WO2004016247A1 - Process for coating a pharmaceutical particle - Google Patents
Process for coating a pharmaceutical particle Download PDFInfo
- Publication number
- WO2004016247A1 WO2004016247A1 PCT/US2003/025883 US0325883W WO2004016247A1 WO 2004016247 A1 WO2004016247 A1 WO 2004016247A1 US 0325883 W US0325883 W US 0325883W WO 2004016247 A1 WO2004016247 A1 WO 2004016247A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- particle
- coating
- particles
- coated
- drugs
- Prior art date
Links
- 239000002245 particle Substances 0.000 title claims abstract description 295
- 238000000576 coating method Methods 0.000 title claims abstract description 197
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- 238000000034 method Methods 0.000 title claims abstract description 111
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- 239000000463 material Substances 0.000 claims description 49
- HEFNNWSXXWATRW-UHFFFAOYSA-N Ibuprofen Chemical compound CC(C)CC1=CC=C(C(C)C(O)=O)C=C1 HEFNNWSXXWATRW-UHFFFAOYSA-N 0.000 claims description 48
- 229960001680 ibuprofen Drugs 0.000 claims description 48
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- ZZSNKZQZMQGXPY-UHFFFAOYSA-N Ethyl cellulose Chemical compound CCOCC1OC(OC)C(OCC)C(OCC)C1OC1C(O)C(O)C(OC)C(CO)O1 ZZSNKZQZMQGXPY-UHFFFAOYSA-N 0.000 claims description 18
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- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/48—Preparations in capsules, e.g. of gelatin, of chocolate
- A61K9/50—Microcapsules having a gas, liquid or semi-solid filling; Solid microparticles or pellets surrounded by a distinct coating layer, e.g. coated microspheres, coated drug crystals
- A61K9/5005—Wall or coating material
- A61K9/5021—Organic macromolecular compounds
- A61K9/5036—Polysaccharides, e.g. gums, alginate; Cyclodextrin
- A61K9/5042—Cellulose; Cellulose derivatives, e.g. phthalate or acetate succinate esters of hydroxypropyl methylcellulose
- A61K9/5047—Cellulose ethers containing no ester groups, e.g. hydroxypropyl methylcellulose
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P29/00—Non-central analgesic, antipyretic or antiinflammatory agents, e.g. antirheumatic agents; Non-steroidal antiinflammatory drugs [NSAID]
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J2/00—Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic
- B01J2/006—Coating of the granules without description of the process or the device by which the granules are obtained
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29B—PREPARATION OR PRETREATMENT OF THE MATERIAL TO BE SHAPED; MAKING GRANULES OR PREFORMS; RECOVERY OF PLASTICS OR OTHER CONSTITUENTS OF WASTE MATERIAL CONTAINING PLASTICS
- B29B9/00—Making granules
- B29B9/16—Auxiliary treatment of granules
- B29B2009/163—Coating, i.e. applying a layer of liquid or solid material on the granule
Definitions
- a process for coating a pharmaceutical particle with a liquid coating material is disclosed.
- the coating is able to provide useful characteristics to the particles, for example, by providing a moisture barrier, improving stability, enhancing wettability, enhancing dispersion, flowabi lity and fluidability, increasing or delaying release of pharmaceutically-active ingredients, masking off-flavors, masking odors, and coloring the particle.
- TECHNICAL BACKGROUND A considerable number of prescription and over-the-counter pharmaceuticals are currently sold with surface coatings to enhance the value of the product. Coating technology in this industry is known, for example, to impart such important characteristics as taste masking, stability enhancement, and controlled release of the active; wherein the rate of release can be increased, delayed, or sustained over time for prolonged delivery. For example, the rate of delivery of a pharmaceutical to a target organism or reaction site is often critical to obtaining the desired result. Too much of a medicine ingested or injected all at once in order to have a maintenance concentration can result in wasted material or cause toxic side effects. The coating of pharmaceuticals helps reduce these problems, ensures stability, and prolongs the shelf-life of reactive ingredients.
- coating is an effective way of masking the taste or odor of a particular drug, making products more palatable, which operates to increase patient compliance in taking medications, especially in populations of pediatric or geriatric patents by enabling cheswable or suspension formulations of oral drugs.
- substrates for coa-ting are limited to relatively large particles (tablets, pellets and granules, which are significantly greater than 200 ⁇ m).
- tablettes, pellets and granules which are significantly greater than 200 ⁇ m.
- pan coating Since these processes can not efficiently operate with discrete drug crystals
- U.S. Patent Nos_ 3,241 ,520 and 3,253,9*44 disclose a particl e coating method wherein relatively large pellets, granules and particles are suspended in a stream of air while coating material in a liquid form is mixed with the particles.
- a solid particle is added to the zone of turbulence concu rrently with the metering of the liquid composition and the injection of the heated gas to mix the solid particle with the atomized liquid composition.
- the mixing of the atomized coating composition with the particles at the zone of turbulence instantly coats the solid particle with the coating mate rial, wherein the coated particle then emerges in a dry state from the apparatus.
- WO 97/07676 to E.I. du Pont de Nemours and Company discloses the apparatus of WO 97/07879, along with the use of the apparatus in a process for coating crop protection solid particles. Coatings are water- insoluble, and extent of coating is represented by weight perce t.
- Applicants' assignee's copending application having Application number 10/174687, filed June 19, 2002 discloses a process for dry coating a food particle having its largest diameter in the range from 0.5 mm to 20.0 mm with a liquid coating material using the process disclosed in WO 97/07879.
- the final coated food particle has a moisture I ⁇ /el that is substantially the same as the moisture level of the uncoated food particle.
- the present invention concerns a process for coating a pharmaceutical particle with a liquid, the process comprising the steps of:
- step (b) injecting a gas stream through the flow restrictor concurrently with step (a) to (i) atomize the coating liquid and (ii ) create turbulent flow of the gas stream, wherein the gas stream is optionally heated;
- the present invention also concerns a process for coating a pharmaceutical particle with a liquid, the process comprising the steps of:
- step (b) injecting a gas stream through the flow restrictor concurrently with step (a) to (i) atomize the coating liquid and (ii) create turbulent flow of the gas stream and the atomized coating liquid, wherein the gas stream is optionally heated; wherein the pharmaceutical particle mixes with the atomized coating liquid in the region of turbulent flow to provide a coated pharmaceutical particle.
- these processes of the invention further comprise repeating the coating process in a successive, batchwise fashion in order to pass the pharmaceutical particles through the coaling apparatus multiple times, using the same or different coating liquid.
- the present invention further concerns a related process for coating a carrier particle with a liquid comprising a pharmaceutically active ingredient, the process comprising the steps of:
- step (b) injecting a gas stream through the flow restrictor concurrently with step (a) to (i) atomize the coating liquid and (ii) create turbulent flow of the gas stream, wherein the gas stream is optionally heated;
- the present invention further concerns a process for coating a carrier particle with a liquid comprising a pharmaceutically active ingredient, the process comprising the steps of: (a) metering into a flow restrictor a coating liquid co prising a pharmaceutically active ingredient wherein said E iquid further comprises carrier particles to be coated; (b) injecting a gas stream through the flow restrictor concurrently with step (a) to (i) atomize the coating liquid and (ii) create turbulent flow of the gas stream, wherein the gas stream is optionally heated; wherein the carrier particles to be coated mix with the atomized coating liquid in the region of turbulent flow, to provide a carrier particle coated with a pharmaceutically active ingredient.
- the process of the invention can be used to coat any solid particulate form of pharmaceutical, or to coat any solid ca rrier particle with a liquid pharmaceutically active ingredient, wherein as used by Applicants for purposes of this disclosure, pharmaceuticals can be considered to include nutriceuticals, vitamins, supplements, minerals, enzymes, probiotics, bronchodilators, anabolic steroids, analeptics, analgesics, proteins, peptides, antibodies, vaccines, anesthetics, antacids, antihelmintics, anti-arrthymics, antibiotics, anticoagulants, anticolonergics, anticonvulsants, antidepressants, antidiabetics, antidiarrheals, anti- emetics, anti-epileptics, antihistarnines, antihormones, antihypertensives, anti-inflammatories, antimuscarin ⁇ cs, antimycotics, antineoplastics, anti- obesity drugs, antiprotozoals, antipsychotics, antispasm
- the invention can also be used to coat pharmaceutical particles that comprise mixtures of two or ore different pharmaceuticals, or mixtures of pharmaceuticals and excipients, or other ingredients which can be added to pharmaceuticals or to coat carrier particles with liquids containing more than one pharmaceutically active ingredient.
- the pharmaceutical products formulated by the claimed processes are suitable for delivery to mammals by a variety of routes of administration including, for example, oral, inhalable, trans-dermal, parenteral, buccal, nasal, vaginal, rectal, sub-lingual, ocular, periodontal, implantation, or topical.
- liquid coating materials examples of which comprise a starch, gelatin, a natural color, a synthetic color, a sugar, a cellulose, a biodegradable polymer, a biodegradable oligomer, an emulsifying wax, a fat, a wax, a phospholipid, a shellac, a flavoring agent, a moisture barrier, a taste-masking agent, an odor-masking agent, a shelf-life extending agent, a lipid, a protein, cellulose derivatives, alginate , chitosan, surfactants or other wetting agents, carbohydrates, natural or synthetic polymers , methacrylate polymers and co-polymers, polylactic acid (PLA), poly lactide co-glyceride (PLGA), a mineral, or a liquid containing a pharmace utically active ingredient.
- PVA polylactic acid
- PLGA poly lactide co-glyceride
- mineral or a liquid containing a pharmace
- coated pharmaceutical particles made by the processes of the invention.
- compositions comprised of pharmaceutical particles having a size greater than a bout 100nm and less than about 100um, that have been coated with a surface active agent, wherein the coated particles exhibit enhanced dissolution.
- the particles in this composition are coated with the surface active agent from between about 0.1 % to about 30% by % weight of the coating material to final weight of the composition of coated particles.
- Particularly preferred compositions will be comprised of particles from about 0.5 um to about 25 um, or about 1 um to about 15 um, which are coated with surface active agent from about 1% to about 30 %, or about 1 % to about 20%, and exhibit an enhancement in the rate of dissolution of at least about 10%, or more preferably about 200%.
- particles of ibuprofen between 100nm and 100um that have been coated with a surface active agent wherein said particle exhibits an enhanced rate of dissolution, particularly when the surface active agent is Poloxamer® or SLS.
- FIG. 1 is a schematic diagram of a portion of the apparatus in accordance with the present invention.
- Fig. 2 is a cut-away, expanded, cross-sectional view of a portion of the apparatus shown in Fig. 1.
- Fig. 3 is an alternative configuration of the apparatus.
- Fig. 4 shows scann ing electron microscope (SEM) pictures of ibuprofen particles, uncoated and coated with ethylcellulose.
- Fig. 5 shows dissolution profiles (pH 7.2) of tablets containing uncoated ibuprofen and coated (with ethylcellulose) Ibuprofen in pH 7.2 buffer.
- Fig. 6 shows scanning electron microscope (SEM) pictures of uncoated and coated particles (with Eudragit® EPO) caffeine particles.
- Fig. 7 shows Time-of Flight-Secondary Ion Mass Spectroscopy (ToF-SIMS) secondary ion maps of caffeine particles coated with Eudragit EPO.
- SEM scanning electron microscope
- ToF-SIMS Time-of Flight-Secondary Ion Mass Spectroscopy
- Fig. 8 shows dissolution profiles of tablets containing caffeine from uncoated and coated (with Eudragit® EPO) caffeine particles.
- Fig. 9 shows scanning electron microscope (SEM) pictures of uncoated and coated with ethyl cellulose) sodium chloride particles.
- Fig. 10 shows a Tirne-of Flight-Secondary Ion Mass Spectroscopy
- Fig. 11 shows conductivity profiles of uncoated and coated (with ethylcellulose) sodium chloride particles in water.
- Fig. 12 shows scanning electron microscope (SEM) pictures of uncoated and coated (with Poloxamer® 188) ibuprofen particles.
- Fig. 13 shows dissolution profiles (pH 5.8) of tablets containing uncoated ibuprofen and coated (with Poloxamer®188) ibuprofen.
- Fig. 14 shows dissolution profiles (0.1 N HCI) of tablets containing uncoated ibuprofen and coated (with Poloxamer® 1 88) ibuprofen.
- coating refers to adherence, adsorption, loading and/or incorporation, to some extent, of at least one liquid coatin g material onto and/or into a solid particle or particles. This liquid may remain in the liquid state, or be chilled to solidify or evaporated to leave its solute as a solid coating residue.
- the coating material on the pharmaceutical particle may be of any thickness; it need not necessarily be uniform on the surface of the particle, nor is the entire surface of the particle necessarily covered.
- the term coating includes the concept of encapsulation, but does not necessarily imply that the coated particle has been encapsulated.
- size refers to the longest diameter or longest axis of the particle being coated. Throughout the disclosure, the letter “d” or “D” denotes diameter of the particle.
- This invention provides, in a first aspect, a process for coating a particle with a liquid to make a pharmaceutical particle, the process comprising the steps of metering a coating liquid into a flow restrictor and concurrently injecting a gas stream through the flow restrictor in order to atomize the coating liquid.
- a gas stream passes through the restricted region of the flow restrictor, a regio of turbulent flow is created.
- Particles are added to the turbulent flow region, wherein the particles mix with the atomized coating liquid in the region of turbulent flow and are instantly coated and dried, thereby providing a coated particle.
- the particles may be comp rised of pharmaceutical particles or carrier pa rticles.
- the coating liquid will contain a harmaceutically active ingredient.
- carrier particle is used herein to mean that the particle itself is not a pharmaceutical.
- the invention also provides an alternative embodiment of the coating process to coat a particle wit * a liquid.
- This aspect of the process entails mixing the particle to be coated with the coating liquid prior to metering the coating liquid into the apparatus used to conduct the process of the invention.
- this aspect comprises the steps of metering a coating liquid containing particles to be coated into a flow restrictor; injecting a gas stream through the flow restrictor to create turbulent flow of the gas stream as it emerges from the constricted portion of the flow restrictor, thereby atomizing the coating liquid; wherein the particles mix with the atomized coating liquid in the region of turbulent flow to provide dry, coated pharmaceutical particles.
- the particles to be coated may be pharmaceutical particles, or carrier particles, in which case the liquid coating comprises a pharmaceutically active ingredient.
- the process of the invention is practiced without the need for such recirculation, or a prolonged exposure of the particles to the coating liquid during the drying phase of the process.
- the proce ss of the invention is distinguished from the prior art in that the particle experiences an extremely short residence time in the region in whi ch coating occurs.
- the above-described processes further comprise repeating the coating process, in a batchwise fashion, at least once, wherein the coating material may be the sa me or different.
- the coating material may be the sa me or different.
- particles for example, can be coated with a succession of coating materials of the same liquid or various com binations of materials such as acrylic based polymers, pharmaceutical liquids, color, sugar, and other flavorings, etc., thus enabling unique combinations of moisture barriers, taste-masking agents, odor-masking agents, shelf-life extending agents, etc., to coat the particles.
- a particularly beneficial aspect of the process is that particles can conveniently be successively coated in a batchwise manner, enabl ing the process to yield pharmaceutical particles having a controlled thickness of the coating material. It is believed that a particle coated successively with several thin layers of a coating material will have different characteristics than a particle coated with the same total amount of that coating rrr aterial applied in a single application.
- the process of the invention ap plies atomized liquids to the surface of particles in a zone of turbulence wherein there is essentially uniform, instant dispersion and drying of the particles.
- the physical characteristics of the final coated particles are distinct from conventional pharmaceutical coating processes which rely on simply a mixin g and subsequent drying of the coating material and the particles, such as in wet granulation and fluid bed granulation.
- the physical form of the final product often resembles simply a dried granular product which can physically be a mixture of the dried coating particles and the pharmaceutical active particles.
- Applicants' coated composition is believed to consist of discreetly coated drug particles, wherein the coating material adheres to trie particle.
- concentration values of the coating liqu id, flow rates of the solid particle feed and the liquid feed, ratios of the liq uid feed to solid feeds, and temperature and velocity of the gas streams can all be easily varied to yield coated pharmaceutical particles with particular desired characteristics.
- any particle with structural integrity as a particle can be coated using the process of the invention.
- examples of such particles include, but are not limited to, vitamins, supplements, minerals, enzymes, proteins, peptides, antibodies, vaccines, probiotics, bronchodilators, anabolic steroids, analeptics, analgesics, anesth etics, antacids, antihelm intics, anti- arrthymics, antibiotics, anticoagulants, anticolonergics, anticonvulsants, antidepressants, antidiabetics, antidiarrheals, anti-emetics, anti-epileptics, antihistamines, antihormones, antihype rtensives, anti-inflammatories, antimuscarinics, antimycotics, antineop lastics, anti-obesity drug s, antiprotozoals, antipsychotics, antispas motics, anti-thrombics, antithyroid drugs, antitussives, antivir
- inert or carrier particles are coated with liquids comprising the pharmaceutically active ingredient
- sny particle that is suitable for the intended patient and route of delivery
- lactose or other carbohydrate particles, and tita nium dioxide or silica pa rticles, for example would be suitable for use in the process of the invention to create pharmaceutical particles for inhalation or ingestion in ma ny instances.
- inert or carrier particles Applicants mean any substance not comprised of a pharmaceutically active material that is safe for use in the delivery route contemplated for that coated pharmaceutical.
- the particles of the invention can also be comprised of mixtures of two or more d ifferent pharmaceutical compounds, or mixtures of pharmaceutical compounds with excipients, carriers and other formulation substances.
- Combination therapies are becoming of significant interest in simplifying treatment of diseases as well as enabling defendable new drug products.
- the coating device could t>e used in such a fashion to enable multiple drugs to be in a single particle (discrete coated particle or as an agglomerate particle).
- a sinus/influenza treatment could be prepared by feeding a solid stream of acetaminophen particles to the coating device and concurrently a liquid stream of a solution of pseudoephed rine.
- This particle could be further protected by applying a tastemasking polymer/flavor material and/or a sustained release polymer (eg Eudragit®).
- a single particle of acetaminophen could be fed as the solids stream to the coating device.
- pseudoephedrine could be fed as a slurry to the liquid feed stream of the coating device.
- the pseudoephedrine crystals could be made as a slurry in an appropriate solvent, also containing a binding agent (eg hydroxypropylmethyl cellulose).
- the binder would enable the pseudophedrine crystals to be fixed to the outer surface of the acetaminophen drug crystals.
- Furthe r coating treatments would also be feasible for example for taste maskin g, controlled release, targeted delivery, etc.
- Particles of the invention can be purchased commercially, or they can be produced and processed to be of desired sizes and characteristics using conventional synthesis and particulate technology.
- the general size range of particles suitable for use in the process of the invention will range from about 5 nm to about 15 mm; although the preferred siz:e range will be determined according to the intended use of the particle.
- the physical characteristics of the particles selected will be dete rmined by the type of coating desired to be achieved in the process. For example, porous particles may be selected if it is desired to impregnate the particle with the coating material.
- Solid crystallizine particles of a drug may be selected, in a desired size range, to be coated with a surface modifying agent, or a taste masking agent, for example.
- inert carrier particles such as silica or titanium dioxide could be coated using the process of the invention with a liquid coating co prising a pharmaceutically active ingredient.
- inert or carrier particles could be used as particulate delivery aids in formulating useful pharmaceuticals.
- the process of the invention can be tailored such that many forms and types of solid particles will be suitable for coating with many forms of liquid materials, resulting in a finally coated product suitable for use as a pharmaceutical.
- Crystallization and milling are two methods currently used to produce pharmaceutical compounds, and in this aspect Applicants herein incorporate by reference the following commonly-assigned patent applications which relate to methodology for producing pharmaceutical particles of varying size and purity: utility patent applicati n filed May 2002, US Appln. Mo. PCT/US02/16159 entitled High Pressure Media Mill; utility patent appl ication filed October 1 , 2002, US Appln. No. 10/272764 entitled Rotor-Stator Mixer Crystaflization Process and Apparatus; utility patent application attorney docket number CL 1980 filed December 14, 2001 , US Appln. No. 10/320245 e ntitled Methods and Apparatus for CrystallizatJon; and utility patent application filed April 2, 2002, US Appln. No. 10/405436, entitled Apparatus and Process Used in Growing Crystals.
- liquid coating materials can be used in the process of the invention.
- the term "liquid'" refers to the state of the coating material as it is applied to the particle.
- the finally- coated particle when the particle is at the temperature and other conditions for delivery, may comprise a coating material in either a solid or liquid state .
- Coating materials include a starch, gelatin, a natural food color, a synthetic food color, a sugar, a cellulose, a biodegradable polymer, a biodegradable oligorner, an emulsifying wax, a shellac, a flavoring agent, a moisture barrier, a taste-masking agent, an odor- masking agent, hydrophobicity or hydrophilicity agents, a shelf-life extending agent, a lipid, a protein, or a mineral.
- Specific coating ingredients can include, for example, ethyl cellulose, methyl cellulose, hydroxypropylcellulose, polyvinylpyrolidone, polyethylene , Aquateric, EudragitTM (including any commercial grade or formulations), acrylic coatings, SureleaseTM, bubble gurn flavor, cherry flavor, grape flavor, sodium la ryl sulfate, sodium docusate, poly lactic acid, poly lactide glycolic acid, cellulose acetate pthalate.
- the following materials comprise suitable coating materia ls for certain applications, including as diluents: lactose, microcrystalline cellose, mannitol, dicalcium phosphate, starch , dextrates, sucrose; and as disintegrants: c ⁇ scarmellose sodium, sodiu starch glycolate, starch; and as binders: hydroxypropyl cellulose, hydroxypyroylmethylcellulose, povidone, methyl cell ulose; and as glidants/lubricants: silicon dioxide, stearic acid, a hydrocolloid, a monosaccharide, a disaccharide, an oligosaccharide, a polysaccharide, a surface modifying agent, a sugar alcohol, a poly-ol, a flow aid, an interparticle force control agent, magnesium stearate, talc, sodium stearyl fumarate; and as surfactants: Tween 80; polysorbate , polyethylene glycol 400, Poloxa
- the coating aterial can be a dispersion of one or more compounds.
- a coating dispersion may contain a polymer such as ethylcellulose and a plasticizer such as triethyl citrate dissolved in a suitable solvent and talc added as an antitackifier.
- Solvents that can be used in the process include water, acetone, ethanol , methanol, ethyl acetate, isopropyl alcohol, methyl acetate, n-propanol, ketones, toluene and ethylene chloride, for example.
- a dispersion is defined herein as a two-phase system of which one phase consists of fi nely divided particles (often in the colloidal size range) distributed throughout a bulk substance, the particles being the disperse or internal phase and the bulk substance the continuous or external phase.
- one phase consists of fi nely divided particles (often in the colloidal size range) distributed throughout a bulk substance, the particles being the disperse or internal phase and the bulk substance the continuous or external phase.
- surfactants such as a fatty acid.
- dispersions include liquid/liquid (emulsion) and solid/liquid (paint).
- the particle selected for coating may be a drug particle or an inert carrier particle of a porous or nonporous nature.
- a drug particle or an inert carrier particle of a porous or nonporous nature could be in the area of dry powder delivery of inhalable drug compounds.
- the coating device could be fed a solids stream of 2 micron lactose carrier particles and a liquid stream of a solution of albuterol (an asthma drug).
- the lactoses core particles could be coated up to 3 microns diameter (for instance), where the coated shell contained the active albuterol drug.
- Th is concept could enable a standard design (or formulation) of dry powder inhalable pharmaceutical compound, wherein the standard desired particle size for such applications is 1 to 5 microns.
- the active drug shell coating on the lactose excipient carrie r particle could be further coated with a surface modifier such as poly lactic acid to give it improved deagglomeration properties in the inhaler device and/or controlled release properties of the drug substance delivered to the lung.
- the process of the invention has aspects rendering it particularly suitable for the preparation of inhaled pharmaceuticals.
- the process of the invention can be used to modify the surface of particles in the inhalable range of 1-5 icrons so that such particles can be more readily dispersed by dry powder, resulting in a higher respirable fraction. Further improved flowability for processing and filling of suspension metered dose inhaler (MDI) products can be achieved.
- MDI suspension metered dose inhaler
- the process is suitable to achieve intimate mixing of surfactants (such as oleic acid or soya lecithin) onto inhalable powders.
- this invention includes coated pharmaceutical particles made using the process of thi s invention.
- An apparatus used to practice the process of this invention is generally described in commonly owned PCT application WO 97/07879.
- An apparatus according to the present invention is shown generally at 10 in Fig. 1.
- An apparatus useful in the present invention comprises a first chamber, shown at 12 in Figs. 1 and 2.
- a flow restrictor 14 is disposed at one end of the first chamber.
- the flow restrictor is typically disposed at the downstream end of the first chamber, as shown in Figs. 1 a nd 2.
- Flow restrictor 14 has an outlet end 14a, as shown in detailed view of Fig. 2.
- the flow restrictor is shown as a different element from the first chamber, it may be formed integrally t erewith, if desired.
- the flow restrictor of the present invention may have various configurations, as long as it serves to restrict flow and thereby increase the pressure of the fluid passing through it.
- the flow restrictor of the present invention is a nozzle.
- a first, or liquid, inlet line 16 as s how in Figs. 1 and 2 is disposed in fluid communication with the first chamber for metering a liquid composition into the chamber.
- Liquid inlet line 16 meters the liquid composition into the first chamber 12 in the outlet flow restrictor 14, and preferably in the center of the flow restrictor when viewed along the axial length thereof.
- the liquid composition is metered through liquid inlet line 16 by a metering pump 18 from a storage container 20 containing the liquid com position as shown in Fig. 1.
- the liquid coating composition may be a solution, a slurry, a dispersion , an emulsion or a melt.
- melt is meant any substance at a temperatu re at or above its melting point, but below its boiling point.
- the liquid co mposition may include components other than the coating material. It should be noted that when the liquid composition is a melt, storage container 20 must be heated to a temperatu re above the melt temperature of the liquid composition in order to maintain the liquid composition in melt form.
- the disclosed apparatus for coating a particle further includes a second, or gas, inlet line 22 disposed in fluid communication with the first chamber as shown in Figs. 1 and 2.
- the gas inlet line should be disposed in fluid communication with the first chamber u pstream of the flow restrictor.
- Gas inlet line 22 injects a first gas strea through the flow restrictor to create a region of turbulent flow, referred to here as a zone of turbulence, at the outlet of the flow restrictor.
- the turbul ence subjects the liquid com position to shear forces that atomize the liquid composition.
- the first gas stream shou Id have a stagnation pressure sufficient to accelerate the gas to at least one-half the velocity of sound, or greater, prior to entering the flow restrictor to ensure that a zone of turbulence of sufficient intensity will be formed at the outlet of the flow restrictor.
- the velocity of sound for a particular gas stream e.g., air or nitrogen, will be dependent on the temperature of the gas stream. This is expressed by the equation for the speed of sound, C:
- the acceleration of the first gas stream is dependent on the temperatu re of the gas stream.
- it is the pressurized gas that causes th atomization of the liquid composition.
- the pressure of the liquid composition in the liquid inlet line just needs to be enough to overcome the system pressure of the gas stream. It is preferable that the liquid inlet line has an extended axial length before the zone of turbulence. If the liquid inlet line is too short, the flow restrictor becomes plugged.
- the apparatus disclosed for purposes of demonstrating the present invention also comprises means disposed in the second inlet line and upstream of the flow restrictor for optiona Ily heating the first gas stream prior to injection through the flow restrictor.
- the heating means comprises a heater 24 as shown in Fig. 1 .
- the heating means may comprise a heat exchanger, a resistance heater, a electric heater, or any type of heating device.
- Heater 24 is disposed in second inlet line 22.
- a purnp 26 as shown in Fig. 1 conveys the first gas stream through heater 24 and into first chamber "12.
- the gas stream should be heated to a temperature around the melt temperature of the melt, to keep the melt in liquid (i.e., melt) form.
- auxiliary heat is provided to the first inlet line that supplies the melt prior to injection, to prevent pluggage of the line.
- An apparatus of the present invention further includes, in the first aspect of the process, a hopper 28 as shown in Figs. 1 and 2.
- Hopper 28 introduces a particle to the zone of turbulence. It is preferable that the outlet end of the flow restrictor is positioned in the first chamber beneath the hopper at the center line of the hopper. This serves to ensure that the particles are introduced directly into the zone of turbulence. Th is is important because, as noted above, the turbulence subjects the liquid composition to shear forces that atomize the liquid composition. It also increases operabil ⁇ ty by providing a configuration for feeding the particles most easily. In addition, the shear forces disperse and mix the atomized liquid composition with the particles, which allows the particles to be coated.
- Hopper 28 may be fed directly from a storage container 30 as shown by arrow 29 in Fig. 1.
- the hopper of the present invention may include a metering device for accurately etering the particles at a particular ratio to the liquid feed from liquid inlet line 16 into the .zone of turbulence. This metering establishes the level of coating on the particle.
- the hopper of the present invention is open to the atmosphere.
- the particles are at ambient temperature because this facilitates solidification o-f the melt after the melt that is initially at a higher te perature coats the pa rticle in the zone of turbulence.
- hopper 28 is not used and is sealed from the apparatus.
- the apparatus used to disclose the present invention may further include a second chamber 32 surrounding the first chamber as shown in Figs. 1 and 2.
- the second chamber encloses the zone of turbulence.
- Second chamber 32 has an inlet 34 for introducing a second gas stream into the second chamber.
- the inlet of the second chamber is preferably positioned at or near the upstream end of second chamber 32.
- the outlet of second chamber 32 is connected to a collection container, such as that shown at 36 in Fig. 1.
- the second gas stream cools and conveys the coated particles toward the collection container as illustrated by arrow 31 in Fig. 2.
- the solid of the solution or slurry cools between the zone of turbulence and container so that by the time the particle reaches the container, a solid coating comprising the solid of the solution or slurry is formed on the particle.
- the liquid composition cools in the zone of turbulence so that by the time the particle reaches the container, a solid coating comprising the melt is formed on the particle.
- the first gas stream, as well as the second gas stream, is vented through the top of collection container 36.
- the residence time of the particles in the zone of turbulence is determined by the geometry of the first cha ber and the amount of gas injected from the gas inlet line.
- the average residence time of the particle within the zone of turbulence is preferably less than 250 milliseconds. More preferably, the average residence time of the particle within the zone of turbulence is in the range of 25 to 250 milliseconds. Short residence times can be achieved because of the action of the zone of turbul ence.
- inlet 34 may be connected to a blower, not shown, which supplies the second gas stream to the second chamber.
- the blower and second chamber 32 may be eliminated, however, and the first gas stream may be used to cool the particles and to convey th m to container 36.
- the solid fro the solution, slurry, or melt cools and solidifies on the particle in the atmosphere between the zone of turbulence and the collection container, and the coated particles fal l into collection container 36.
- the axial length of the zone of turbulence is about ten times the diameter of the second cham ber. This allows the pressure at the outlet of the flow restrictor to be at a minimum.
- the articles are fed into second chamber 32 as shown in Figs. 1 and 2 nea r the outlet of the flow restrictor, which is preferably positioned at the center line of the hop per. If the pressure at the outlet is too great, the particles will back flow into the hopper.
- a convective drying process can be used for removing residual volatiles that result from putting a solution, slurry, or emulsion coating o nto the surface of a pharmaceutical particle.
- the coated particle exits the process of the invention as a dry and disperse product with the same particle size as the substrate plus coating thickness.
- the structural integrity of the particle is not great enough to withstand the forces in the zone of turbulence, however, particle size and shape of the final particles emerging from the process may be affected.
- the design of the process tends to preclud e wet particles from reaching any wall to which they may stick, which improves the cleanliness of the system, and may also include a recycle system that can reduce a ny interparticle or particle-to-wall sticking that might otherwise occur.
- This process may be selected from any number of methods, including but not limited to flash drying, pneu matic conveyor drying , spray drying, or combinations thereof. Residence times for drying are generally less than a minute and preferably in the millisecond time frame.
- the coating materials are generally liquid in nature and can be single or multiple chemical compositions. Thus, they may be pure liquids, solutions, suspensions, dispersions, emulsions, melted polymers, resins, and the like. These materials generally have viscosities in the 1 to
- Coatings that are applied can be hydrophilic, hydrophobic, or amphoteric in nature, depending on their chemical composition. When more than one coating is applied, it can be either as another shell adhering to the previous coating, o r as individual particles on the surface of the material to be coated. These materials may also be reactive so that they cau se the material they are coating to increase in viscosity or change to a solid or semi-solid material. It should be noted that the process of the present invention may be practiced using the apparatus illustrated in Figs. 1 , 2, and 3, although it should be understood that the process of the present invention is not lim ited to the illustrated apparatus. For example , the apparatus of Figs.
- FIG. 1 and 2 can have an alternate configuration, as seen in Fig. 3.
- Solids could enter the apparatus through hopper 43.
- Liquid is added via a liquid inlet tub 42 located at the top of the apparatus so that the liquid exists into the high shear/turbulence zone.
- Hot gas enters chamber 44 through nozzle 41 .
- Produce outlet from chamber 44 exits to coll ector 40. This configuration can allow for faster changes of liqu id used for coating and is less expensive to mainta in.
- a further aspect of the invention relates to particles having uniq ue dissolution functionalities due to application of surface active agent onto the surface of the particles.
- Applicants herein disclose particles de onstrating significantly enhanced dissolution ability over previously known pharmaceutical particles. Applicants attribute this unique functionality to the ability of the claimed process to discreetly coat surface active agents onto the surfaces of individual particles.
- the term "enhanced" as relating to dissolution refers to a measurable increase in the rate of dissolution co pared to the rate of dissolution of particles th at have not been coated with surface active agent.
- the coated particles exhibit at least a 10% increase in the rate of dissolution over uncoated particles, more preferably a 50% increase, more preferably a 200%, more preferably a 500% and most preferably a 1000% increase in rate of dissolution over uncoated particles.
- a "surface active agent" is defined by
- surfactants emulsifiers and solubilizing agents that acts to reduce surface tension when dissolved in water or aqueous solutions, or that reduce interfacial tension between two liquids, or between a liquid and a solid.
- surface active agents detergents, wetting agents and emulsifiers; all use the same basic chemical mechanism and differ chiefly in the nature of the surfaces involved.
- surface active agents include, but are not limited to, polysorbates, polyethylene glycols, sodium lauryl sulfate (SLS), lecithin, oleic acid, Polozxamer®, Tween, polyoxyethylene alkyl ethers, Cremophor EL, Cremophor RH, polyoxyethylene stearates and sorbitan fatty acid esters.
- the useful range of application of surface active agents to particles is believed to be from about 0.1 ) to about 30%; or preferably from about 1 % to about 20%; or more preferably from about 1 % to about 10%, by total weight of the applied surface active agent to final weight of the composition of coated pharmaceutical particles.
- the size of pharmaceutical particles having the surface active agent coated thereon will be from about
- Size refers to an average starting size of the uncoated pharmaceutical particles to be coated, wherein the average size measurement will be referred to as the d 50 or D50 size.
- Particularly preferred aspects of this aspect of the invention include, for example, ibuprofen particles that have been coated with surface active agents such as Poloxamer ® or SLS.
- Capsugel® two piece capsules Pfize r, Inc., Greenwood, SC; Poloxamer® 188, Fruit-Eze, Inc., Portland, OR; also available from Spectrum Chemical Co., Gardena, GA.
- Tween 80 non-ionic surfactant EM S cience, Gibbstown, NJ EXAMPLE 1
- Samples of Ibuprofen, USP (Spectrum Chemical Co., Gardena, CA) were coated using the apparatus as shown in Fig. 1.
- the apparatus had a mixing chamber 3.18 cm in diameter and 19.05 cm in length with a nozzle throat of 1.02 cm and a central liquid feedtube of 0.39 cm in d iameter.
- the apparatus has a single screw metering feeder (AccuRate, Wh itewater, WI) for metering the solid particles.
- a peristaltic pump (Cole-Parnner, Vernon Hills, IL) was fit with 6.5 mm TygonTM elastomer tubing for metering the liquid.
- Ibuprofen was metered to the system (51.3, 71.6, 120.5 g/min).
- Eudragit®R RL30D at 22 °C ambient temperature was metered in a range of (27.0, 28.1, 30.4 g/min) to the center tube.
- the heated gas pressure at the nozzle was 551 kPa and the temperature was at 125 °C at the nozzle.
- the nitrogen gas This pressurized air was used to atomized the Eudragit® RL30D, producing a negative pressure in the mixing zone to induce the addition of the Ibuprofen, and to provide the heat for evaporating any residual moisture from the ibuprofen.
- the product of the mixing/drying was conveyed down a 0.35 m tube to a cyclone to enable collection of the product.
- the product samples had a Eudragit® RL30D mass raction of (7.0 %, 10.5 %, 1 3.6 % w/w).
- the Eudragit® RL30D coated ibuprofen particles were drymixed 1 : 1 with an excipient (microcrystalline cellulose, FMC Corp., Philadelphia, PA) and filled into Capsugel 00 hard gelatin capsules (Capsugel, Greenwood, SC) such that each capsule contained 200mg of ibuprofen.
- the content uniformity was assessed on three units per formulation according to the USP method.
- the USP method involved emptying the entire contents of a capsule into an appropriate container, then mixing with 17.0 mL of internal standard solution, followed by shaking for 10 minutes and finally ce ntrifugation prior to concentration analysis.
- the USP assay method is a high performance liquid chromatographic method with UV spectrophotometric detectio n at 254 nm.
- the monograph specifies a 4.6 mm x 25 cm column with L1 packing; the column used was a Zorbax® ODS column (Agilent, Palo Alto, CA) with 5 micron particles.
- the mobile phase is a 60/40 mixture of acetonitrile and 1 % chloroacetic acid solution (pH of the 1 % chloroacetic acid adjusted to 3.0 prior to combining with the acetonitrile.) Valerophenone is used as an internal standard in the quantisation of results.
- control capsule formulation containing 1 :1 unprocessed ibuprofen with microcrystalline cellulose excipient.
- USP-type stainless steel sinkers were employed to keep the product from floating when first introduced into the vessels.
- the vessel volume was 900 mL and the paddle speed was 50 rpm for all the media in which samples were tested. All samples at various dissolution time points samples were analyzed on a by UV spectrophotometer at about 221 nm.
- reference standard cou Id not be prepared using dissolution medium due to poor solubility.
- the USP assay method is a high performance liquid chromatographic method with UV spectrophotometric detection at 254 nm.
- the monograph specifies a 4.6 mm x 25 cm column with L1 packing; the column used was a Zorbax®
- the mobile phase is a 60/40 mixture of acetonitrile and 1 % chloroacetic acid solution (pH of th e 1 % chloroaceticacid adjusted to 3.0 prior to combining with the acetonitrile.)
- Valerophenone is used as an internal standard in the quantitation of results. Table 1 below gives the %> dissolved over time as well as 'infinity', which is achieved by increasing the agitator rate to 200 rpm following the 60 minute sample and measuring solute ibuprofen concentration after 15 further minutes.
- Ibuprofen USP (Spectrum Chemical Manufacturing Co., Gardena, CA) was coated using the apparatus as shown in Fig. 1.
- the apparatus had a mixing chamber of either 2.54 cm in diameter and 19.05 cm long or 3.18 cm in diameter and 43. 8 cm long with a nozzle throat of diameter between 0.64 cm and 1.02 cm and a central liquid feedtube diameter between 0.18 cm and 0.39 cm.
- the apparatus has a single screw metering feeder (AccuRate) for metering the solid particles.
- ibuprofen was fed at a rate of 300-400 g/min.
- a peristaltic pump (Masterflex model 5718-10 Cole-Parmer, Vernon Hills, IL) was fitted with either Masterflex LS/25 (4.8mm I.D) or LS/16 (3.1mm I.D) Tygo n® elastomer tubing for etering the liquid.
- Ethylcellulose (Ethocel Standard, Premium; Dow Chemical Co., Midland. Ml) was dissolved in acetone to form a coating solution.
- triethyl citrate used as a plasticizer; Spectrum Chemical Co., Gardena, CA), was also dissolved in the solution.
- the coating solution at room tern perature was metered in a range of 20-30 g/min to the center tube.
- Fig. 4 shows scanning electron micrographs of coated and uncoated particles.
- the particle size distribution of the u coated and coated ibuprofen is shown in Table 2.
- D16, D50 and D84 represent sizes in micrometers based on cumulative volume distribution at 16%, 50% and 84%, respectively.
- Particle size of the coated particles indicates that there is som e agglomeration leading to larger particles. Agglomeration during the coating process depends mainly on the nature of the coating materia I.
- the uncoated and coated powders were directly-compressed separately into a 200 mg strength tablet after blending with fillers, disintegrant, and lubricant (mannitol, Roquette America Inc., Gurnee, IL) and microcrystalline cellulose (FMC Corp., Philadelphia, NJ) were used as fillers, croscarmellose sodium (FMC Corp., Philadelphia, NJ) as disintegrant and magnesium stearate (IVlallincrockrodt, St. Louis, MO) as lubricant. Powders were blended using a Turbula mixer (Glen Mills, Inc, Clifton, NJ). The blend was compressed into tablets using a carver press
- Caffeine, USP (Spectrum Chemical Co., Gardena, CA) were coated using the apparatus as shown in Fig. 1 and described in Example 2.
- the apparatus has a single screw metering feeder (AccuRate (Wh itewater, WI) for metering the solid particles.
- ibuprofen was fed at a rate of 300-400 g/min.
- a peristaltic pump (Masterflex model 5718-10) was fitted with either IVlasterflex LS/25 (4.8 mm I.D) or LS/16 (3.1 mm I.D) Tygon elastomer tubing for metering the liquid.
- Eudragit was dissolved in acetone to form a coating solution.
- triethyl citrate (used as a plasticizer), was also dissolved in the solution.
- the coating solution at room temperature was metered in a range of 20-30 g/min to the center tube. Heated nitrogen gas was used to atomize the coating solution producing a negative pressure in the m ⁇ xing zone to induce the addition of the caffeine, and to provide the heat for evaporating the solvent.
- the product of the mixing/evaporation was conveyed through the mixing chamber to a cyclone to enable collection of the product. The product was passed repeated ly through the apparatus using the same process conditions as mentioned in this example.
- the final product samples had a coating mass fraction of 13-14% w/w.
- Fig. 6 shows scanning electron micrographs of coated and uncoated particles. The particle sizie distribution of the uncoated and coated caffeine is shown in Table 3. D10,
- D50 and D90 represent particle sizes in micrometers based on cumulative volume distribution at 10%, 50% and 90% respectively.
- the results indicate that by coating with Eudragit® EPO fine particles of caffeine tend to agglomerate and cause particles to break down maki ng the distribution of particles narrower.
- the dissolution profiles of coated and uncoated caffeine particles were generated in water using USP apparatus 2 at 50 rpm.
- the powders were directly-compressed into tablets after blending with fillers, disintegrant and lubricant as described above in Example 2.
- the dissolution results indicate somewhat slower dissolution rate during the in itial sampling period, but almost all the drug came out within 20 minutes from both uncoated and coated particles. This again indicates that although the particles are coated, the type of polymer and the coating thickness are not sufficient to slow the dissolution significantly.
- EXAMPLE 4 This Example illustrates the second aspect of the process of the invention, wherein the particle to be coated is contained within the coating material prior to delivery to the coating process. As will be apparent to those skilled in this art, this aspect of the process is useful only in configurations wherein the particle to be coated is insoluble in the in itial coating material.
- Sodium chloride powder, USP (Spectrum Chemical Co., Gardena,
- CA CA
- Fig. 1 CA
- a peristaltic pump was fit with Masterflex LS/25 (4.8mm I.D) Tygon elastomer tubing for metering the liquid.
- Ethylcellulose was dissolved in acetone to form a coating solution.
- Triethyl citrate (used as a plasticizer), was also dissolved into the solution.
- Sodium chloride was dispersed in the coating solution. The dispersion at room temperature was metered in a range of 55-65 g/min to the nozzile. Heated nitrogen gas was used to atomize the dispersion and to provide the heat for evaporati g acetone. Dry coated sodium Chloride was collected in the product container.
- Fig. 9 shows scanning electron micrographs of coated a nd uncoated particles.
- the particle sizes of the uncoated and coated particles were measured using Beckman Coulter LS230 by dispersing the particles in isopropyl alcohol.
- the particle size distributions are shown in Table 4 do not indicate any change due to coating.
- the ToF-SIMS secondary ion mapping also indicates that most of the surface of NaCI is covered with ethylcellulose ( Figure 10).
- these particles were also analyzed using Time of Flight- Secondary Ion Mass Spectroscopy (lon-ToF Model IV, lon-ToF, Gm bH, Muenster, Germany).
- the particles were mounted on a double-sided sticky tape and introduced into the vacuum system of the instrument.
- Mass spectra were obtai ned using Gold primary source with a pulsed electron flood gun for charge compensation.
- the secondary ion rna pping data was acquired by rastering the primary ion beam across the sample with pixel resolution of 128 x 128.
- the distribution maps as shown i n Figure 10 were generated by adding intensities of NaCI-specific or ethylcellulose-specific secondary ion peaks for each pixel.
- Ibuprofen particles were coated using the apparatus as shown in Fig. 1 and described in Example 2.
- the apparatus has a single scre ⁇ /v metering feeder (Accu Rate) for metering the solid particles which were delivered at 325-425 g7min.
- a peristaltic pum was fit with Masterflex LS/16 (3.1 mm I.D) Tygon elastomer tubing for metering the liquid.
- Ibuprofen was metered to the system (g/min).
- Poloxamer®188 (Spectrum Chemical Co., Garden a, CA) was dissolved in acetone to form a coating solution.
- the coating solution at room temperature was metered in a range of 20-30 g/min to the nozzle.
- Heated nitrogen gas was used to atomize the coating solution, producing a negative pressure in the mixing zone to induce the addition of the Ibuprofen, and to provide the heat for evaporating any solvent from the ibuprofen.
- the product of the mixing/drying was conveyed down a 1.25" (3.175 cm) I.D. x 17" (17.78 cm) long tube to a cyclone to enable collection of the product.
- the product was passed repeatedly through the apparatus using the same process conditions as mentioned in this example.
- the final product samples had a Poloxamer mass fraction of 10-12% w/w.
- Fig. 12 shows scanning electron micrographs of coated and uncoated particles.
- the uncoated and coated powders were directly-compressed into a 200 mg strength tablet after blending with fillers, disintegrant, and lubricant, as described above in Example 2.
- the dissolution was performed in two dissolution mediums - 0.1 N HCI and phosphate buffer (pH 7.2)- using USP apparatus 2 at 50 rpm.
- unprocessed ibu profen, micronized ibuprofen and unprocessed ibuprofen blended with Poloxamer were also formulated as tablets for dissolution studies.
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Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2003259910A AU2003259910A1 (en) | 2002-08-14 | 2003-08-14 | Process for coating a pharmaceutical particle |
JP2004529556A JP2006507036A (en) | 2002-08-14 | 2003-08-14 | Method for coating drug particles |
EP03788623A EP1542659A4 (en) | 2002-08-14 | 2003-08-14 | Process for coating a pharmaceutical particle |
US10/521,369 US20050220996A1 (en) | 2002-08-14 | 2003-08-14 | Process for coating a pharmaceutical particle |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US40348702P | 2002-08-14 | 2002-08-14 | |
US60/403,487 | 2002-08-14 |
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WO2004016247A1 true WO2004016247A1 (en) | 2004-02-26 |
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ID=31888240
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PCT/US2003/025883 WO2004016247A1 (en) | 2002-08-14 | 2003-08-14 | Process for coating a pharmaceutical particle |
Country Status (7)
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US (1) | US20050220996A1 (en) |
EP (1) | EP1542659A4 (en) |
JP (1) | JP2006507036A (en) |
KR (1) | KR20050062532A (en) |
CN (1) | CN1674874A (en) |
AU (1) | AU2003259910A1 (en) |
WO (1) | WO2004016247A1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9844512B2 (en) | 2010-06-03 | 2017-12-19 | Catalent Ontario Limited | Multi phase soft gel capsules, apparatus and method thereof |
Families Citing this family (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU2003259911A1 (en) * | 2002-08-14 | 2004-03-03 | E.I. Du Pont De Nemours And Company | Coated soy product and method for coating |
WO2008092084A2 (en) * | 2007-01-26 | 2008-07-31 | Centocor, Inc. | Injectable non-aqueous suspension with high concentration of therapeutic agent |
GB0712316D0 (en) * | 2007-06-26 | 2007-08-01 | Entripneur Ltd | A novel powder and its method of manufacture |
JP5872140B2 (en) * | 2010-03-25 | 2016-03-01 | 住友ベークライト株式会社 | Particle manufacturing method and semiconductor sealing resin composition manufacturing method |
JP5825686B2 (en) * | 2010-03-31 | 2015-12-02 | エスエス製薬株式会社 | Method for producing slightly water-soluble drug-containing fine particle granulated product |
CN104257610A (en) * | 2010-04-01 | 2015-01-07 | 奇斯药制品公司 | Process For Preparing Carrier Particles For Dry Powders For Inhalation |
US8440265B2 (en) * | 2010-04-15 | 2013-05-14 | Appleton Papers Inc. | Water- and heat-resistant scratch-and-sniff coating |
FR2959130A1 (en) * | 2010-04-21 | 2011-10-28 | Sanofi Aventis | PROCESS FOR PREPARING PHARMACEUTICAL COMPOSITIONS FOR ORAL ADMINISTRATION COMPRISING ONE OR MORE ACTIVE INGREDIENTS AND COMPOSITIONS COMPRISING SAME |
GB201419308D0 (en) * | 2014-10-30 | 2014-12-17 | Univ Aston | Coating apparatus and method |
JP6688813B2 (en) * | 2015-05-27 | 2020-04-28 | ジボダン エス エー | Spray dry |
CN111343871B (en) * | 2017-11-07 | 2022-04-12 | 普拉克生化公司 | Acetate powder and method for producing the same |
CN107802611B (en) * | 2017-12-11 | 2020-12-22 | 上海国创医药有限公司 | Medical tablet coating process |
CN110856692B (en) * | 2018-08-22 | 2024-08-09 | 深圳善康医药科技股份有限公司 | Automatic coating device and coating process for implant |
US10945953B1 (en) * | 2019-09-12 | 2021-03-16 | Nulixir Inc. | Controlled release core-shell particles and suspensions including the same |
WO2022003980A1 (en) * | 2020-07-03 | 2022-01-06 | 富士製薬工業株式会社 | Solid formulation |
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US3241520A (en) * | 1964-10-19 | 1966-03-22 | Wisconsin Alumni Res Found | Particle coating apparatus |
US4335676A (en) * | 1979-11-30 | 1982-06-22 | Societe Chimique Des Charbonnages S.A. | Device for regulating a gaseous flowstream introduced into a spouted bed granulating and/or coating apparatus |
US5800923A (en) * | 1995-08-29 | 1998-09-01 | E. I. Du Pont De Nemours And Company | Acid composition comprising a coated polyvalent carboxylic acid solid particle and a powder coating comprising the same |
US6312521B1 (en) * | 1998-12-14 | 2001-11-06 | Primera Foods Corporation | Apparatus and process for coating particles |
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GB932378A (en) * | 1959-09-25 | 1963-07-24 | Giuseppe Carlo Sigurta | Antacid preparation and the method for producing same |
BE788554A (en) * | 1971-09-23 | 1973-01-02 | Rech Applic Scient Sogeras S A | PROCESS FOR THE MANUFACTURE OF SPRAYED ACTIVE SUBSTANCES PROTECTED AGAINST A BIOLOGICAL ENVIRONMENT |
US4016110A (en) * | 1972-07-26 | 1977-04-05 | The Dow Chemical Company | Process for the preparation of expandable microspheres |
US4800087A (en) * | 1986-11-24 | 1989-01-24 | Mehta Atul M | Taste-masked pharmaceutical compositions |
US4835187A (en) * | 1987-06-15 | 1989-05-30 | American Home Products Corporation | Spray dried ibuprofen |
EP0297866A3 (en) * | 1987-07-01 | 1989-12-13 | The Boots Company PLC | Therapeutic agents |
JPH04230625A (en) * | 1990-12-27 | 1992-08-19 | Standard Chem & Pharmaceut Corp Ltd | Method for production of finely dispersed tablet composition consisting of microcapsule containing sprayed and dried sodium dichlofenac and having enteric coating |
CA2146999A1 (en) * | 1992-10-16 | 1994-04-28 | Stephen John Douglas | Taste-masking compositions of ranitidine |
ES2146899T3 (en) * | 1995-08-29 | 2000-08-16 | Du Pont | APPARATUS AND PROCEDURE TO COVER A SOLID ARTICLE. |
JPH11512097A (en) * | 1995-08-29 | 1999-10-19 | イー・アイ・デユポン・ドウ・ヌムール・アンド・カンパニー | Crop protectant composition containing solid crop protectant particles coated with a water-insoluble coating material and crop protectant mixture containing the same |
JP2002541183A (en) * | 1999-04-14 | 2002-12-03 | グラクソ グループ リミテッド | Pharmaceutical aerosol formulation |
JP4711520B2 (en) * | 2000-03-21 | 2011-06-29 | 日本ケミカルリサーチ株式会社 | Bioactive peptide-containing powder |
-
2003
- 2003-08-14 CN CNA038194848A patent/CN1674874A/en active Pending
- 2003-08-14 WO PCT/US2003/025883 patent/WO2004016247A1/en active Application Filing
- 2003-08-14 EP EP03788623A patent/EP1542659A4/en not_active Withdrawn
- 2003-08-14 KR KR1020057002323A patent/KR20050062532A/en not_active Application Discontinuation
- 2003-08-14 AU AU2003259910A patent/AU2003259910A1/en not_active Abandoned
- 2003-08-14 JP JP2004529556A patent/JP2006507036A/en active Pending
- 2003-08-14 US US10/521,369 patent/US20050220996A1/en not_active Abandoned
Patent Citations (4)
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US3241520A (en) * | 1964-10-19 | 1966-03-22 | Wisconsin Alumni Res Found | Particle coating apparatus |
US4335676A (en) * | 1979-11-30 | 1982-06-22 | Societe Chimique Des Charbonnages S.A. | Device for regulating a gaseous flowstream introduced into a spouted bed granulating and/or coating apparatus |
US5800923A (en) * | 1995-08-29 | 1998-09-01 | E. I. Du Pont De Nemours And Company | Acid composition comprising a coated polyvalent carboxylic acid solid particle and a powder coating comprising the same |
US6312521B1 (en) * | 1998-12-14 | 2001-11-06 | Primera Foods Corporation | Apparatus and process for coating particles |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9844512B2 (en) | 2010-06-03 | 2017-12-19 | Catalent Ontario Limited | Multi phase soft gel capsules, apparatus and method thereof |
US11173125B2 (en) | 2010-06-03 | 2021-11-16 | Catalent Ontario Limited | Multiphase soft gel capsules, apparatus and method thereof |
Also Published As
Publication number | Publication date |
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US20050220996A1 (en) | 2005-10-06 |
JP2006507036A (en) | 2006-03-02 |
KR20050062532A (en) | 2005-06-23 |
CN1674874A (en) | 2005-09-28 |
EP1542659A4 (en) | 2008-03-26 |
EP1542659A1 (en) | 2005-06-22 |
AU2003259910A1 (en) | 2004-03-03 |
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