, and taurine
Palatability tests were thus performed to compare the 3 Cat diets A, B, and C, as follows.
a) A Monadic Feeding Trial was Performed with Cat Diets A and C.
As shown in Table 2 below, average consumptions per meal were not significantly different between Cat Diet A and Cat diet C.
b) Versus Tests were Performed to Compare the 3 Cat Diets A, B, and C.
As shown in Table 3 below, consumptions were not significantly different between Cat diet A and Cat Diet B, and between Cat Diet A and Cat Diet C.
This demonstrates that, even if the 3 diets' formulas are not strictly identical, a similar palatability could be obtained by combining a specific ingredient formulation and a specific nutritional composition, according to the invention.
In this example, two nutritionally-balanced food compositions in the form of kibbles, suitable for consumption by cats, and obtained after an extrusion process, were prepared. Those 2 cat foods were formulated in order to meet the AAFCO nutrient recommendations.
There were also formulated in a way to have a specific ingredient formulation comprising some specific ingredients, each present at a specific level, and a specific nutritional composition.
As shown in Table 4 below, on the one hand, diet A was formulated in order to have from about 11 to about 22% rice, from about 5 to about 22% corn gluten, from about 8 to about 27% poultry meal by-products, from about 3 to about 22% corn, from about 0.9 to about 5% whole dried eggs, from about 0.5 to about 5.5% fiber source, from about 0.5 to about 5.5% fish material, from about 0.9 to about 7% yeast, from about 0.3 to about 5% vitamins and/or microminerals and/or taurine.
In addition, diet A was characterized by a nutritional composition comprising at least, in % by weight of the diet, from about 3 to about 8.5% moisture, from about 33 to about 42% protein, from about 9.5 to about 18% fat, from about 4 to about 10% ashes, from about 4 to about 10.5% total fibers and from about 20 to about 30.5% starch.
On the other hand, diet D was formulated in order to have both an ingredient formulation and a nutritional composition that are different from the ones described above.
1Arg: arginine; Met: methionine; Lys: lysine
2cat premix: vitamins, microminerals, and taurine
Palatability tests were performed to compare the Cat diets A and D, as follows.
a) A Monadic Feeding Trial was Performed with Diets A and D.
As shown in Table 5 below, average consumptions per meal were significantly different between Cat Diet A and Cat diet D.
b) Versus Tests were Performed to Compare the Cat Diets A and D.
As shown in Table 6 below, consumptions were significantly different between Cat diet A and Cat Diet D.
Those 2 tests demonstrate that Cat Diet D having an ingredient formulation and a nutritional composition different from those specified in the present invention is less palatable than Cat Diet A which is according to the invention.
In this example, three nutritionally-balanced food compositions in the form of kibbles, suitable for consumption by cats, and obtained after an extrusion process, were prepared. Those 3 cat foods were formulated in order to meet the AAFCO nutrient recommendations.
There were also formulated in a way to have a specific ingredient formulation comprising some specific ingredients, each present at a specific level, and a specific nutritional composition.
As shown in Table 7 below, diets A and C were formulated in order to have from about 11 to about 22% rice, from about 5 to about 22% corn gluten, from about 8 to about 27% poultry meal by-products, from about 3 to about 22% corn, from about 0.9 to about 5% whole dried eggs, from about 0.5 to about 5.5% fiber source, from about 0.5 to about 5.5% fish material, from about 0.9 to about 7% yeast, from about 0.3 to about 5% vitamins and/or microminerals and/or taurine.
Diet E was formulated in order to have an ingredient formulation different from those of Diets A and C, and thus not according to the invention.
Diets A, C, and E were all characterized by a nutritional composition according to the invention, thus comprising at least, in % by weight of the diet, from about 3 to about 8.5% moisture, from about 33 to about 42% protein, from about 9.5 to about 18% fat, from about 4 to about 10% ashes, from about 4 to about 10.5% total fibers and from about 20 to about 30.5% starch.
1Arg: arginine; Met: methionine; Lys: lysine
2cat premix: vitamins, microminerals, and taurine
Palatability tests were performed to compare Cat diet E to Cat diets A and C.
a) A Monadic Feeding Trial was Performed with Diets C and E.
As shown in Table 8 below, average consumptions per meal were significantly different between Cat Diet C and Cat diet E, the latter being less palatable.
As shown in Table 9 below, consumptions were significantly different between Cat diet A and Cat Diet E, the latter being less palatable.
This demonstrates that Cat Diet E having an ingredient formulation different from those of Cat Diets A and C, and thus not according to the invention, but having a similar nutritional composition to those of Cat Diets A and C, is less palatable than both Cat Diets according the invention. If only one of both essential conditions according to the invention, which are a specific ingredient formulation and a specific nutritional composition, is not respected, the palatability of the resulting cat food is decreased compared to a cat food according to the invention.
In this example, two nutritionally-balanced food compositions in the form of kibbles, suitable for consumption by cats, and obtained after an extrusion process, were prepared. Those 2 cat foods were formulated in order to meet the AAFCO nutrient recommendations.
There were also formulated in a way to have a specific ingredient formulation comprising some specific ingredients, each present at a specific level, and a specific nutritional composition.
As shown in Table 10 below, diets A and diet F were formulated in order to have from about 11 to about 22% rice, from about 5 to about 22% corn gluten, from about 8 to about 27% poultry meal by-products, from about 3 to about 22% corn, from about 0.9 to about 5% whole dried eggs, from about 0.5 to about 5.5% fiber source, from about 0.5 to about 5.5% fish material, from about 0.9 to about 7% yeast, from about 0.3 to about 5% vitamins and/or microminerals and/or taurine.
Diet A was characterized by a nutritional composition comprising at least, in % by weight of the diet, from about 3 to about 8.5% moisture, from about 33 to about 42% protein, from about 9.5 to about 18% fat, from about 4 to about 10% ashes, from about 4 to about 10.5% total fibers and from about 20 to about 30.5% starch.
However, Diet F was formulated to have a nutritional composition different from those according to the invention.
1Arg: arginine; Met: methionine; Lys: lysine
2cat premix: vitamins, microminerals, and taurine
A monadic feeding trial was performed with diets A and F.
As shown in Table 11 below, average consumptions per meal were significantly different between Cat Diets A and F, Cat Diet F being less palatable.
This demonstrates that Cat Diet F having an ingredient formulation in the same ingredient ranges as Cat Diet A, thus according to the invention, but having a different nutritional composition, is less palatable than Cat Diet A.
Thus, if only one of both essential requirements as per the invention, i.e., a specific ingredient formulation and a specific nutritional composition, is not respected, the palatability of the resulting cat food is decreased compared to a cat food according to the invention.
In this example, four nutritionally-balanced food compositions in the form of kibbles, suitable for consumption by cats, and obtained after an extrusion process, were prepared. Those 4 cat foods were formulated in order to meet the AAFCO nutrient recommendations.
They were also formulated in a way to have a specific ingredient formulation comprising some specific ingredients present at a specific level, with a focus on the dried whole eggs ingredient in particular, and a specific nutritional composition.
As shown in Table 12 below:
Accordingly, neither Diet G nor Diet Control H is according to the invention.
Accordingly, Diet J but not Diet Control K is according to the present invention.
1Arg: arginine; Met: methionine; Lys: lysine
2Cat premix: vitamins, microminerals, and taurine
Palatability versus tests were performed to compare Cat diet G to Cat diet control H and Cat Diet J to Cat Diet Control K
As shown in Table 13 below, consumptions were significantly different between Cat diet G and Cat diet Control H, Cat Diet G being less palatable, and between Cat Diet J and Cat Diet control K, Cat diet J being more palatable.
This demonstrates that Cat Diet G having the ingredient formulation according to the ranges of the invention is not more palatable than Diet control H which does not fulfill all ingredient formulation requirements of the invention. Nevertheless, none of those diets respects the essential nutritional composition as defined in the invention. Diet G is even less palatable than Control Diet H.
On the contrary, Cat Diet J having both the ingredient formulation and the nutritional composition according to the invention is more palatable than Cat Diet control K having the same nutritional composition but not the same ingredient formulation (dried whole eggs are missing in Diet Control K).
Thus, if at least one of both essential requirements of the invention as claimed, i.e., a specific ingredient formulation and a specific nutritional composition, is not fulfilled, the palatability of the resulting cat food is decreased compared to a cat food fulfilling both requirements according to the invention.
All these examples show that the combination of:
a) an ingredient formulation comprising at least, in % by weight of the dry cat food, from about 11 to about 22% rice, from about 5 to about 22% corn gluten, from about 8 to about 27% poultry meal by-products, from about 3 to about 22% corn, from about 0.9 to about 5% whole dried eggs, from about 0.5 to about 5.5% fiber source, from about 0.5 to about 5.5% fish material, from about 0.9 to about 7% yeast, from about 0.3 to about 5% vitamins and/or microminerals and/or taurine;
and
b) a nutritional composition comprising at least, in % by weight of the dry cat food, from about 3 to about 8.5% moisture, from about 33 to about 42% protein, from about 9.5 to about 18% fat, from about 4 to about 10% ashes, from about 4 to about 10.5% total fibers and from about 20 to about 30.5% starch, allows the manufacturing of palatable dry cat foods.
Number | Date | Country | Kind |
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14306758.5 | Nov 2014 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/075173 | 10/29/2015 | WO | 00 |