Patent Description:
Expanded or popped snacks have become an increasingly popular type of snack product in recent years, especially for infants and toddlers. It is known that infants and toddlers may consume up to <NUM>% of their calories from snack products; therefore, it is desirable to include nutritious, wholesome ingredients in these products. However, most expanded or popped snacks include topical flavors and/or nonnutritive sweeteners (NNS) rather than natural ingredients to meet the aroma, taste, and texture requirements of consumers. At most, the expanded or popped snacks may include a minimal amount of fruit (such as in the form of a puree or juice concentrate) for the purpose of claiming the presence of "natural flavors" in the resulting product; however, no expanded or popped snack includes enough fruit or vegetable to provide even a fraction of a serving of fruit or vegetable to the consumer.

The current industry method for producing expanded or popped snacks includes the use of Direct Expansion (DX) technology. DX technology, by nature, maximizes efficiency by minimizing moisture in the dough so that there is less process waste from the dough to an expanded snack. However, current DX technology generates high levels of process contaminants (such as, but not limited to, acrylamide and furan) during processing due to the high temperatures and pressures utilized.

<CIT> relates to snack food and to a method of manufacturing a plurality of snack food pieces and describes a product having a dry product basis of <NUM> wt% apple pomace, <NUM> wt% potato starch, <NUM> wt% pregelatinised potato starch, <NUM> wt% wholegrain buckwheat, <NUM> wt% precooked wholegrain, and <NUM> wt% salt.

Therefore, there is a need in the art for new and improved expanded/popped snack products that include a sufficient amount of natural ingredient(s) and minimal to no levels of process contaminants that overcome the disadvantages and defects of the prior art. It is to such snack products, as well as methods of producing and using same, that the present disclosure is directed.

As utilized in accordance with the present disclosure, the following terms, unless otherwise indicated, shall be understood to have the following meanings:.

The use of the term "a" or "an" when used in conjunction with the term "comprising" in the claims and/or the specification may mean "one," but it is also consistent with the meaning of "one or more," "at least one," and "one or more than one. " As such, the terms "a," "an," and "the" include plural referents unless the context clearly indicates otherwise. Thus, for example, reference to "a compound" may refer to one or more compounds, two or more compounds, three or more compounds, four or more compounds, or greater numbers of compounds. The term "plurality" refers to "two or more.

The use of the term "at least one" will be understood to include one as well as any quantity more than one, including but not limited to, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, etc. The term "at least one" may extend up to <NUM> or <NUM> or more, depending on the term to which it is attached; in addition, the quantities of <NUM>/<NUM> are not to be considered limiting, as higher limits may also produce satisfactory results. In addition, the use of the term "at least one of X, Y, and Z" will be understood to include X alone, Y alone, and Z alone, as well as any combination of X, Y, and Z. The use of ordinal number terminology (i.e., "first," "second," "third," "fourth," etc.) is solely for the purpose of differentiating between two or more items and is not meant to imply any sequence or order or importance to one item over another or any order of addition, for example.

The use of the term "or" in the claims is used to mean an inclusive "and/or" unless explicitly indicated to refer to alternatives only or unless the alternatives are mutually exclusive, although the disclosure also supports a definition that refers to only alternatives and "and/or. " For example, a condition "A or B" is satisfied by any of the following: A is true (or present) and B is false (or not present), A is false (or not present) and B is true (or present), and both A and B are true (or present).

As used herein, any reference to "one embodiment," "an embodiment," "some embodiments," "one example," "for example," or "an example" means that a particular element, feature, structure, or characteristic described in connection with the embodiment is included in at least one non-limiting embodiment. The appearance of the phrase "in some embodiments" or "one example" in various places in the specification is not necessarily all referring to the same embodiment, for example. Further, all references to one or more embodiments or examples are to be construed as non-limiting to the claims.

Throughout this application, the term "about" is used to indicate that a value includes the inherent variation of error for a composition, product, etc., the method being employed to determine the value, or the variation that exists among the study subjects. For example, but not by way of limitation, when the term "about" is utilized, the designated value may vary by plus or minus twenty percent, or fifteen percent, or twelve percent, or eleven percent, or ten percent, or nine percent, or eight percent, or seven percent, or six percent, orfive percent, or four percent, or three percent, or two percent, or one percent from the specified value, as such variations are appropriate to perform the disclosed methods and as understood by persons having ordinary skill in the art. The term "about" can also be understood to refer to numbers in a range of numerals. Moreover, all numerical ranges herein should be understood to include all integers, whole or fractions, within the range.

As used in this specification and claim(s), the words "comprising" (and any form of comprising, such as "comprise" and "comprises"), "having" (and any form of having, such as "have" and "has"), "including" (and any form of including, such as "includes" and "include"), or "containing" (and any form of containing, such as "contains" and "contain") are inclusive or openended and do not exclude additional, unrecited elements or method steps.

As used herein, the term "substantially" means that the subsequently described event or circumstance completely occurs or that the subsequently described event or circumstance occurs to a great extent or degree. For example, when associated with a particular event or circumstance, the term "substantially" means that the subsequently described event or circumstance occurs at least <NUM>% of the time, or at least <NUM>% of the time, or at least <NUM>% of the time, or at least <NUM>% of the time. For example, the term "substantially adjacent" may mean that two items are <NUM>% adjacent to one another, or that the two items are within close proximity to one another but not <NUM>% adjacent to one another, or that a portion of one of the two items is not <NUM>% adjacent to the other item but is within close proximity to the other item.

As used herein, the term "added" is understood to refer to an element that is introduced into a composition and not to the element as it may naturally inherently exist in a composition.

When the content of one ingredient is expressed as "w/w," this expression indicates weight percentage (the ratio or percentage of one substance out of the total) of the ingredient in the composition. When the content of one ingredient is expressed as "w/w dry matter" or "dry w/w," these expressions indicate dry weight percentage (the ratio or percentage of one substance out of the total) of the ingredient in the dry composition.

The term "concentration ratio" as used herein will be understood to indicate a ratio between concentrations of odorants measured in the same sample of heat treated product.

The term "concentration factor" as used herein will be understood to indicate a ratio between concentrations of a single odorant (or other substance) measured in two different samples.

The term "sugar" or "sugars" as used herein includes available monosaccharides (such as, but not limited to, galactose, fructose, and glucose), available disaccharides (such as, but not limited to, sucrose, lactose, and maltose), or mixtures thereof.

The term "reducing sugar" as used herein refers to any sugar that is capable of acting as a reducing agent because it has a free aldehyde group or a free ketone group or is capable of forming such a group in solution through isomerization. Non-limiting examples of reducing sugars include: fructose, glucose, xylose, tagatose, rhamnose, maltose, lactose, fucose, arabinose, and galactose, as well as any mixtures thereof.

The term "flavor" and "flavors" as used herein refers to the aroma (volatile compounds) and the taste (non-volatile compounds) which are comprised in a food or beverage product. Such flavor can be detected or assessed by different means, including for example (but not by way of limitation) sensory and analytical means. In one embodiment, the flavor generated according to the present disclosure is delivered by volatile compounds.

The term "shelf-stable" as used herein refers to the ability of a food product to be safely stored and sold in a sealed container at ambient or room temperature while still having a useful shelf life in which the taste, texture, and nutritional aspects (i.e., nutritional integrity, nutritional potency, etc.) of the product is retained. Examples of periods considered to be a "useful shelf life" includeat least about two months, at least about three months, at least about four months, at least about five months, at least about six months, at least about twelve months, and longer.

As used herein, the term "thermal processing" refers to a food sterilization technique in which the food is heated at a temperature high enough to destroy microorganisms and enzymes present therein. The specific amount of time required depends upon the specific food and the growth habits of the enzymes or microorganisms. Both the texture and the nutritional content of the food may be altered due to thermal processing. Some examples of thermal processing include: Retort, Ultra-High Temperature (UHT) or Aseptically processing, pasteurization, ultra-pasteurization, hot fill, Extended Shelf Life (ESL), Microwave-Assisted Thermal Sterilization (MATS), High- and Ultra-High-Pressure Processing (HPP / UHPP), and High-Intensity Light Pulse (HILP) processing, as well as others that are recognized in the industry, and any combination thereof.

As used herein, the term "fruit" or "fruit ingredient" is intended to include fruit solids, including (but not limited to) fresh fruits, fruit powder, fruit puree, fruit paste, and combinations thereof, as well as any form of fruit liquid (including, but not limited to, fruit juice or fruit juice concentrates). The raw fruit ingredient may be utilized with or without its skin or peel.

As used herein, the term "vegetable" or "vegetable ingredient" is intended to include vegetable solids, including (but not limited to) fresh vegetables, vegetable powder, vegetable puree, vegetable paste, and combinations thereof, as well as any form of vegetable liquid (including, but not limited to, vegetable juice or vegetable juice concentrate). The raw vegetable ingredient may be utilized with or without its skin or peel.

Turning now to the methods of the present disclosure, these methods provide, for the first time, direct expansion, air popped, and/or compression popped snack products that have a high content of real fruit(s) and/or vegetable(s) and a reduced level of process contaminant(s) (such as acrylamide and/or furan) and that are suitable for children aged <NUM> months to <NUM> months. The methods allow for the use of natural single-strength or multi-strength fruit and/or vegetable ingredients (such as purees and/or powders) as ingredients in direct expansion, air popped, and/or compression popped snacks that are developmentally appropriate for children and that have, for example, reduced acrylamide levels.

Certain embodiments of the present disclosure are directed to a shelf stable, expanded or popped snack product designed for consumption by a child; in particular embodiments, the product is designed to be developmentally appropriate for consumption by a child aged between about <NUM> months to about <NUM> months. The expanded or popped snack product includes at least one whole grain ingredient in combination with at least one fruit ingredient and/or at least one vegetable ingredient. The fruit and/or vegetable ingredient(s) is present in a substantial amount so that a single serving of the product comprises at least about <NUM> serving of fruit and/or vegetable. In addition, the expanded or popped snack product includes one or more additional ingredients, such as , at least one processing aid, at least one added vitamin or mineral, added water, and the like.

A single serving of the expanded or popped snack product comprises any level of serving(s) of fruit and/or vegetable that allows the product to be a nutritious and wholesome snack and allows the product to function in accordance with the present disclosure. According to one embodiment, , a single serving of the product comprises a serving amount of fruit and/or vegetable of at least about <NUM> serving, at least about <NUM> serving, at least about <NUM> serving, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, at least about <NUM> servings, and higher servings. According to another embodiment, the serving amount of fruit and/or vegetable present in the product is in a range of any of the values listed above, such as a range of from about <NUM> to about <NUM> servings, a range of from about <NUM> to about <NUM> servings, a range of from about <NUM> to about <NUM> servings, etc..

The fruit and/or vegetable ingredient(s) present in the expanded or popped snack product may be single-strength (i.e., a single fruit or vegetable ingredient) or multi-strength (i.e., two or more fruit and/or vegetable ingredients). According to one embodiment, when multi-strength, the expanded or popped snack product contains two or more fruit ingredients, two or more vegetable ingredients, or one or more fruit ingredients in combination with one or more vegetable ingredients.

The fruit and/or vegetable ingredient(s) may be provided in any form such as solids, liquids, purees, powders, pastes, juices, etc. In a particular embodiment, the fruit and/or vegetable ingredient comprises one or more fruit and/or vegetable puree(s).

Any type of fruit known in the art may be utilized in accordance with the present disclosure. Specific examples of fruit ingredients include strawberry, pear, apple, avocado, banana, blackberry, blueberry, cherry, orange, clementine, tangerine, apricot, plum, prune, kiwifruit, mango, cantaloupe, melon, grape, raisin, grapefruit, raspberry, cranberry, jackfruit, lemon, lime, watermelon, peach, nectarine, pineapple, and the like, as well as any combinations thereof.

Any type of vegetable ingredient known in the art may be utilized in accordance with the present disclosure. Specific examples of vegetable ingredients include tomato, spinach, cauliflower, carrot, potato, squash, sweet potato, kale, beet, chickpea, broccoli, brussel sprouts, cabbage, okra, green bean, lettuce, mushroom, pea, various types of legumes, and the like, as well as any combinations thereof.

The fruit and/or vegetable ingredient(s) may be present in the expanded or popped snack product at any concentration that allows the ingredient(s) to provide the serving level described herein above and allows the product to be produced and function in accordance with the present disclosure. According to one embodiment, the fruit and/or vegetable ingredient(s) is present at any percent concentration (dry w/w), including: about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, at least about <NUM>%, at least about <NUM>%, at least about <NUM>%, and the like. In another embodiment, the concentration of the fruit and/or vegetable ingredient(s) is present in an amount in a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, and the like.

Any type of whole grain ingredient known in the art may be utilized in accordance with the present disclosure. Specific examples of whole grain ingredients include rice flour, wheat flour, tapioca flour, whole grain corn flour, and the like, as well as any combinations thereof.

The at least one whole grain ingredient is present in the expanded or popped snack product at any concentration that allows the product to be produced and function in accordance with the present disclosure. In one embodiment, the whole grain ingredient(s) is present at any percent concentration (dry w/w), including about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, and about <NUM>%, as well as any value therebetween. In another embodiment, the concentration of the whole grain ingredient(s) is present in an amount in a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, and the like.

In a particular embodiment, the at least one fruit and/or vegetable ingredient is present in a range of from about <NUM>% to about <NUM>% dry w/w of the product (in reconstituted form, as described herein below), and the at least one whole grain ingredient is present in an amount in a range of from about <NUM>% to about <NUM>% dry w/w of the product (in reconstituted form). In a further particular embodiment, the at least one whole grain ingredient comprises rice flour and wheat flour, and the rice flour is present in a range of from about <NUM>% to about <NUM>%, while the wheat flour is present in a range of from about <NUM>% to about <NUM>% dry w/w of the product (in reconstituted form).

In one embodiment, the expanded or popped snack product includes , at least one processing aid. In one embodiment processing aids are selected from the group consisting of calcium carbonate, citric acid, and asparaginase, as well as any combinations thereof. Processing aid(s) serve to increase expansion and to mitigate formation of processing contaminants such as acrylamide and furan.

In one embodiment, the at least one processing aid is present at any percent concentration (dry w/w), including about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, and the like, as well as any value therebetween. In another embodiment, the concentration of the at least one processing aid is present in the range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, a range of from about <NUM>% to about <NUM>%, and the like.

One of the advantages of the methods of the present disclosure is that the production of process contaminants (such as acrylamide and furan) is reduced when compared to prior art methods. The expanded or popped snack product has an acrylamide concentration of less than about <NUM> ppm.

In one embodiment, the expanded or popped snack product may further contain one or more added vitamin(s) or mineral(s) to increase the nutritional value of the product. Examples of vitamins and minerals that may be added include calcium, iron, Vitamin E, thiamin, niacin, Vitamin B6, Vitamin B12, Vitamin A, Vitamin C, riboflavin, folate, zinc, phosphorous, and the like, as well as any combinations thereof. In addition, the amount of each vitamin and mineral present in a single serving of the expanded/popped snack product may provide any percentage of Daily Value therefor, such as about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, about <NUM>%, and the like. Also, the percent Daily Value may fall within a range of any two of the values listed above. The Daily Value may be based upon the value for an infant (i.e., up to <NUM> months) or for a child (i.e., aged <NUM> - <NUM> months or <NUM>-<NUM> months).

In addition, in particular embodiments, the expanded or popped snack product has a moisture content of about <NUM>% or greater (dry w/w).

Further, in particular embodiments, the expanded or popped snack product contains substantially no topical flavors and substantially no nonnutritive sweeteners (NNS).

For example, the texture of the expanded or popped snack product should be age appropriate for children aged in a range of from about <NUM> months to about <NUM> months, as per the model defined in Applicant's <CIT>. This model includes, but is not limited to, the attributes of ease of swallow, residual mouthcoating, firmness, and breakdown, as shown in Table <NUM> of the '<NUM> patent (which is reproduced herein below as Table <NUM>).

Certain embodiments of the present disclosure are directed to a method of producing an expanded or popped snack product as described in detail herein above. The method comprises at least the steps of: (a) forming a plurality of pellets from a dough, wherein the dough comprises at least one whole grain ingredient in combination with at least one fruit ingredient and/or at least one vegetable ingredient, each as described in detail herein above; and (b) subjecting the pellets to a treatment step to form the expanded or popped snack product, wherein the treatment step is selected from the group consisting of direct expansion, air popping, and compression popping.

In a certain embodiment, a single serving of the product so produced comprises at least about <NUM> serving of fruit and/or vegetable, such as from about one to about three servings of fruit and/or vegetable.

The claimed product has an acrylamide concentration of less than about <NUM> ppm.

In a certain embodiment, step (a) is further defined as extruding the dough through an extrusion die to form the plurality of pellets. Extrusion methods and methods of producing pellets from extruded dough are well known in the art; therefore, no further description thereof is considered necessary for performance of the methods of the present disclosure.

Each of the ingredients may be present in an amount as described in detail herein above. In a certain embodiment, the fruit and/or vegetable ingredient(s) is present in the dough in an amount in a range of from about <NUM>% to about <NUM>% dry w/w, and the at least one whole grain ingredient is present in the dough in an amount in a range of from about <NUM>% to about <NUM>% dry w/w. In addition, the at least one whole grain ingredient may comprise rice flour and wheat flour, wherein the rice flour is present in the dough in a range of from about <NUM>% to about <NUM>%, and the wheat flour is present in the dough in a range of from about <NUM>% to about <NUM>% dry w/w.

In one embodiment, the dough further comprises at least one processing aid, as described in detail herein above. The at least one processing aid is present at any of the concentrations described herein above.

In one embodiment, the dough comprises added water in an amount in a range of from about <NUM>% to about <NUM>% dry w/w, such that the dough has a total moisture content (puree plus water) in a range of from about <NUM>% to about <NUM>% dry w/w. In one embodiment, the resultant expanded or popped snack product has a moisture content of about <NUM>% or greater (dry w/w).

This Example is directed toward producing an age appropriate expanded or popped snack product with a high fruit/vegetable content. "Puff"-type snack products containing whole grain ingredients are currently on the market; however, these products do not contain any natural fruit and/or vegetable ingredients or only a minimal amount thereof to act as topical flavoring. Therefore, there is a desire to produce "puff"-type snack products that include a substantial amount of fruit and/or vegetable ingredient(s) to provide the consumer with at least a portion of a serving of fruit/vegetable within each single serving of the snack product.

The current industry method for producing expanded or popped snacks includes the use of Direct Expansion (DX) technology. DX technology, by nature, maximizes efficiency by minimizing moisture in the dough so that there is less process waste from the dough to an expanded snack. However, current DX technology generates high levels of process contaminants (such as, acrylamide and furan) during processing due to the high temperatures and pressures utilized.

The use of pellets allows for significantly higher moistures in the dough, as there is an intermediate stage before expansion of the product. The pellet process allows for a much wider variation in parameters than DX products (such as temperature, pressure, and moisture levels, among others), thereby allowing for the use of processing aids selected from the group consisting ofcalcium carbonate, citric, acid, and/or asparaginase that assist with expansion and that limit the creation of process contaminants.

The methods of the present disclosure combine these aspects together to utilize the higher moisture levels of a pellet so that single-strength and multi-strength fruit and/or vegetable puree(s) are added to the dough in sufficient amounts along with the addition of processing aid(s) to create a high content fruit and/or vegetable expanded snack product that is low in acrylamide levels and is developmentally appropriate for children such as those aged <NUM>-<NUM> months. The methods of the present disclosure also include the creation of the expanded/popped snack product whilst foregoing the efficiency of a direct expansion process by increasing the moisture content of the dough by adding single- and/or multi-strength puree to the dough prior to direct expansion of the product.

In developing recipes for the expanded/popped snack products containing a high fruit/vegetable content, a matrix was developed to examine potential batch compositions to determine how much fruit/vegetable ingredient would need to be present in the formulations to make a substantial regulatory claim. This matrix is shown in <FIG> and Table <NUM>. Using these batch compositions, the amount of moisture that needed to be present was calculated as shown in Table <NUM>.

From the dough, the product would then be dried and popped into the finished product, which is a <NUM>% moisture puff. By analyzing how much moisture was flashed off during drying and expansion, the ratio of fruit/vegetable solids remaining in the final product was determined, as shown in Table <NUM>.

Next, the regulatory serving sizes for each fruit/vegetable ingredient were determined so that the target amounts to be present in the expanded or popped snack product could be understood. By using the USDA database for food servings and average water content, the amount of solids in a ¼ cup serving were determined, as shown in Table <NUM>.

Using the ratios of the solids in the finished product, the number of servings of fruit/vegetable present in the finished product can be extrapolated based on the USDA serving sizes and the current popped snack package size of <NUM>. This is a "reconstituted" volume, which is equivalent to the amount of fruit/vegetable puree added to the recipe. Use of reconstituted volumes is not allowed from a regulatory standpoint when fruit or vegetable powders or concentrates are utilized, as it is argued that essential elements are lost in the evaporation process; however, since the entire fruit/vegetable is present in a puree, these losses do not apply. Therefore, the finished product delivers the number of servings as shown in Table <NUM>.

As can be seen, the amount of servings present in the finished product depended heavily upon which ingredients were used. For example, tomato, spinach, cauliflower, strawberry, and pear provided the most servings per volume of puree. Tomato and spinach only required <NUM>% puree in the dough to deliver a full serving, while strawberry only required <NUM>% puree in the dough to deliver a full serving. In contrast, cauliflower required <NUM>% puree in the dough to deliver a full serving, while apple required <NUM>% puree in the dough to deliver one-half (<NUM>) of a serving.

From this information on serving size capability of each ingredient, it was possible to optimize the ratios of each recipe to deliver the target of at least one serving of fruit or vegetable. Two recipes were then developed for each ingredient combination (a high percentage and a low percentage fruit/vegetable) to understand the capability of each; the exception was apple, as any amount lower than <NUM>% did not yield a sufficient serving size of fruit content, and therefore only a single recipe was developed. These recipes were chosen because they provide a wide spectrum of information about the capability of the methods of the present disclosure. Puree was used in an amount in a range of from <NUM>% to <NUM>%, and a range of <NUM> to <NUM> servings of fruit/vegetables in the finished product were achieved, as shown in Table <NUM>.

In the next stage, pellets were created by extruding the dough mixture containing puree and cutting them into small star-shaped pieces which could subsequently be expanded using a hot air popper. However, it should be noted that the star shape is simply for purposes of illustration only; any type of shape and size may be utilized for the expanded/popped snack products produced in accordance with the present disclosure.

In addition to finalizing the recipes, different extruder settings were locked in to create a variable to determine texture and developmental appropriateness by choosing three Screw Speeds for each recipe, as these were found to be directly correlated to the Specific Mechanical Energy (SME) input by the extruder and were easy parameters to adjust when running the equipment. Depending on the SME, the texture will change dramatically; a low SME product will create more of a "Cheeto" texture that is very crunchy and does not dissolve in the mouth as easily, whereas a high SME will create a texture that is much softer and dissolves easily like current "Puff"-type products do. <FIG> graphically illustrates the samples that were collected during this test.

Two tanks with pumps that provided flow meter controlled addition into the extruder were utilized, and this setup provided for easy addition of up to two different purees at a time. <FIG> depicts the tank and pump used in one of the recipes. <FIG> depicts the machine layout and extruder screw profile that was utilized in the production of the product. <FIG> depicts an extrusion die that was utilized in the production of the product. However, these structures are depicted for purposes of example only and are not to be considering limiting of the present disclosure.

<FIG> depicts extrusion of a tomato puree-containing dough out of an extruder in accordance with the present disclosure.

Using the methods described herein above, pellets were produced from many different fruit and/or vegetable puree-containing doughs, as shown in <FIG>. In particular, <FIG> contains a set of strawberry pellets made as described herein and containing <NUM>% strawberry puree and produced at varying screw speeds (left, <NUM> rpm; middle, <NUM> rpm; and right, <NUM> rpm). As can be seen, the pellets started to bubble and pop at the higher screw speeds because the dough started to flash and expand at the die plate exiting the extruder with the higher energy input. Lower screw speeds alleviated this and created a much more even and properly gelatinized pellet. Also, it is noted that the pellets shown in <FIG> exhibited minor browning of the strawberry puree but otherwise good coloration.

However, if higher energies are required to meet the texture or popping requirements of the product, then more energy can be input without flashing the dough by utilizing a two stage operation containing two extruders: one to cook the dough and input very high energy and shear to the product, and another to apply significant amounts of cooling and mixing to bring the dough back down to the proper levels to create a pellet.

In addition, multi-ingredient pellets produced as described herein are shown in <FIG>. These pellets contained apple puree and strawberry puree at <NUM>% and <NUM>%, respectively, and were extruded using a screw speed of <NUM> rpm.

Tomato pellets were also made as described herein and are shown in <FIG>. These tomato pellets contained <NUM>% puree and were produced using a screw speed of <NUM> rpm.

Following formation of the pellets by extrusion or other methods known in the art, the pellets can be subjected to any of air popping, compression popping, or direct expansion to produce the expanded/popped snack product. Methods and devices utilized for air popping, compression popping, and direct expansion are all well known in the art; therefore, no further description thereof is considered necessary for performance of the methods of the present disclosure.

<FIG> depicts popping equipment utilized (left panel), as well as some popped pellets that were produced as described above and using the popping equipment (right panel). Various times and temperatures can be utilized to obtain the desired amount of expansion. While some expansion was observed in the experiment shown in <FIG> (right panel), the level of expansion obtained was not as high as that of the current "puff"-type products.

Claim 1:
A shelf stable, expanded or popped snack product designed for consumption by a child, the expanded or popped snack product comprising:
at least one fruit ingredient and/or at least one vegetable ingredient;
at least one whole grain ingredient;
at least one processing aid selected from the group consisting of calcium carbonate, citric acid, asparaginase, and combinations thereof, wherein the at least one processing aid is present in the range of from about <NUM>% to about <NUM>% dry w/w of the product, and wherein the expanded or popped snack product has an acrylamide concentration of less than about <NUM> ppm; and
wherein a single serving of the product comprises at least about <NUM> serving of fruit and/or vegetable,
wherein shelf stable refers to the ability of a food product to be safely stored and sold in a sealed container at ambient or room temperature while still having a useful shelf life in which the taste, texture, and nutritional aspects of the product is retained for at least two months,
wherein the at least one fruit ingredient and/or at least one vegetable ingredient is present in an amount in a range of from about <NUM>% to about <NUM>% dry w/w of the product.