CA2208793C - Method of encapsulating food or flavor particles using warm water fish gelatin, and capsules produced therefrom - Google Patents

Abstract

This invention is directed to a method of forming microencapsulated food or flavor capsules as well as the capsules produced by the method. The method includes providing food or flavor particles to be encapsulated, and forming a mixture of a warm water fish gelatin and the food or flavor particles in aqueous media. The method further includes microencapsulating the particles with the gelatin at elevated temperatures by complex coacervation to form the microencapsulated capsules. If desired, the method may further include the step of separating the capsules. In a preferred form, the method is conducted at a temperature of about 33 ~C to about 35 ~C. Preferably, the warm water fish gelatin used in the encapsulation method has a bloom of from about 150 to about 300 bloom, more preferably from about 250 to about 300 bloom. Many different kinds of food or flavor particles may be used, such as for example, vegetable oil, lemon oil, garlic flavor, apple flavor or black pepper. The invention also is directed to the food or flavor capsules produced by the method.

Description

METHOD OF ENCAPSULATING FOOD OR FLAVOR PARTICLES USING WARM
WATER FISH GELATIN, AND CAPSULES PRODUCED THEREFROM

Backqround of the Invention This invention relates to microencapsulation of food or flavor particles, and more particularly to microencapsulation of ~ood or flavor particles by complex coacervation at elevated temperatures using a warm water fish gelatin.

U.S. Patent No. 5,035,896 to Apfel èt al. teaches water incoluble drugs coated by simple coacervation using a low bloom fish gelatin which coacervates at ambient temperature, i.e., room temperature of about 16~-27~C.
However, the '896 patent does not disclose the use of fish gelatin in encapsulating other kinds of particles.
Furthermcre, the '896 coacervation process is limited to ambient or room temperature coacervation.

European Patent Application 0347751 describes the formation of compositions containing fat-soluble substances such as fat-soluble vitamins. The substances are protected by a colloid which is fish gelatin rather than, as in previous compositions, gelatin from warm-blooded animals.
The compositions are provided in the form of matrix particles each having a matrix of droplets of the substance dispersed throughout the gelatin protective carrier.

WO93/19621 describes the formation of. aqueous liquid flavour oil capsules by microencapsulation of discrete droplets of emulsified flavour oil by coacervation in water. The coating layer comprises one or more colloidal materials. A preferred colloidal material is gelatin. In one example, coacervation is conducted at a temperature of 36~C.

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Summary cf the Invention lhis invention is directed to a method of forming microencapsulated ~ood or ~lavor capsules as well as the capsules produced by the method. The method includes providins food or flavor particles to be encapsulated, and forming a mixture of a warm water ~ish gelatin and the food or flavor particles in aqueous media. The method further includes mlcroencapsulating the particles with the gelatin at a temperature greater that 27~C by complex coacervation to form t:he microencapsulated capsules. If desired, the method m.~y further include the step of separating the capsules In a preferred form, the method is conducted at a temperature of about 330C to about 350C. Preferably, the warm water fish gelatin used in the encapsulation method has a bloom of from about 150 to about 300 bloom, more preferably from about 250 to about 300 bloom. hJlany different kinds of food or flavor particles may be used, such as~for example, vegetable oil, lemon oil, garlic flavor apple flavor or black pepper. The invention also is directed to 1he food or flavor capsules produced by the method.
This invention offers several benefits and advantages.
For example, the method provides a way of encapsulating food or flavor partic.es using fish gelatin instead of other gelatin such as bovine or porcine gelatin. AîsO, the fish gelatin employed is a kosher fish gelatin; therefore, any kosher food or flavor particle will remain kosher upon encapsulation. In addition, the coacervation method is cdnducted at elevated temperatures, and does not require ambient/rooln temperature for coacervation.

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Detailed Descrir~tion of the Invention The invention is directed to a method of forming mi~roencapsulated food or flavor capsules, as well as to the capsules produced from the method. The method includes providing food or flas~or particles to be encapsulated, and forming a mixture of a warm water fish gelatin and the food or flavor particles in an aqueous media. The method further includes microencapsulating the particles with the gelatin at elevated temperatures by complex coacervation to form the microencapsulated capsules.
The warm water fish gelatin used in the method may be anv warm water fish gelatin. However, in a preferred form of the invention, the fish gelatin has a bloom of from about 150 to about 30l~ bloom, and more preferably, a bloom of from about 250 to about 300 bloom. Such high bloom warm water fish gelatins are av~ilable from Food Industries Testing of Miami, Florida under the praduct name Gelcine KFX. One of the advantages of using the fish gel3tin is that it is kosher. Therefore, kosher food or flavor particles retain their kosher status upon encapsulation with the fish gelatin.
As stated above, the method further includes mic,roencapsulating the particles with the gelatin at elevated temperatures by complex coacervation. As used herein, "elevated temperatures" means temperatures above ambient or room terr~peratures, i.e., above 160-270C. During complex coacervation, a protein coating is formed over the food or flavor particles to produce ~ CA 02208793 1997-06-26 .
=' ~.-- W O96t20612 PCT~US95/16628 ,, microencapsulated capsules. The protein coating may then be cross ~ ~ . , ; linked by covalent or ionic bonding with a cross linking agent, and if - desired, the capsules may be spray dried or otherwise dewatered at a suitable temperature for the removal of water.
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- ~ 5 By employing the method of this invention, food or -~
- flavor particles in amounts of up to 95% by weight, typically within the range of about 50% to 95% by weight, are encapsulated in a ~ .
r protein coating, i.e., at a ratio of about 10:1 to about 5:1 of particles to coating. Usually, about 70% to about 95% by weight .
-- .
- . 10 particle encapsulation is achieved. In another feature of the .
~ ~ invention, a drying aid is added to the coacervated emulsion of food . .
- or flavor particles before spray drying or dewatering. This drying aid - has the effect of lubricating these spray dried, or otherwise , .
dewatered particles and provides for uniform distribution of the . : ...
~~ 15 particles.
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;.-~'!~ A variety of food or flavor particles may be encapsulated, such as for example, vegetable oil, lemon oil, garlic ~-~ flavor, apple flavor or black pepper. Examples of other flavor oils include flavoring aromatic compounds and/or oils, oleoresins and .
~. .
~-- -- 20 extracts derived from plants, leaves, flowers, fruits and so forth, and -- ~ combinations thereof. Flavor oils include cinnamon oil, oil of wintergreen, peppermint oil, bay oil, thyme oil, spearmint oil, cassia oil, and the like. Artificial, natural and synthetic fruit flavors such as ..
-~ i vanilla, and citrus oils including lemon, orange, grapefruit, lime, and .
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. .-- --W 096/20612 PCTrUS95/16628 fruit essences including apple, pear, peach, strawberry, cherry, and sa forth, may be used. These flavoring oils may be used individually or in a mixture as is well known in the art.
The coating layer, as prepared by complex coacervation camprises colloidal materials which must be hydrophilic, gellable and ionizable. Colloidal materials may be selected from the group consisting of a warm water fish gelatin, alginates, casein, gum arabic, carboxymethylcellulose and the like, and mixtures thereof.
Complex coacervation is practiced usually by first folming a solutjon of a first colloidal material, such as the warrn water fish gelatin, in water above its gelation temperature.
Separately, a second colloidal material, such as gum arabic or carboxymethylcellulose for example, is added to water to form a clear solution. The two solutions then are mixed, the temperature may be reduced, and the flavor oil is mixed into the resulting solution at 3 mixing speed to form the desired emulsion. Complex coacervation, or aggregation to uniformly distribute the colloidal materials around the food or flavor particles, then is carried out by diluting the emulsion with water, or adjusting the pH and allowing an el~psed time for the colloid to coat the particles. Then, in order to render the gelatin capsules insoluble, it is usually necessary to cross link the colloidal coating on the particles, and in a preferred form, glutaraldehyde is used to cross link the gelatin coating surrounding the particles. Alum also may be used to cross link the coated food : CA 02208793 1997-06-26 - W O96/20612 PCTrUS95/16628 or flavor particles.
., ., ~~ ~ It is preferred to add a drying aid to the slurry of coated microcapsules in aqueous medium prior to spray-drying or . ~ .. . .
- dewatering. Silicon dioxide is a preferred drying agent having a ., .~- 5 particle size of less than 400 mesh, but the fineness of the drying -- ~ agent is not critical. The coated flavor capsules are now ready for ~ . ~
~-- spray-drying and this may be accomplished by employing a spray-~- drying tower fitted with an air atomization nozzle for spraying - countercurrent to the heated airflow. The coated food or flavor . . .
- 10 capsules are delivered to the spray nozzle by a pump at a suitable = rate per hour. Atomization may be achieved in a number of ways.
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For example, air atomization, spinning disk or airless atomization may ~- ; be employed.
- The resulting food or flavored capsules may be prepared ... .
- . 15 in different forms, such as a liquid suspension or slurry (typically .- .- about 1% to about 40% by weight solids), a paste ~about 36% to -~- about 60% by weight solids), or a dry powder. The slurry form may .
have advantage in certain applications because of the benefits of .
particle cost savings, easy handling, and better particle containment . .
: 20 because of reduced particle volatility in the water. The aqueous , .
food or flavor capsules may be delivered by a pump at a suitable rate .
per hour in processing to afford easy handling.
~ The following examples illustrate the practice of this ~ invention. It will be understood, however, that these examples are , . . .
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-W O96/20612 PCTrUS95/16628 nat intended to limit the scope of the invention, which is to be ~ determined by the appended claims and their equivalents.
Ex~imole 1 Ar~u~D~ls Capsules of Flavor Particles and Cross-Linked W,~rm Water Fish Gelatin Coating An aqueous suspension of vegetable oil microcapsules was produced according to the method of the invention. The warm water fish gelatin 300 bloom Gelcine KFX supplied by Food Industry Testing of Miami, Florida was used to form 200 grams of a 10% fish gelatin solution at 330C. Then 100 grams of a 4% CMC!ARABIC
gum solution was prepared at room temperature. The gum and ge~atin solutions were combined followed by the addition of 160 grams of vegetable oil. 600 grams of dilution water at 350C was adl~ed to the emulsion, and the resulting solution was cooled over a 30-minute period to a temperature of about 250C. 2.5 grams of a 50% aqueous solution of gluteraldehyde was added in order to cross Iinlc the gelatin. The result was an excellent aqueous suspension of mirrocapsules. In addition, a similar batch of capsules were - prupared using the above steps, but substituting a 250 bloom warm water fish gelatin for the 300 bloom gelatin used above.
Additional aqueous suspensions of microcapsules were ~ prnpared using lemon oil, garlic flavor or apple flavor instead of the vegetable oil discussed above. The method conducted using these particular flavors also resulted in an excellent aqueous suspension of miorocapsules.

, CA 02208793 1997-06-26 - W O96/20612 PCTrUS95/16628 .
=- Exam~le 2 Spray-Dried, Free-Flowing Ç~rsules of Flavor Particles And Cross-Linked Warm Water Fish Gelatin Coating .
~ The aqueous suspensions of lemon oil, garlic flavor and .
- 5 apple flavor capsules prepared in Example 1 above were further .~
processed to form dry powders of flavor capsules. In order to form .- - the dry powders, silicon dioxide was mixed into the slurries or ~-: aqueous suspensions to act as a drying aid upon spray-drying. The ; ~ suspensions were then spray-dried using the spray-drying technique .
:~- 10 discussed above. This process resulted in dry, free flowing -- - microcapsules.
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Claims (9)

1. A process of microencapsulating food or flavor particles comprising the steps of providing food or flavor particles to be encapsulated, forming a mixture of a gelatin and the food or flavor particles in aqueous media, and microencapsulating the particles with the gelatin at a temperature greater than 27°C by complex coacervation to form microencapsulated capsules, characterised in that the gelatin is warm water fish gelatin.

2. A method as claimed in Claim 1 conducted at a preferred temperature of about 33°C to about 35°C.

3. A method as claimed in either Claim 1 or Claim 2 further comprising the step of separating said capsules.

4. A method as claimed in any preceding claim wherein the fish gelatin has a bloom of from about 150 to about 300 bloom.

5. A method as claimed in any preceding claim wherein the fish gelatin has a bloom of from about 250 to about 300 bloom.

6. A method as claimed in any preceding claim wherein the particles to be encapsulated are selected from the group consisting of vegetable oil, lemon oil, garlic flavor, apple flavor and black pepper.

7. A method as claimed in any one of Claims 1 to 5 wherein the particles to be encapsulated are liquid flavor particles.

8. A product produced by a method as claimed in any preceding claim.

9. A product as claimed in Claim 8 wherein the product is kosher.