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WO2007098756A1 - Procédé d'encapsulation haute capacité - Google Patents

Procédé d'encapsulation haute capacité Download PDF

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Publication number
WO2007098756A1
WO2007098756A1 PCT/DK2006/000126 DK2006000126W WO2007098756A1 WO 2007098756 A1 WO2007098756 A1 WO 2007098756A1 DK 2006000126 W DK2006000126 W DK 2006000126W WO 2007098756 A1 WO2007098756 A1 WO 2007098756A1
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WO
WIPO (PCT)
Prior art keywords
particles
coating
unit
coated
process according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/DK2006/000126
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English (en)
Inventor
Poul Bach
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Novozymes AS
Original Assignee
Novozymes AS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Novozymes AS filed Critical Novozymes AS
Priority to PCT/DK2006/000126 priority Critical patent/WO2007098756A1/fr
Priority to EP06706097A priority patent/EP1994130A1/fr
Publication of WO2007098756A1 publication Critical patent/WO2007098756A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2/00Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic
    • B01J2/006Coating of the granules without description of the process or the device by which the granules are obtained
    • AHUMAN NECESSITIES
    • A21BAKING; EDIBLE DOUGHS
    • A21DTREATMENT OF FLOUR OR DOUGH FOR BAKING, e.g. BY ADDITION OF MATERIALS; BAKING; BAKERY PRODUCTS
    • A21D8/00Methods for preparing or baking dough
    • A21D8/02Methods for preparing dough; Treating dough prior to baking
    • A21D8/04Methods for preparing dough; Treating dough prior to baking treating dough with microorganisms or enzymes
    • A21D8/042Methods for preparing dough; Treating dough prior to baking treating dough with microorganisms or enzymes with enzymes
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23KFODDER
    • A23K20/00Accessory food factors for animal feeding-stuffs
    • A23K20/10Organic substances
    • A23K20/189Enzymes
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23KFODDER
    • A23K40/00Shaping or working-up of animal feeding-stuffs
    • A23K40/30Shaping or working-up of animal feeding-stuffs by encapsulating; by coating
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23LFOODS, FOODSTUFFS OR NON-ALCOHOLIC BEVERAGES, NOT OTHERWISE PROVIDED FOR; PREPARATION OR TREATMENT THEREOF
    • A23L29/00Foods or foodstuffs containing additives; Preparation or treatment thereof
    • A23L29/06Enzymes
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23PSHAPING OR WORKING OF FOODSTUFFS, NOT FULLY COVERED BY A SINGLE OTHER SUBCLASS
    • A23P10/00Shaping or working of foodstuffs characterised by the products
    • A23P10/30Encapsulation of particles, e.g. foodstuff additives
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23PSHAPING OR WORKING OF FOODSTUFFS, NOT FULLY COVERED BY A SINGLE OTHER SUBCLASS
    • A23P20/00Coating of foodstuffs; Coatings therefor; Making laminated, multi-layered, stuffed or hollow foodstuffs
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2/00Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic
    • B01J2/16Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic by suspending the powder material in a gas, e.g. in fluidised beds or as a falling curtain
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D17/00Detergent materials or soaps characterised by their shape or physical properties
    • C11D17/0039Coated compositions or coated components in the compositions, (micro)capsules

Definitions

  • the present invention relates to a high capacity process for coating of particles, with improved ability for controlling product quality, comprising a coating step wherein particles are coated a selection step wherein it is determined whether or not the particles need to be recoated and a holding step wherein the particles can be stored until there is free capacity for the particles to be transferred back to the coating unit.
  • the present invention further relates to coated particles produced by said process.
  • the process consists of recycling particles between at least three units connected in a loop.
  • Conventional fluid bed coaters known in the art are either of the batch type or of the continuous type.
  • the batch fluid bed coater is characterised by processing the same initial load of par- tides, i.e. no new particles are added or removed during the processing time of the batch.
  • new solid particles are fed into the coater at a constant rate and the corresponding number, of coated particles are continuously removed from the fluid bed coater if no agglomeration takes place.
  • the batch fluid bed has several advantages over a continuous fluid bed when thin uniform lay- ers have to be applied as all particles have exactly the same residence time (equal to the processing time - also called the batch time).
  • the continuous operating fluid bed coater has a certain residence time distribution, which results in a corresponding distribution of coating thicknesses.
  • the continuous fluid bed coater has, however, the advantage that much higher capacities may be attained especially when large quantities of coating material have to be applied.
  • a batch fluid bed is only capable of operating with a 100 % increase in bed hold-up mass during the batch time i.e. the finished product has one kg of coating pr. kg initial material.
  • a continuous fluid bed may be designed to accommodate any increase in coating mass. It is therefore desirable to obtain a process which posses the advantages from both types of fluid bed coaters; is capable of handling large amounts of particles to be coated and which is capable of producing compositions of particles with a narrow particle size distribution even with a large increase in mass after coating.
  • Coating of particles is a time and space consuming process. Often it is necessary to recoat particles if the coated particles are not satisfactorily coated. In the search for a process which can provide means for coating large amounts of particles which needs to be coated more than once and furthermore provide control of a property related to the coating applied and defining whether or not the particles need more coating, we have developed the process of the invention.
  • One object of the present invention is to provide a process which provides a high throughput of coated particles.
  • a second object of the present invention is to provide a process which is capable of producing coated particles with a specific property e.g. specific particle size.
  • the present invention comprises the attractive properties of both types of known fluid bed coaters such that it enables a process where large amounts of coating materials may be added.
  • a first embodiment of the present invention is a process for coating of particles comprising the steps of: a) feeding the particles to be coated to a coating unit wherein said particles are coated; b) directly transferring the coated particles from the coating unit to a separator unit;; c) separating finished coated particles from unfinished coated particles ; d) removing the finished particles and transferring unfinished coated particles directly from the separator unit to a holding unit; e) directly transferring the unfinished particles from the holding unit to the coating unit for re-coating.
  • the particles can repeat this cycle two times, three times, four times, five times or an infinite number of times if needed.
  • a second aspect of the present invention involves the finished particles that are obtained by the process of the invention.
  • a third aspect of the invention is a composition comprising the particles that is obtained by the process of the invention.
  • Figure 1 shows a principal sketch of the invention comprising a coating unit, a separator unit and a holding unit.
  • Figure 2 shows one embodiment of the invention comprising a coating unit in the form of a continuous fluid bed coater, a separator unit and a holding unit.
  • the present invention provides a useful method for controlling a specific property somehow related to the coating of a coated particle e.g. particle size, size distribution, color, taste, odour, activity, shape etc.
  • a uniform coating thickness In the coating of proteins, e.g. enzymes it is very important that the coating thickness is well controlled so that a uniform coating thickness can be obtained.
  • a uniform coating thickness will make possible the production of a granulate having a well defined specific activity and is therefore desirable.
  • a "uniform coating” means that the variability of the relative coating mass between particles after coating is at the most 5% after a coating process resulting in an overall mass increase of more than 100 %.
  • the process makes it possible to adjust the thickness of the coating and the particle size of the particles which gives granular compositions with very narrow particle size distributions, as it is possible to rerun the particles for recoating if the coating thickness is too low or the particle sizes are too small.
  • the process of the invention can be used with success when coating particles with a pigmented coating. It might be necessary to recoat some particles several times to obtain the same color throughout the batch. With the process of the present invention it is possible to separate the particles and transfer the particles which need more pigmented coating to a hold- ing tank waiting for recoating.
  • the process of the invention When manufacturing particles comprising allergenic compounds, it is very important that the particles are coated sufficiently, resulting in low dust levels, this can be controlled by the process of the invention by checking the particles in the separator unit for activity and transferring the particles to the holding tank if the measured surface activity is too high.
  • the process of the invention furthermore makes it possible to adjust the activity of the particles by controlling the added coating mass.
  • the process of the invention can furthermore be used for controlling taste and odour where there is a need for coating particles which has a bad taste or bad odour which needs to be masked.
  • the coated particles are checked in the separator unit for the bad taste or odour and if the taste or odour is still present or significant the particles are transferred to the holding tank.
  • the process of the invention is a process for coating of particles, which consists of at least three units in connection.
  • the coating unit which is a continuous coating unit is directly connected to a separator unit which is directly connected to a holding unit which act as a holding tank for particles which needs to be recoated.
  • the word "directly” in the context of the present process means with a direct connection between the units, being e.g. a pipe, or a drying apparatus.
  • the process of the invention comprises the following steps: a) feeding the particles to be coated to a coating unit wherein said particles are coated; b) directly transferring the coated particles from the coating unit to a separator unit; c) separating finished coated particles from unfinished coated particles; d) removing the finished coated particles and transferring unfinished coated particles directly from the separator unit to a holding unit; e) directly transferring particles from the holding unit to the coating unit for re-coating.
  • a drying unit may be included in the process after the coating unit.
  • the process further comprises the following step: Transferring coated particles from the coating unit to a drying unit, wherein the coated particles are dried and transferring the dried particles to the separator unit.
  • the drying unit may be in- corporated in the coating unit.
  • the process of the invention comprises the following steps: a) feeding the particles to be coated to a coating unit wherein said particles are coated; b) drying the coated particles of a); c) directly transferring the dried particles to a separator unit; d) separating finished coated particles from unfinished coated particles; e) removing the finished coated particles and transferring unfinished coated particles directly from the separator unit to a holding unit; f) directly transferring particles from the holding unit to the coating unit for re-coating.
  • the particles are transported between the process units by any suitable transporting device known in the art e.g. pneumatic transport, belt or other conveyer types.
  • the particles provided to the process can either be added to the coating unit or to the holding unit In a particular embodiment the particles provided to the process is a batch of particles.
  • the process of the invention can be applied in order to provide almost any desired increase in total mass, wherein the total increase is set by the number of coating cycles applied.
  • the total mass increase of each particle is at least 100 %, particularly at least 200 %, more particularly at least 500 %.
  • the total mass increase of the particles are at least 100 %.
  • the dispersion number in the coating unit is less than 0.5 and the total mass increase of the particles during the process is at least 100 %.
  • the apparatus used as coating unit is an apparatus wherein the particles are transported through while being coated with a composition of coating materials.
  • the apparatus can be any coating apparatus, e.g. a fluid bed, a top spray coater where the particles to be coated are suspended in/on a fluidized bed or a bottom spray coater where the coating liquid is sprayed up into a fluidized bed, a rotating drum or any other spray configuration known in the art.
  • the coating unit is a continuous fluid bed coating unit, wherein the airflow of the fluid bed is adjusted to accommodate for the mass increase of the particles for each pass.
  • the coating unit is defined by having a volume
  • the volume is the total volume of the coating unit that may contain particles, which is small compared to the total volume of the batch size, i.e. the sum of volumes in the coating unit and the holding unit. This implies that the volume in the coating unit is much smaller than the volume of the holding unit.
  • the particles are sprayed with a coating material in the coating unit where after the particles are removed and transferred to the separator unit.
  • the particles are coated in the coating unit at least two times.
  • the particles are coated in the coating unit at least three times.
  • the particles are coated in the coating unit at least four times.
  • the particles are coated in the coating unit at least five times.
  • the particles are coated in the coating unit an infinite number of times.
  • the mass increase for the particles per passage of the coating unit is less than 10 %.
  • the coating time in the coating unit for the particles in each pass is less than 5 min.
  • the mass increase for the particles per passage of the coating unit is less than 25 %, particularly less than 15%, more particularly less than 5 %. In another embodiment the mass increase for each particle per passage of the coating unit is less than 25 %, particularly less than 15%, more particularly less than 5 %.
  • One possible execution of the coating unit without limiting the scope of invention is a rectangular fluid bed having a length several times its width, which will reduce the dispersion coefficient. Spray nozzles may be placed either above, below or within the fluidized layer.
  • Another possible execution of the coating unit without limiting the scope of invention is a drum- or pan coater, which will result in a high dispersion coefficient.
  • the process of the invention may comprise more than one coating unit
  • the separator unit is an automatic separator unit, wherein the particles are checked for the property relating to whether or not the particles need to be re-coated, that is whether or not the particles are finished.
  • finished particles refers to particles that have attained the desired characteristic, such as the desired thickness of coating, the de- sired uniformity of the color of coating, etc.
  • unfinished particles refers to particles that have not yet attained the desired characteristic, such as the desired thickness of coating or the desired uniformity of color of coating, etc.
  • the separator unit comprises some feature which enables the separator unit to identify and separate particles that are to be removed from the process (that is, particles that are finished) and particles that are to be transferred to the holding unit for re-coating because they are unfinished .
  • laser diffraction or vision systems may be used to identify which particles to remove and which particles to transfer to the holding unit. If checking for active dust - fluorescence spectroscopy may be used. If checking for taste and odour - head space gas chromatography methods may be used etc.
  • the separator unit may further comprise the feature of being able of identifying particles which somehow are outside a specified range and thereby being transferred for disposal or transferred for storage for subsequent processing.
  • the separator unit comprise the step of identifying and separating the particles in a product fraction, a recycle fraction and optionally a fraction of disposable particles.
  • the particles may be classified into two or more fractions according to any useful property, such as size, colour, shape, active content or similar.
  • One fraction is returned to the holding unit and the other fraction or fractions may be removed from the process, or returned to other holding units.
  • this feature of the invention thus enables the coating process to be significantly improved in both quality and capacity at the same time. This is due to the fact that it is needed to apply more than one coating to most particles because of the inherent differences in residence times in the spray zone of the particles. This is especially a problem in large scale coating equipment - even in ordinary batch coaters.
  • the residence time in a batch coater is pr. definition the same, but a significant distribution in the real residence time in the spray zone exists.
  • the holding unit act as a variable size holding container, wherein the volume of the particles present may vary.
  • the volume of the coating unit is less than the volume of the holding unit.
  • the holding unit may be one big holding unit or consist of a number of smaller holding units.
  • the volume of the holding unit it is meant the total volume in the one or more holding units used in the process.
  • the volume of the coating unit, V1 , and the volume of the holding unit, V3, are selected so:
  • V1 « V3 the volume of the coating unit is much less than the volume of the holding unit. This enables the process to accommodate for a large variation in the total batch size if process is applied to a batch of particles without changing the residence time in the coating unit and thereby the coating efficiency.
  • V3 is greater than two times V1. In a more particular embodiment V3 is greater than three times V1. In an even more particular embodiment of the present invention V3 is greater than five times V1. In a most particular embodiment of the present invention V3 is between two times V1 and ten times V1. In a particular embodiment the residence time of the particles in the holding unit is at least 50 times the residence time of the particles in the coating unit.
  • the holding unit can be designed to have whatever dispersion number desired. If no or little dispersion is wanted the holding unit may be designed as a mass flow tank. If high dispersion is wanted the holding unit might comprise some sort of stirring aggregate.
  • the process of the invention may comprise more than one holding unit.
  • the dispersion during the process is of some importance and may have a significant influence on the obtained coated particles.
  • it is important that the dispersion of particles is as low as possible during the process e.g. if a specific coating thickness is desired.
  • it may be a desire that the dispersion of particles is high e.g. to obtain a specific distribution of coating thicknesses within a batch of particles, which can be used to produce controlled release products.
  • the coating unit and the holding unit may be designed to fulfil whatever dispersion during the process of the particles wanted depending on what features of the coated product are desired.
  • the coating unit :
  • each particle in the coating unit should have the same residence time in the coating unit so the first added particles also are leaving the coating unit first and that any mixing of the particles within the unit is minimal, to ensure that the particles get coated with the same amount of coating material.
  • the flow in the coating unit should resemble what is known in the art as a plug flow. This can also be expressed as the coating unit should have a low dispersion number, Nd « 1 ; (i.e. limited back-mixing) As a consequence of a low dispersion number and a fast flow rate of particles through the coating unit, the amount of coating added to each particle at each pass of the coating unit will be small.
  • the activity strength (i.e. content of an active ingredient) of a granular composition is adjusted.
  • the present invention adjust the activity by applying a continuous coating unit wherein the residence time for each particle comprising an active compound is very short and having a fast flow rate of particles through the coating unit thereby avoiding back mixing of particles, so that the particles, which enter the unit first will be the first to leave the unit.
  • the residence time distribution thus provides a uniform coating of each particle and any desired coating thickness can be obtained by adding small amounts of coating for each passing of the coating unit and recycling each particle between the separator unit, the holding unit and the coating unit for as many cycles as necessary.
  • the holding unit If the dispersion in the holding unit is very low the particles entering the holding unit first are leaving the holding unit first.
  • the invention relates to the use of a con- tinuous coating unit, a separator unit and a storage unit connected in loop for the uniform coating of a batch of particles, wherein the residence time of the particles in the storage unit is at least fifty times the residence time of the particles in the coating unit, the dispersion number (Nd) in the coating unit is less than 0.5 and the total mass increase of the particles during the process is at least 100 %.
  • the particles have different residence time in the coating unit.
  • a possibility is to recycle particles in the coating unit to obtain a well defined residence time dis- tribution which in turn will lead to a well defined distribution of coating thicknesses. This may be used to manufacture controlled release products because different coating thicknesses will lead to different release rates.
  • the dispersion number in the coating unit is more than 0.2.
  • the dispersion number in the holding unit is more than 0.2.
  • the present invention further relates to finished coated particles obtainable by the process of the invention.
  • the finished particles of the process comprise a core particle and a coating.
  • the core particle and/or the coating may comprise an active compound.
  • the particle sizes of the finished particles may be from about 50 micrometers to about 2000 micrometers. More particular from about 100 micrometers to about 1000 micrometers. Even more particular from about 200 micrometers to about 700 micrometers. Most particularly from about 250 micrometers to about 500 micrometers.
  • the coatings may be from 1 micron to 1500 micron thick. In a particular embodiment the coating is more than 30 micron thick, in a more particular embodiment the coating is more than 50 micron thick, in a most particular embodiment the coating is more than 75 micron thick. In a particular embodiment the coating is less than 1000 micron thick, in a more particular embodi- ment the coating is less than 500 micron thick, in an even more particular embodiment the coating is less than 250 micron thick, in a most particular embodiment the coating is less than 150 micron thick.
  • the coating material may or may not comprise an active compound. In a particular embodiment of the present invention the coating does not comprise an active compound. Besides the coating equipment the coating material may have a large impact on the coating capacity and the coating quality.
  • the coating material is a liquid formulation and can be a solution, a suspension, an emulsion or a melt.
  • the particles to be coated in the context of the present invention are the particles feed to the process.
  • the particles to be coated may be non-active particles or particles comprising active compounds.
  • the particle cores to be coated comprise an active compound.
  • the particles are all prepared in advance before they are added to the coating process.
  • the particles to be coated are at least 20 micron. More particularly the particles to be coated are at least 40 micron. Even more particularly the particles to be coated are 60 micron. Most particularly the particles to be coated are 100 micron. In a particular embodiment the particles to be coated are 50 micron to 400 micron.
  • the particles to be coated are less than 600 micron. In a more particular embodiment the particles to be coated are less than 500 micron. In an even more particular embodiment of the present invention the particles to be coated are less than 400 micron. In a most particular embodiment of the present invention the particles to be coated are less than 300 micron. Any conventional methods and materials may be used to prepare the particles to be coated. The particles may be coated from 1 to 50 times. More particular from 2 to 25 times. Even more particular from 2 to 10 times.
  • Examples of known conventional cores and materials to be used are, inter alia, described in, US 4,106,991 (in particular), EP 170360, EP 304332, EP 304331 , EP 458849, EP 458845, WO 01/25412, WO 97/39116, WO 92/12645, WO 89/08695, WO 89/08694, WO 87/07292, WO 91/06638, WO 92/13030, WO 93/07260, WO 93/07263, WO 96/38527, WO 96/16151 , WO 97/23606, US 5,324,649, US 4,689,297, EP 206417, EP 193829, DE 4344215, DE 4322229 A, JP 61162185 A, JP 58179492, WO 04/33083, PCT/DK01/00627.
  • Non active particles such as carrier particles, seed particles, placebo particles or non-pareil particles are particles not comprising active compounds upon which a coating mixture compris- ing the active compound can be layered. They may be formulated with organic or inorganic materials, such as inorganic salts, sugars, sugar alcohols, small organic molecules such as organic acids or salts, starch, cellulose, polysaccharides, minerals such as clays or silicates or a combination of two or more of these
  • the particles to be coated with an active comprising coating material are non-active particles.
  • the active compound of the present invention either present in the core or in the coating may be any active compound or mixture of active compounds, which benefits from being separated from the environment surrounding the granule.
  • active is meant to encompass all compounds, which upon release from the coated particle upon applying the coated particle of the invention in a process, serve a purpose of improving the process.
  • the active compound may be inorganic of nature or organic of nature.
  • Particularly active compounds are active biological compounds which are usually very sensitive to the surrounding environment such as compounds obtainable from microorganisms. More particularly active compounds are peptides or polypeptides or proteins. Most particularly active compounds are proteins such as enzymes.
  • suitable active compounds are bleaches, growth promoters, antibiotics, antigenic determinants to be used as vaccines, polypeptides engineered to have an increased content of essential amino acids, hormones and other therapeutic proteins.
  • the particles to be coated comprise proteins.
  • the proteins are enzymes.
  • the enzyme in the context of the present invention may be any enzyme or combination of different enzymes. Accordingly, when reference is made to an "enzyme” this will in general be understood to include one enzyme or a combination of enzymes. It is to be understood that enzyme variants (produced, for example, by recombinant techniques) are included within the meaning of the term "enzyme”. Examples of such enzyme variants are disclosed, e.g. in EP 251 ,446 (Genencor), WO 91/00345 (Novo Nordisk), EP 525,610 (Solvay) and WO 94/02618 (Gist-Brocades NV).
  • Enzymes can be classified on the basis of the handbook Enzyme Nomenclature from NC- IUBMB, 1992), see also the ENZYME site at the internet: www. expasy. ch/enzyme/.
  • ENZYME is a repository of information relative to the nomenclature of enzymes. It is primarily based on the recommendations of the Nomenclature Committee of the International Union of Biochemistry and Molecular Biology (IUB-MB), Academic Press, Inc., 1992, and it describes each type of characterized enzyme for which an EC (Enzyme Commission) number has been provided (Bairoch A. The ENZYME database, 2000, Nucleic Acids Res 28:304-305).
  • This IUB-MB En- zyme nomenclature is based on their substrate specificity and occasionally on their molecular mechanism; such a classification does not reflect the structural features of these enzymes.
  • Another classification of certain glycoside hydrolase enzymes such as endoglucanase, xy- lanase, galactanase, mannanase, dextranase and alpha-galactosidase, in families based on amino acid sequence similarities has been proposed a few years ago. They currently fall into 90 different families: See the CAZy(ModO) internet site (Coutinho, P.M. & Henrissat, B.
  • the types of enzymes which may be incorporated in particles of the invention include oxidoreductases (EC 1.-.-.-), transferases (EC 2.-.-.-), hydrolases (EC 3.-.-.-), lyases (EC 4.-.- 5 .-), isomerases (EC 5.-.-.-) and ligases (EC 6.-.-.-).
  • Preferred oxidoreductases in the context of the invention are peroxidases (EC 1.11.1 ), laccases (EC 1.10.3.2) and glucose oxidases (EC 1.1.3.4)].
  • An Example of a commercially available oxidoreductase (EC 1.-.-.-) is GluzymeTM (enzyme available from Novozymes A/S). Further oxidoreductases are available from other suppliers.
  • Preferred transferases are o transferases in any of the following sub-classes: a Transferases transferring one-carbon groups (EC 2.1 ); b transferases transferring aldehyde or ketone residues (EC 2.2); acyltransferases (EC 1.11.1 ), laccases (EC 1.10.3.2) and glucose oxidases (EC 1.1.3.4)].
  • An Example of a commercially available oxidoreductase (EC 1.-.-.-) is GluzymeTM (enzyme available from Novozymes A
  • a most preferred type of transferase in the context of the invention is a transglutaminase (protein-glutamine ⁇ -glutamyltransferase; EC 2.3.2.13). Further examples of suitable transglutaminases are described in WO 96/06931 (Novo Nordisk 0 A/S).
  • Preferred hydrolases in the context of the invention are: carboxylic ester hydrolases (EC 3.1.1.-) such as lipases (EC 3.1.1.3); phytases (EC 3.1.3.-), e.g. 3-phytases (EC 3.1.3.8) and 6-phytases (EC 3.1.3.26); glycosidases (EC 3.2, which fall within a group denoted herein as "carbohydrases”), such as ⁇ -amylases (EC 3.2.1.1); peptidases (EC 3.4, also known as 5 proteases); and other carbonyl hydrolases.
  • carboxylic ester hydrolases EC 3.1.1.-
  • lipases EC 3.1.1.3
  • phytases EC 3.1.3.-
  • 3-phytases EC 3.1.3.8
  • 6-phytases EC 3.1.3.26
  • glycosidases EC 3.2, which fall within a group denoted herein as "carbohydrases
  • phytases examples include Bio-FeedTM Phytase (Novozymes), RonozymeTM P (DSM Nutritional Products), NatuphosTM (BASF), FinaseTM (AB Enzymes), and the PhyzymeTM product series (Danisco).
  • Other preferred phytases include those described in WO 98/28408, WO 00/43503, and WO 03/066847.
  • carbohydrate chains e.g. starches or cellulose
  • five- and six- membered ring structures i.e.
  • glycosidases EC 3.2
  • enzymes capable of isomerizing carbohydrates e.g. six-membered ring structures such as D-glucose to five-membered ring structures such as D-fructose.
  • Carbohydrases of relevance include the following (EC numbers in parentheses): ⁇ -amylases (EC 3.2.1.1), ⁇ -amylases (EC 3.2.1.2), glucan 1 ,4- ⁇ -glucosidases (EC 3.2.1.3), endo-1,4-beta-glucanase (cellulases, EC 3.2.1.4), endo-1 ,3(4)- ⁇ -glucanases (EC 3.2.1.6), endo-1 ,4- ⁇ -xylanases (EC 3.2.1.8), dextranases (EC 3.2.1.11 ), chitinases (EC 3.2.1.14), polygalacturonases (EC 3.2.1.15), lysozymes (EC 3.2.1.17), ⁇ -glucosidases (EC 3.2.1.21 ), ⁇ - galactosidases (EC 3.2.1.22), ⁇ -galactosidases (EC 3.2.1.23), amylo-1
  • proteases examples include KannaseTM, EverlaseTM, EsperaseTM, AlcalaseTM, NeutraseTM, DurazymTM, SavinaseTM, OvozymeTM, PyraseTM, Pancreatic Trypsin NOVO (PTN), Bio-FeedTM Pro and Clear-LensTM Pro (all available from Novozymes A/S, Bagsvaerd, Denmark).
  • Other preferred proteases include those described in WO 01/58275 and WO 01/58276.
  • proteases include RonozymeTM Pro, MaxataseTM, MaxacalTM, MaxapemTM, OpticleanTM, PropeaseTM, PurafectTM and Purafect OxTM (available from Genencor International Inc., Gist-Brocades, BASF, or DSM Nutritional Products).
  • lipases examples include LipexTM, LipoprimeTM, LipopanTM, LipolaseTM, LipolaseTM Ultra, LipozymeTM, PalataseTM, ResinaseTM, NovozymTM 435 and LecitaseTM (all available from Novozymes A/S).
  • lipases include LumafastTM (Pseudomonas mendocina lipase from Genencor International Inc.); LipomaxTM (Ps. pseudoalcaligenes lipase from Gist- Brocades/Genencor Int. Inc.; and Bacillus sp. lipase from Solvay enzymes. Further lipases are available from other suppliers.
  • carbohydrases examples include Alpha-GalTM, Bio-FeedTM Alpha, Bio-FeedTM Beta, Bio-FeedTM Plus, Bio-FeedTM Wheat, Bio-FeedTM Z, NovozymeTM 188, CarezymeTM, CelluclastTM, CellusoftTM, CelluzymeTM, CeremylTM, CitrozymTM, DenimaxTM, DezymeTM, DextrozymeTM, DuramylTM, EnergexTM, FinizymTM, FungamylTM, GamanaseTM, GlucanexTM, LactozymTM, LiquezymeTM, MaltogenaseTM, NatalaseTM, PentopanTM, PectinexTM, PromozymeTM, PulpzymeTM, NovamylTM, TermamylTM, AMGTM (Amyloglucosidase Novo), MaltogenaseTM, SweetzymeTM and AquazymTM (all available from Novozymes A/S).
  • carbohydrases are available from other suppliers, such as the RoxazymeTM and RonozymeTM product series (DSM Nutritional Products), the AvizymeTM, PorzymeTM and GrindazymeTM product series (Danisco, Finnfeeds), and NatugrainTM (BASF) , PurastarTM and PurastarTM OxAm (Genencor).
  • Other commercially available enzymes include MannawayTM, PectawayTM, StainzymeTM and RenozymeTM.
  • Suitable lipases include those of bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Examples of useful lipases include lipases from Humicola (synonym Thermomyces), e.g. from H. lanuginosa (T. lanuginosus) as described in EP 258 068 and EP 305 216 or from H. insolens as described in WO 96/13580, a Pseudomonas lipase, e.g. from P. alcaligenes or P. pseudoalcaligenes (EP 218 272), P. cepacia (EP 331 376), P. stutzeri (GB 1 ,372,034), P.
  • lipase variants such as those described in WO 92/05249, WO 94/01541, EP 407 225, EP 260 105, WO 95/35381 , WO 96/00292, WO 95/30744, WO 94/25578, WO 95/14783, WO 95/22615, WO 97/04079 and WO 97/07202.
  • lipases include LIPEX, LIPOPRIMETM, LIPOLASETM, LIPOLASETM Ultra, LIPOZYMETM, PALATASETM, NOVOZYMTM 435 and LECITASETM (all available from Novozymes A/S).
  • lipases include LUMAFASTTM (Pseudomonas mendocina lipase from Genencor International Inc.); LIPOMAXTM [Ps. pseudoalcaligenes lipase from DSM/Genencor Int. Inc.; and Bacillus sp. lipase from Genencor enzymes. Further lipases are available from other suppliers.
  • carbohydrases examples include ALPHA-GALTM, BIO-FEEDTM Alpha, BIO-FEEDTM Beta, BIO-FEEDTM Plus, BIO-FEEDTM Plus, NOVOZYMETM 188, CELLU- CLASTTM, CELLUSOFTTM, CEREMYLTM, CITROZYMTM, DENIMAXTM, DEZYMETM, DEX- TROZYMETM, FINIZYMTM, FUNGAMYLTM, GAMANASETM, GLUCANEXTM, LACTOZYMTM, MALTOGENASETM, PENTOPANTM, PECTINEXTM, PROMOZYMETM, PULPZYMETM, NOVA- MYLTM, TERMAMYLTM, AMGTM (Amyloglucosidase Novo), MALTOGENASETM, SWEETZYMETM and AQUAZYMTM (all available from Novozymes A/S).
  • Amylases include those of bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Amylases include, for example, ⁇ -amylases obtained from Bacillus, e.g. a special strain of B. lichenifomnis, described in more detail in GB 1 ,296,839.
  • Examples of useful amylases are the variants described in WO 94/02597, WO 94/18314, WO 96/23873, and WO 97/43424, especially the variants with substitutions in one or more of the fol- lowing positions: 15, 23, 105, 106, 124, 128, 133, 154, 156, 181, 188, 190, 197, 202, 208, 209, 243, 264, 304, 305, 391, 408, and 444.
  • amylases are NATALASETM, STAINZYMETM, DURAMYLTM, TERMA- MYLTM, TERMAMYLTM ULTRA, FUNGAMYLTM and BANTM (Novozymes A/S), RAPI- DASETM, PURASTARTM and PURASTAR OXAMTM (from Genencor International Inc.).
  • Suitable cellulases include those of bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Suitable cellulases include cellulases from the genera Bacillus, Pseudomonas, Humicola, Fusarium, Thielavia, Acremonium, e.g. the fungal cellulases produced from Humicola insolens, Myceliophthora thermophila and Fusarium oxysporum dis- closed in US 4,435,307, US 5,648,263, US 5,691 ,178, US 5,776,757 and WO 89/09259.
  • cellulases are the alkaline or neutral cellulases having colour care benefits.
  • Examples of such cellulases are cellulases described in EP 0 495 257, EP 0 531 372, WO 96/11262, WO 96/29397, WO 98/08940.
  • Other examples are cellulase variants such as those described in WO 94/07998, EP 0 531 315, US 5,457,046, US 5,686,593, US 5,763,254, WO 95/24471 , WO 98/12307 and PCT/DK98/00299.
  • Oxidoreductases Particular oxidoreductases in the context of the invention are peroxidases (EC 1.11.1), laccases (EC 1.10.3.2) and glucose oxidases (EC 1.1.3.4)].
  • An Example of a commercially available oxidoreductase (EC 1.-.-.-) is GLUZYMETM (enzyme available from Novozymes A/S).
  • Peroxidases/Oxidases Suitable peroxidases/oxidases include those of plant, bacterial or fungal origin. Chemically modified or protein engineered mutants are included. Examples of useful per- oxidases include peroxidases from Coprinus, e.g. from C. cinereus, and variants thereof as those described in WO 93/24618, WO 95/10602, and WO 98/15257. Commercially available peroxidases include GUARDZYMETM (Novozymes A/S). Mannanase: Any mannanase suitable for use in alkaline solutions can be used. Suitable mannanases include those of bacterial or fungal origin. Chemically or genetically modified mutants are included.
  • the mannanase is derived from a strain of the genus Bacillus, especially Bacillus sp. I633 disclosed in positions 31-330 of SEQ ID NO:2 or in SEQ ID NO: 5 of WO 99/64619 or Bacillus agaradhaerens, for example from the type strain DSM 8721.
  • the mannanase is derived from Alkalo- philic bacillus.
  • Suitable mannanases include MANNAW AYTM (Novozymes A/S).
  • Pectate lyase Any pectate lyase suitable for use in alkaline solutions can be used. Suitable pectate lyases include those of bacterial or fungal origin. Chemically or genetically modified mutants are included.
  • the pectate lyase is derived from a strain of the genus Bacillus, es- pecially a strain of Bacillus substilis, especially Bacillus subtilis DSM14218 disclosed in SEQ ID NO:2 or a variant thereof disclosed in Example 6 of WO 02/092741.
  • the pectate lyase is derived from Bacillus licheniformis.
  • the invention further relates to the use of the particles of the process.
  • the particles of the invention are suitable for use in compositions comprising coated particles.
  • the particles of the invention may be used within the pharmaceutical area, in detergent compositions for cleaning an object, in textile production, in baking for improving bread, in feed compositions for improving the feed and in food products, in personal care products etc.
  • the compositions may be a detergent composition, a pharmaceutical composition, a feed composition, a food composition, a baking composition or an additive to be incorporated in such compositions.
  • the composition is a detergent. In another particular embodiment the composition is a feed. In a further embodiment the composition is a food.
  • the invention further relates to a method comprising providing the particles of the invention to a liquid for cleaning an object or to an animal for improving its digestion or to a dough for improving a bread.
  • Example 1 A sketch of the coating process comprising a coating unit, a separator unit and a holding unit is shown in figure 1.
  • a non limiting sketch of an embodiment of the invention is shown in figure 2.
  • a typical industrial coating unit according to the present invention might have the following design.
  • the coating unit shown below is a rectangular fluid bed having a width of 0.5 m and a length of 4 m.
  • the recirculation rate is equal to the product of the velocity u and the fluid bed width and the product filling height in the coating unit.
  • the volume in the coating unit will thus be about 0.4 to 0.8 m 3 .
  • the volume of the holding unit will typically be 4 - 8 m 3 , which will allow for coating volumes up to about 1000%.
  • the recirculation speed will be 100 - 200 liter/min., which corresponds to a residence time in the coating unit of 2 - 4 min.
  • Typical operating parameters are shown in the following table:

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Abstract

La présente invention concerne un procédé de revêtement de particules qui comprend les étapes suivantes : a. alimentation en particules d'une unité de revêtement où lesdites particules sont revêtues ; b. transfert direct des particules revêtues depuis l'unité de revêtement vers une unité de séparation ; c. séparation des particules revêtues finies et des particules revêtues non finies ; d. retrait des particules revêtues finies et transfert direct des particules revêtues non finies depuis l'unité de séparation vers une unité d'attente, et ; e. transfert direct des particules revêtues non finies depuis l'unité d'attente vers l'unité de revêtement pour les revêtir à nouveau.
PCT/DK2006/000126 2006-03-02 2006-03-02 Procédé d'encapsulation haute capacité Ceased WO2007098756A1 (fr)

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