IE56515B1 - Osmotic device with dual thermodynamic activity - Google Patents
Osmotic device with dual thermodynamic activityInfo
- Publication number
- IE56515B1 IE56515B1 IE10/84A IE1084A IE56515B1 IE 56515 B1 IE56515 B1 IE 56515B1 IE 10/84 A IE10/84 A IE 10/84A IE 1084 A IE1084 A IE 1084A IE 56515 B1 IE56515 B1 IE 56515B1
- Authority
- IE
- Ireland
- Prior art keywords
- composition
- osmotic
- beneficial agent
- wall
- compartment
- Prior art date
Links
- 230000003204 osmotic effect Effects 0.000 title abstract description 178
- 230000009977 dual effect Effects 0.000 title description 5
- 230000000694 effects Effects 0.000 title 1
- 239000000203 mixture Substances 0.000 claims abstract description 166
- 230000009286 beneficial effect Effects 0.000 claims abstract description 76
- 239000003795 chemical substances by application Substances 0.000 claims description 112
- -1 poly(ethylene oxide) Polymers 0.000 claims description 95
- 239000003814 drug Substances 0.000 claims description 73
- 239000012530 fluid Substances 0.000 claims description 73
- 229940079593 drug Drugs 0.000 claims description 69
- 229920002678 cellulose Polymers 0.000 claims description 23
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- 239000001913 cellulose Substances 0.000 claims description 22
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- 229920003088 hydroxypropyl methyl cellulose Polymers 0.000 claims description 14
- 239000001866 hydroxypropyl methyl cellulose Substances 0.000 claims description 13
- 235000010979 hydroxypropyl methyl cellulose Nutrition 0.000 claims description 13
- UFVKGYZPFZQRLF-UHFFFAOYSA-N hydroxypropyl methyl cellulose Chemical compound OC1C(O)C(OC)OC(CO)C1OC1C(O)C(O)C(OC2C(C(O)C(OC3C(C(O)C(O)C(CO)O3)O)C(CO)O2)O)C(CO)O1 UFVKGYZPFZQRLF-UHFFFAOYSA-N 0.000 claims description 13
- HYIMSNHJOBLJNT-UHFFFAOYSA-N nifedipine Chemical compound COC(=O)C1=C(C)NC(C)=C(C(=O)OC)C1C1=CC=CC=C1[N+]([O-])=O HYIMSNHJOBLJNT-UHFFFAOYSA-N 0.000 claims description 10
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- 229960001259 diclofenac Drugs 0.000 claims description 3
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- 230000004044 response Effects 0.000 claims description 3
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- MYEJFUXQJGHEQK-ALRJYLEOSA-N Proscillaridin Chemical compound O[C@@H]1[C@H](O)[C@@H](O)[C@H](C)O[C@H]1O[C@@H]1C=C2CC[C@H]3[C@@]4(O)CC[C@H](C5=COC(=O)C=C5)[C@@]4(C)CC[C@@H]3[C@@]2(C)CC1 MYEJFUXQJGHEQK-ALRJYLEOSA-N 0.000 claims description 2
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- 239000000463 material Substances 0.000 abstract description 19
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- 238000005213 imbibition Methods 0.000 description 17
- 125000002777 acetyl group Chemical group [H]C([H])([H])C(*)=O 0.000 description 16
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- AEQFSUDEHCCHBT-UHFFFAOYSA-M sodium valproate Chemical compound [Na+].CCCC(C([O-])=O)CCC AEQFSUDEHCCHBT-UHFFFAOYSA-M 0.000 description 1
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- WWJZWCUNLNYYAU-UHFFFAOYSA-N temephos Chemical compound C1=CC(OP(=S)(OC)OC)=CC=C1SC1=CC=C(OP(=S)(OC)OC)C=C1 WWJZWCUNLNYYAU-UHFFFAOYSA-N 0.000 description 1
- OKUCEQDKBKYEJY-UHFFFAOYSA-N tert-butyl 3-(methylamino)pyrrolidine-1-carboxylate Chemical compound CNC1CCN(C(=O)OC(C)(C)C)C1 OKUCEQDKBKYEJY-UHFFFAOYSA-N 0.000 description 1
- RBTVSNLYYIMMKS-UHFFFAOYSA-N tert-butyl 3-aminoazetidine-1-carboxylate;hydrochloride Chemical compound Cl.CC(C)(C)OC(=O)N1CC(N)C1 RBTVSNLYYIMMKS-UHFFFAOYSA-N 0.000 description 1
- WUBVEMGCQRSBBT-UHFFFAOYSA-N tert-butyl 4-(trifluoromethylsulfonyloxy)-3,6-dihydro-2h-pyridine-1-carboxylate Chemical compound CC(C)(C)OC(=O)N1CCC(OS(=O)(=O)C(F)(F)F)=CC1 WUBVEMGCQRSBBT-UHFFFAOYSA-N 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
- YLQBMQCUIZJEEH-UHFFFAOYSA-N tetrahydrofuran Natural products C=1C=COC=1 YLQBMQCUIZJEEH-UHFFFAOYSA-N 0.000 description 1
- 229960000278 theophylline Drugs 0.000 description 1
- 229940124597 therapeutic agent Drugs 0.000 description 1
- 229960004605 timolol Drugs 0.000 description 1
- OUDSBRTVNLOZBN-UHFFFAOYSA-N tolazamide Chemical compound C1=CC(C)=CC=C1S(=O)(=O)NC(=O)NN1CCCCCC1 OUDSBRTVNLOZBN-UHFFFAOYSA-N 0.000 description 1
- 229960002277 tolazamide Drugs 0.000 description 1
- 239000003204 tranquilizing agent Substances 0.000 description 1
- 230000002936 tranquilizing effect Effects 0.000 description 1
- 229910052723 transition metal Inorganic materials 0.000 description 1
- GFNANZIMVAIWHM-OBYCQNJPSA-N triamcinolone Chemical compound O=C1C=C[C@]2(C)[C@@]3(F)[C@@H](O)C[C@](C)([C@@]([C@H](O)C4)(O)C(=O)CO)[C@@H]4[C@@H]3CCC2=C1 GFNANZIMVAIWHM-OBYCQNJPSA-N 0.000 description 1
- 229960005294 triamcinolone Drugs 0.000 description 1
- QORWJWZARLRLPR-UHFFFAOYSA-H tricalcium bis(phosphate) Chemical compound [Ca+2].[Ca+2].[Ca+2].[O-]P([O-])([O-])=O.[O-]P([O-])([O-])=O QORWJWZARLRLPR-UHFFFAOYSA-H 0.000 description 1
- PVNIQBQSYATKKL-UHFFFAOYSA-N tripalmitin Chemical compound CCCCCCCCCCCCCCCC(=O)OCC(OC(=O)CCCCCCCCCCCCCCC)COC(=O)CCCCCCCCCCCCCCC PVNIQBQSYATKKL-UHFFFAOYSA-N 0.000 description 1
- 229910000406 trisodium phosphate Inorganic materials 0.000 description 1
- 235000019801 trisodium phosphate Nutrition 0.000 description 1
- 238000000108 ultra-filtration Methods 0.000 description 1
- 210000001215 vagina Anatomy 0.000 description 1
- 229940102566 valproate Drugs 0.000 description 1
- 229960002726 vincamine Drugs 0.000 description 1
- 229920002554 vinyl polymer Polymers 0.000 description 1
- 239000011800 void material Substances 0.000 description 1
- 229920003176 water-insoluble polymer Polymers 0.000 description 1
- 238000005550 wet granulation Methods 0.000 description 1
- NWONKYPBYAMBJT-UHFFFAOYSA-L zinc sulfate Chemical compound [Zn+2].[O-]S([O-])(=O)=O NWONKYPBYAMBJT-UHFFFAOYSA-L 0.000 description 1
- 229960001763 zinc sulfate Drugs 0.000 description 1
- 229910000368 zinc sulfate Inorganic materials 0.000 description 1
- UHVMMEOXYDMDKI-JKYCWFKZSA-L zinc;1-(5-cyanopyridin-2-yl)-3-[(1s,2s)-2-(6-fluoro-2-hydroxy-3-propanoylphenyl)cyclopropyl]urea;diacetate Chemical compound [Zn+2].CC([O-])=O.CC([O-])=O.CCC(=O)C1=CC=C(F)C([C@H]2[C@H](C2)NC(=O)NC=2N=CC(=CC=2)C#N)=C1O UHVMMEOXYDMDKI-JKYCWFKZSA-L 0.000 description 1
- ZXVNMYWKKDOREA-UHFFFAOYSA-N zomepirac Chemical compound C1=C(CC(O)=O)N(C)C(C(=O)C=2C=CC(Cl)=CC=2)=C1C ZXVNMYWKKDOREA-UHFFFAOYSA-N 0.000 description 1
- 229960003414 zomepirac Drugs 0.000 description 1
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/0002—Galenical forms characterised by the drug release technique; Application systems commanded by energy
- A61K9/0004—Osmotic delivery systems; Sustained release driven by osmosis, thermal energy or gas
Landscapes
- Health & Medical Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Medicinal Chemistry (AREA)
- General Health & Medical Sciences (AREA)
- Epidemiology (AREA)
- Bioinformatics & Cheminformatics (AREA)
- Engineering & Computer Science (AREA)
- Pharmacology & Pharmacy (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Medicinal Preparation (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
- External Artificial Organs (AREA)
- Infusion, Injection, And Reservoir Apparatuses (AREA)
- Medical Preparation Storing Or Oral Administration Devices (AREA)
Abstract
An osmotic system is disclosed comprising a wall 12, 23 formed in at least a part of a semipermeable material that surrounds a compartment 14. The compartment contains a first osmotic composition 15, 16, 17 comprising a beneficial agent 15, and a second and different osmotic composition 18, 19. A passageway 13 in the wall connects the first composition with the exterior of the system.
Description
This invention pertains to both a novel ane* unique delivery system. More particularly, the invention relates to an osmotic device comprising a wall formed in * at least a part of a semi-permeable material that surrounds a compartment comprising: (1) a first osmotic composition comprising a beneficial agent, and an osmopolymer, said composition in contacting arrangement 'with (2) a second osmotic composition comprising an osmagent and an osmopolymer. A passageway through-.the. wall-connects--the .exterior of the osmotic device with the first osmotic composition containing the beneficial agent for delivering the first composition from the osmotic device. The osmotic device is particularly useful for delivering beneficial agents that because of their solubilities are difficult to deliver in a known amount at a controlled rate from an osmotic dispensing system.
Since the beginning of antiquity, both pharmacy and medicine have sought a delivery system for administering 2o * beneficial drug. The first written reference co a dosage form is in the Eber Papyrus, written about 1552 B.C. The Eber Papyrus mentions dosage, forms such as anal suppositories, vaginal pessaries, ointments, oral pill formulations, and other dosage preparations. About 2500 years passed without any advance in dosage form development, when the Arab physician Rhazes, 865*925 A.D., invented the coated pill. About a century later the Persian Avicenna, 980-1037 A.D., coated pills with gold or silver for increasing patient acceptability and for enhancing the effectiveness of £he drug. Also around this time, the first tablet was described in Arabian manuscripts written by al-Zahrawi, 936-1009 A.D.
The manuscripts described a cablet farmed from che hallow impressions in two facing tablet molds. Pharmacy and medicine waited about 800 years for the next innovation in dosage forms, when in 1883 Hothes invented che capsule for administering drug. The next quantum leap in dosage forms came in 1972 with the invention of che osmotic delivery device by inventors Theeuves and * Siguchi as disclosed in United States Pat. Nos. 3/845,770 and 3/916,899. The osmotic devices disclosed in those patents comprise a semi-permeable wall that 9 surrounds a compartment containing a useful agent. The wall is permeable to the passage of .an external fluid, and it is substantially impermeable to the passage of useful agenc. There is a passageway through the wall for delivering the useful agent from the osmotic device.
These devices release useful agent by fluid being imbibed through the semipermeable wall into the compartment at a rate determined by the permeability of the semipermeable wall and the osmotic pressure gradient across the semipermeable wall to produce an aqueous solution containing useful agent that is dispensed through the passageway from the device. These devices are extraordinarily effective for delivering a useful agent that is soluble in the fluid and exhibits an osmotic pressure gradient across the semipermeable wall against the external fluid. λ pioneer advancement in osmotic delivery devices was presented to the dispensing arts by inventor Felix Theeuwes in United States Patent No. 4/111,202. Xn this patent, the delivery kinetics of the osmotic device is enhanced for delivering useful agents that are insoluble to very soluble in the fluid/ by manufacturing the osmotic device with a useful agent compartment and an oamagent compartment separated by a film. The film is movable froa a rested to an expanded state. The osmotic device delivers agent by fluid being imbibed through the semipermeable wall into the oamagent compartment producing a solution that causes the compartment to increase in volume and act as a driving force that is applied against the film. This force urges the film to expand against the useful agent compartment and correspondingly diminish the volume of the useful agent compartment, whereby useful agent is dispensed through the passageway from the osmotic device. While this device operates successfully for its intended use, and while it can deliver numerous useful agents of varying solubilities, its use can be limited because of the manufacturing steps and costs needed for fabricating and placing the movable film in the * compartment of the osmotic device.
In United States Patent No- 4,327,725 patentees Richard Cortese and Felix Theeuwes provided an osmotic dispensing device for delivering beneficial agents, that because of their solubilities in aqueous and biological fluids, are difficult to deliver in meaningful amounts at controlled rates over time.
The osmotic devices of this patent comprise a semlpermeahle wall surrounding a compartment containing a beneficial agent that is insoluble to very soluble In aqueous and biological fluids, and an expandable hydrogel. In operation the hydrogel expands in the presence of external fluid that enters the device thereby causing the beneficial agent to be dispensed through the passageway from the device. This device operates successfully for its Intended use, and it delivers many difficult to deliver beneficial agents for their intended purpose. Wow it has been observed, its use can be limited because the hydrogel lacks a present ability to imbibe sufficient fluid for the maximum self-expansion needed for urging the benefleial agent from the device..
It will be appreciated by those versed in the dispensing art, that if an osmotic device can be provided that exhibits a high level of osmotic activity for delivering a beneficial agent by generating in situ an expanding force sufficient for Λdelivering the maximum amount of agent at a controlled rate from an osmotic device, such an osmotic device would have a positive value and represent an advancement in the dispensing art. Likewise, it will be immediately appreciated by those versed in the dispensing art that if an osmotic device ls made available possessing dual thermodynamic osmotic activity for delivering increased amounts of a beneficial agent, said osmotic device would find practical application in the fields of pharmacy and medicine.
IO Accordingly, ln view of the above presentation, it is an immediate object of this invention to provide an osmotic system that represents a further improvement and advancement ln the dispensing art· Another object of the invention is to provide an osmotic system manufactured in the form of an osmotic device for delivering In vivo a beneficial drug that ls difficult to deliver and now can be delivered by the osmotic device provided by this invention in therapeutically effective amounts over time.
Another object of the Invention is to provide an osmotic system possessing dual osmotic activity, which system comprises a compartment containing a first osmotic composition comprising a drug, and an osmopolymer, and a second osmotic composition comprising an osmagent and an osmopolymer, with the compositions acting in concert for deliver25 ing the drug from the osmotic device.
Tet another object of the invention is to provide an osmotic device having means for high loading of a water-insoluble or a 4’ slightly water-soluble drug and means foe delivering the drug in either instance at a controlled rate and continuously over time.
Yet another object of the invention is to provide an osmotic device that can deliver a pH dependent beneficial agent by providing a neutral medium for delivering the beneficial agent in a finely dispersed form for increasing its surface area and for maximizing *· the dissolution rate of the beneficial agent.
Still yet another object of the invention is to provide an osmotic system for delivering a drug having a very low dissolution rate that is the rate-limiting step for delivering the drug from the system, but now can be delivered by using an osmotic composition that functions in situ as a wetting agent and a solubilizing agent for increasing the dissolution rate and the solubility of the drug, thereby enhancing its delivery from the osmotic system.
Still yet another object of the invention is to provide an osmotic system comprising means for maintaining a high level of osmotic activity of a polymer used for delivering a beneficial agent from the osmotic system.
Still a further object of the invention is to provide an osmotic, therapeutic device that can administer a complete pharmaceutical dosage regimen comprising poorly soluble to very soluble agents, at a controlled rate and continuously, for a particular time period, the use of which requires intervention only for the initiation and possible termination of the regimen. i - 5a According to the present invention there is provided a device for the delivery at a controlled rate of a beneficial agent to an environment of use, the device comprising: a) a wall formed at least in part of a composition permeable to the passage of an exterior * fluid present in the environment of use but impermeable to beneficial agents, oamopolymers and osmagents the wall surrounding and forming; b) a compartment; c) a first composition in the compartment, said first composition comprising a beneficial agent and an osmopolymer; d) a second composition in the compartment, said second composition comprising an osmagent and an osmopolymer, adapted in use to act upon said first composition; and e) a passageway in the wall communicating with the first composition and the exterior of the device for delivering the beneficial agent from the device in response in part at least to the action of the second composition.
I The term osmopolymer" used herein denotes a swellable hydrophilic polymer which interacts with a fluid in an environment of use, such as water, to swell or expand to an equilibrium state. — ο— Other objects, features, aspects and advantages of the Invention will be more apparent to those versed in the dispensing art from the following detailed specification taken in conjunction with the Figures and the accompanying claims.
In the drawings, which are not drawn to scale, but are * set forth to illustrate various embodiments of the invention, the drawing figures are as follows: Figure 1 ls an isometric view of an osmotic device designed for orally administering a beneficial agent to the gastrointestinal tract; Figure 2 is an opened view of the osmotic device of Figure 1 illustrating the structure of the osmotic device of Figure Is Figure 3 is an opened view of the osmotic device of Figure 1 illustrating the osmotic device in operation and delivering a beneficial agent from the osmotic device; Figure 4 is an opened view of the osmotic device of Figure 1 considered with Figure 3 illustrating the osmotic device in operation and delivering a major amount of a beneficial agent from the Osmotic device; Figure 5 shows an osmotic therapeutic device with its wall partially broken away, designed for delivering a beneficial agent into a body passageway, such as the ano-rectal and vaginal passageways; Figure 6 shows the osmotic device of Figure 5 with a different wall structure; * •v -7Figure 7 shows the osmotic device of Figure 5 depicting a different wall structure than the wall structure depicted in Figure 6.
Figure 8 represents the weight gain as a function of time 5 for a polymer encapsulated in a semipermeable membrane when the encapsulated polymer ls placed in water; Figure 9 depicts the cumulative amount of drug released from a device comprising an osmopolymer having two different molecular weights; Figure 10 depicts the cumulative * amount of drug released from a device using a different set of osmopolymers; Figure 11 depicts the osmotic pressure curves for a number of osmagent and a number of osmopolymer/osmagent compositions; Figure 12 depicts the cumulative release profile for an 15 osmotic system using two different osmopolymers; Figure 13 depicts the release rate per hour for an osmotic system different from Figure 9 containing an osmopolymer having two different molecular weights; Figure 14 depicts the cumulative amount released from a 20 single composition device comprising only one layer; Figure 15 illustrates the in vivo and in vitro cumulative release for one drug delivered by the osmotic device; Figure 16 illustrates tbe in vivo and in vitro cumulative release for a different drug delivered by an osmotic device. if ir la che drawings and che specification, like tarts in related figures ace identified hy like parts. The terms appearing earlier in che specification and in the description of the drawings, as well as embedments thereof, are further detailed elsewhere in the disclosure.
Turning now co the drawings in detail, which are examples of various osmotic devices provided by the ύ invention, and which examples are not co be construed as limiting, one example of an osmotic device is seen in Figure 1. Xn Figure 1, osmotic device 10 is seen comprising a body member 11 having a wall 12 and a passageway 13 for releasing a beneficial agent from osmotic device 10.
In Figure 2, osmotic device 10 of Figure 1 is seen in opened section. Xn Figure 2, osmotic device 10 comprises a body 11, a semipermeable wall 12 that surrounds and forms internal compartment 14, that communicates through a passageway 13 with the exterior 2q of osmotic device 10. Compartment 14 contains a first osmotic composition comprising a beneficial agent 15, represented by dots, and it can be from insoluble to very soluble in fluid imbibed into compartment 14, an osmagenc 16, represented by wavy lines, that is soluble in fluid imbibed into compartment 14 and exhibits an osmotic pressure gradient across semipermeable wall 12 against an external fluid, and, an osmopolymer 17, represented by horizontal dashes, that Imbibes fluid into compartment 14 and exhibits an osmotic pressure gradient across semipermeable wall 12 against an exterior fluid present in che environment of use. Wall is formed of a semipermeable composition that is substantially permeable to the passage of the exterior fluid, and it is substantially ♦ * impermeable co the passage of agent 15, osmagent 16 and osmopolymer 17. Semipermeable wall 12 is non-toxic and ic maintains ics physical and chemical integrity during the delivery life of device 10.
Compartment 14 also houses a second osmotic * composition that is distant from passageway 13 and in contacting relation with the first composition. The second composition is an expandable driving force that u acts in cooperation with the first osmotic composition for delivering the maximum amount of beneficial agent 15 from osmotic device 10. The second osmotic composition comprises an osmagent 18, that is soluble in fluid imbibed into compartment 14 and exhibits an osmotic pressure gradient across wall 12 against an external fluid, blended with an osmopolymer 19 that imbibes fluid into compartment 14 and exhibits an osmotic pressure gradient across wall 12 against external fluid. Osmopolymers 17 and 19 are hydrophilic water soluble or lightly cross-linked water Insoluble polymers, and they possess osmotic properties such as the ability to imbibe external fluid, exhibit an osmotic pressure gradient across the semipermeable wall against the external fluid, and swell or expand in the presence of the fluid. Osmopolymers 17 and 19 are mixed with osmagent 16 and 18 for imbibing the maximum volume of external fluid into compartment 14. This fluid is available to osmopolymers 17 and 19 to optimize the volumetric rate and for total expansion of osmopolymers 17 and 19. That is, osmopolymers 17 and 19 absorb fluid imbibed into compartment 14 by the osmotic imbibition action of osmopolymers 17 and 19 supplemented by the osmotic imbibition action of osmagents 16 and 18 for effecting the maximum expansion of osmopolymers 17 and 19 to an enlarged state.
In operation, the delivery of beneficial agent 15 from osmotic device 10 is carried out, in one presently preferred t 10eaboaiment, by (1) imbibition of fluid by the first composition to form a suspension in situ and delivery of the suspension through the passageway; and concurrently by (2) imbibition of fluid by the second composition causing the second composition to swell and cooperate with the first composition for driving the agent suspension through the passageway. According to the operation described, the osmotic device may be treated as a cylinder, with the second composition expanding like the movement of a piston for aiding in delivering the agent suspension from the osmotic device. Although the shape of the osmotic device as depicted in Figs. 1 and 2 ls not a true cylinder, it is approximate enough for the following physical analysis. In this analysis, the volume rate delivered by the osmotic device Ffc is composed of two sources; tbe water imbibition rate hy the first composition F, and the water imbibition rate by the second composition Q wherein: .25 Since the boundary between the first composition and the second composition hydrates very little during the functioning of the osmotic device, there is insignificant water migration between the compositions. Thus, the water Imbibition rate of the second composition, 0, equals the expansion of its volume, dv —* - Q dt (2) The total delivery rate from the osmotic device is then, Ft . C - (F * Q)C (3) if -IIWherein C is the concentration of beneficial agent in the delivered slurry. Conservation of the osmotic device volume, V, and the surface area, A, gives equation 4 and 5: (Ό (5) wherein V^ and Vp equal the volumes of the first composition and the second composition respectively; and wherein A^ and equal the surface area contact with the wall by the first composi tion and the second composition respectively. In operation, both Vp and Ap increase with time while and Ad decrease with time as the device delivers beneficial agent.
The volume of the second composition that expands with time when fluid is imbibed into the compartment is given by equation 7: i© (7) wherein, Wg is the weight of fluid imbibed by the second composition, Wp is the weight of the second composition initially 20 present in the device, Wg/Wp is the ratio of fluid to initial solid of the second composition, Vp equals + W P to Thus, based on the geometry of a cylinder, where r Wherein e is the density of the second composition corresponding B'p (8) is radius of the cylinder, the area of imbibition is related to the volume of the swollen second composition as follows: 'he fluid imbibition rates into each compartment are; (9) (4-X· me· Α, Δπ Δπ (10) ου wherein k equals the osmotic permeability of the wall, h equals the wall thickness, Δπ£ and Δπρ are the osmotic gradients for the first composition and'.the--second ocnposition r^ayeg^^ygiy- and P is the weight of the osmopolymer in the second comnosition.
The total delivery rate, therefore,_is: da dt fr C Ϊ2- f Γ k s>,i Δπά [’’’If ^-¾)] Mp (12) Figures 3 and 4 illustrate the osmotic device in qperation as described for Figures 1 and 2. In Figures 3 and 4, for osmotic device 10, fluid is imbibed by the first composition at a rate determined by the permeability of the wall and the osmotic pressure gradient across the wall. The imbibed fluid continuously forms a solution containing beneficial agent, or a solution or of gel osmagent and osmopolymer containing beneficial agent in suspension, which solution or suspension in either operation is released by the combined operations of device 10. These operations include the solution, or the suspension being osmotically delivered through the passageway due to the continuous formation of solution or suspension, and by the swelling and increasing volume' of the second composition, represented by the increase in height of the vertical lines in Figure 3 and 4. This latter swelling and increase in volume applies pressure against the solution or suspension thereby aiding the first composition and simultaneously causing delivery of beneficial agent to the exterior of the device.
The first composition and the second composition act together to substantially insure that delivery of beneficial agent from the compartment is constant over a prolonged period of time by two methods. First , the first composition imbibes external fluid across the wall, thereby forming either a solution or a suspension, the latter fraction of which would be substantially delivered at non-zero order (without the second composition present), since the driving force decays with time· Second , the second composition operates by two simultaneous operations: first, the second composition operates to continuously concentrate beneficial agent by imbibing some fluid from the first composition to help keep the concentration of beneficial agent from falling below saturation, and second, the second composition by imbibing external fluid across thewall continuously increases in volume, thereby exerting a force against the first composition and diminishing the volume of beneficial agent, thusly directing beneficial agent to the passageway in the compartment· Additionally, since the extra solution or suspension formed in the first compartment is squeezed out, the osmotic composition closely contacts the internal wall and generates a constant osmotic pressure, and therefore a constant delivery rate, in conjunction with the second composition. The swelling and expansion of the second composition, with its accompanying increase in volume, along with the simultaneous corresponding reduction ln volume of the first composition, assures the delivery of v beneficial agent at a controlled rate over time.
Device 10 of Figures 1 through 4 can be made into many embodiments including the presently preferred w embodiments for oral use, for releasing either a locally or systemically acting therapeutic agent in a gastrointestinal tract. Oral system 10 can have various conventional shapes and sizes such as round with a diameter or 3/16 inches to 1/2 inch. In these forms, system 10 can be adapted for administering beneficial agent to numerous animals, including warm-blooded animals, humane, avains, reptiles and pisces.
Figures 5, 6 and 7 show another embodiment, an osmotic device 10 designed for placement in a body passageway, such as a vagina, or the ano-rectal canal.
Device 10 has an elongated, cylindrical, self-sustaining shape with a rounded lead end 20, a trailing end 21, and it is equipped with manually controlled strings 22 for easily removing device 10 from a biological passageway.
Device 10 is structurally identical with device 10 as described above and it operates in a like manner. In Figure 5, device 10 is depicted with a semipermeable wall 23, In Figure 6 with a laminated wall 24 comprising an inner semipermeable lamina 25 adjacent to compartment 14, and an external microporous lamina 26 distant from compartment 14. In Figure 7, device 10 comprises a laminated wall 28 formed of a microporous lamina 29 next to compartment 14, and a semipermeable lamina 30 facing the environment of use and in laminar arrangement with microporous lamina 29. Device 10 delivers a beneficial * agent for absorption by the vaginal mucosa, or the ano-rectal mucosa, to produce an in vivo local or ι systemic effect over a prolonged period of time· The osmotic devices of Figures 1 through 7 can be used for delivering numerous agents including drugs at a controlled rate independent of the drug pH-dependency, or where the dissolution rate of the agent can vary between low and high in fluid environments, such as gastric fluid and intestinal fluid. The osmotic devices also provide for the high loading of agents of low solubility and their delivery at meaningful, therapeutic amounts. And, while Figures 1 through 7 are illustrative of various osmotic devices that can be made according to the invention, it is to be understood these devices are not to be construed as limiting, as the devices can take a wide variety of shapes, sizes and forms for delivering beneficial agents to the environment of use. For example, the devices include buccal, implant, artificial gland, cervical intrauterine, ear, nose, dermal, subcutaneous and blood delivery devices. The devices also can be sized, shaped, structured and adapted for delivering an active agent in streams, aquariums, field, factories, reservoirs, laboratory facilities, hot houses, transportation means, naval means, military means, hospitals, veterinary clinics, nursing homes, farms, zoos, sickrooms, chemical reactions, and other environments of use.
In accordance with the practice of this invention, it has now been found that osmotic delivery device 10 can be manufactured with a first osmotic composition and a second osmotic composition mutually housed in cooperative relationship in the compartment of the device. The compartment is formed by a wall comprising a material that does not adversely affect the beneficial agent, osmagent, osmopolymer and the like· The -16wall is permeable to the passage of an external fluid such as water and biological fluids, and it is substantially impermeable to the passage of agents, osmagents, osmopolymers, and the like. The wall is formed of a material that does not adversely affect an animal or a host, and the selectively semipermeable materials used for forming the wall are non-erodible and they are Insoluble in fluids. Typical materials for forming *' the wall are ln one embodiment cellulose esters, cellulose ethers and cellulose ester-ethers·. These cellulosic polymers have a degree of substitution, D.S., on the anhydroglucose J unit, from greater than 0 up to 3 inclusive. By degree of substitution Is meant the average number of hydroxyl groups originally present on the anhydroglucose unit comprising the cellulose polymer that are replaced by a substituting group.
Representative materials include a member selected from the group consisting of cellulose acylate, cellulose dlacylate, cellulose trlacylate, cellulose acetate, cellulose dlacetate, cellulose triacetate, mono, di and tricelluiqse alkanylates, mono, di and tricellulose aroylates, and the like. Exemplary polymers include cellulose acetate having a D.S. up to 1 and an acetyl content up to 211; cellulose acetate having an acetyl content of 32 to 39.8; cellulose acetate having a D.S. of 1 to 2 and an acetyl content of 21 to 351; cellulose acetate having a D.S. of 2 to 3 and an acetyl content of 35 to 44.81; and the like. More specific cellulosic polymers include cellulose propionate having a D.S- of 1.8 and a propionyl content of 39.2 to 451 and a hydroxyl content of 2.8 to 5.41; cellulose acetate butyrate having a D.S. of 1.8, an acetyl content of 13 to 151 and a butyryl content of 34 to 391; cellulose acetate butyrate having1an acetyl content of 2 to 291, a butyryl content of 17 to 531 and a hydroxyl content of 0.5 to 4.71; cellulose trlacylates having a D.S. of 2.9 to 3 aucb as cellulose trivalerate, cellulose trilaurate, cellulose tripalmitate, cellulose trisuccinate, and cellulose trioclanoate; cellulose diacylates having a D.S. of 2.2 to 2.6 such as cellulose disuccinate, cellulose dipalmitate, cellulose dioclanoate, cellulose dipentale, coesters of cellulose such as cellulose acetate butyrate and cellulose acetate propionate, and the like.
Additional semipermeable polymers include ethyl cellulose, cellulose nitrate, acetaldehyde dimethyl acetate, cellulose acetate ethyl carbamate, cellulose acetate methyl carbamate, cellulose acetate dimethyl aminoacetate, semipermeable polyamides, semipermeable polyurethanes, semipermeable sulfonated polystyenes, cross-linked selectively semipermeable polymers formed by the coprecipitation of a polyanion and a polycation as disclosed in O.S. Pat Nos. 3,173,876; 3,276,586; 3,541,005; 3,541,006; and 3,546,142; semipermeable polymers as disclosed by Loeb and Sourirajan in O.S.
Pat. No. 3,133,132; lightly cross-linked polystyrene derivatives; cross-linked poly(sodium styrene sulfonate), cross-linked poly(vinylbenzyltrimethyl amonium chloride), semipermeable polymers exhibiting a fluid permeability of 10~5 to 10*1 (cc.ail/cm2.hr.atm) —8 expressed per atmosphere 10 of hydrostatic or osmotic pressure difference across the semipermeable wall. Tbe polymers are known to the art in O.S. Pat. Nos. 3,845,770; 3,916,899; and 4,160,020; and in Handbook of Common Polymers by Scott, J.R. and Roff, W.J., 1971 published by CRC Press, Cleveland, Ohio.
The laminated wall comprising a semipermeable lamina and a microporous lamina are in laminar arrangement and they act in concert to form an integral laminated wall, that maintains its physical and chemical integrity and does not separate into lamina through the operative agent release history of an osmotic device.
The semipermeable lamina is made from the semipermeable polymeric materials presented above, the semipermeable homopolymers, the semipermeable copolymers and the like.
Microporous lamina suitable for manufacturing an osmotic device generally comprises performed microporous polymeric materials, and polymeric materials that can form a microporous lamina in the environment of use. j The microporous materials in both embodiments are laminate to form the laminate wall. The preformed materials suitable for forming the microporous lamina are essentially inert, they maintain their physical and A chemical integrity during the period of agent release and they can be generically described as having a sponge-like appearance that provides a supporting structure for a semipermeable lamina and also provide a supporting structure for microscopic-sized interconnected pores or voids. The materials can be isotropic wherein the structure is homogenous throughout a cross-sectional area, or they can be anisotropic wherein the structure is non-homogenous throughout a cross-sectional area. The pores can be continuous pores that have an opening on both faces of a microporous lamina, pores interconnected through tortuous paths of regular and Irregular shapes including curved, curved-linear, randomly oriented continuous pores, hindered connected pores and other porous paths discernible by microscopic examination. Generally, microporous lamina are defined by the pore size, the number of pores, tbe tortuosity of the microporous path and the porosity which relates to the size and the number of pores. The pore size of a microporous lamina is easily ascertained by measuring the observed pore diameter at the surface of the material under the electron microscope. Generally, materials possessing from 5% to 95« pores and having a pore size of from 10 angstroms to 100 microns can be used for making a microporous lamina. The pore size and other parameters characterizing the microporous structure also can be obtained from flow measurements, where a liquid flux, J, is produced by a pressure difference &P, across the lamina. The liquid flux through a lamina with pores of uniform radius extended through - -»0« 1 A the membrane and perpendicular to its surface with area A is given by relation 13: T - ν»4δρ J--SrJZx(13) wherein J is the volume transported per unit time and lamina 5 area containing N number of pores of radius r, η is the viscosity of the liquid, and ΔΡ is the pressure difference across the lamina with thickness Ax. For this type of lamina, the number of pores N can be calculated from relation 14, wherein ε is.the porosity defined as the ratio of void volume to total volume of the lamina: and A is the cross-sectional area of the lamina containing N pores.
CA vr4 (14) The pore radius then is calculated from relation 15: Δχ τ 8nApe (15) wherein J is the volume flux through the lamina per unit area produced by the pressure difference AP across the lamina, η , e and Ax have the meaning defined above and τ Is the tortuosity defined as the ratio of the diffusional path length ln the lamina to the lamina thickness. Relations of the above type are discussed in Transport Phenomena In Membranes, by Laksbminatayanaiah, N, Chapter 6, 1969, published by Academic Press, Inc., New fork.
As discussed in this reference on page 333» in Table 6.13» the porosity of the lamina having pores with radius r can be expressed relative to the size of the transported molecule 'δ .4 having a radius a, and as che ratio of molecular radius co pore radius a/r decreases, the lamina becomes porous with respect to this molecule. That is, when the ratio a/r is less than 0.3, the lamina becomes substantially microporous as expressed by the osmotic reflection coefficient O' which decreases below 0.5. Microporous lamina with a reflection coefficient C in the range of leas than 1, usually from 0 to 0.5 and preferably less than 0.1 with respect to the active agent are suitable for fabricating the system. The reflection coefficient is determined by shaping the material in the form of a lamina and carrying out water flux measurements as a function of hydrostatic pressure difference and as a function of the osmotic pressure difference caused by the active agent. The osmotic pressure difference creates a hydrostatic volume flux, and the reflection coefficient is expressed by relation 16: λ osmotic volume flux ..A. ° hydrostatic volume flux 1X0' Properties of microporous materials are described in 20 Science , Vol 170 pages 1302 to 1305, 1970; Nature , Vol 214 page 285 1967; Polymer Engineering and Science Vol 11 pages 284-288 1971; D.S. Pat. Nos. 3,567,809 and 3,751,536; and in Industrial Processing With Membranes by Lacey R.E. and Loeb Sidney pages 131 to 134 1972, published by Wiley, Interscience, New York.
Microporous materials having a preformed structure are commercially available and they can be made by art-known methods. The microporous materials can be made by etching, nuclear tracking, by cooling a solution of flowable polymer below the freezing point whereby solvent evaporates from the solution in the form of crystals dispersed in tbe polymer and then curing the polymer followed by removing the solvent crystals, by cold or hot stretching at low or high temperatures until pores ace formed, by leaching from a polymer a soluble component by an appropriate solvent, by ion exchange reaction, and by polyelectrolyte processes. Processes for preparing microporous materials are described in Synthetic Polymer Membranes , by R. E. Resting, Chapters 4 and 5, 1971 published by McGraw Hill, Inc.; Chemical Reviews , Ultrafiltration, Vol. 18, pages 373 to 455, 1934; Polymer Eng, and Sci. , Vol. 11, No. 4, pages 284 to 288, 1971? J, Appl. Poly Sci. , Vol. 15, pages 811 to 829, 1971; and in U.S. Pat. Nos. 3,565,259; 3,615,024; 3,751,536; 3,801,692; 3,852,224 and 3,849,528.
Microporous materials useful for making the lamina include microporous polycarbonates comprises of linear polyesters of carbonic acid in which carbonate groups recur in the polymer chain, microporous materials prepared by the phosgenation of a dihydroxyl aromatic such as bisphenol A, microporous poly(vinylchloride), microporous polyamides such as polyhexamethylene adipamide, microporous modacrylic copolymers including those formed from poly(vinylchloride) 60% and acrylonitrile, styrene-acrylic and its copolymers, porous polysulfones characterised by diphenylene sulfone groups in a linear chain thereof, halogenated poly(vinylidene), polychloroethers, acetal polymers, polyesters prepared by exterification of a dlcarboxylic acid or anhydride wth an alkylene polyol, poly(alkylenesulfides), phenolic polyesters, microporous poly(saccharides), microporous poly(saccharides) having substituted and unsubstituted anhydroglucose units and preferably exhibiting an increased permeability to the passage of water and biological fluids than semipermeable lamina, asymmetric porous polymers, cross-linked olefin polymers, hydrophobic or hydrophilic microporous homopolymers, copolymers or interpolymers having a reduced bulk density, and materials described in U.S. Pat. Nos. 3,597,752; 3.,643,178; 3,654,066; i 3,709,774; 3,718,532; 3,803,061; 3,852,224; 3,853,601; and 3,852,388 in British Pat. No. 1,126,849 and in Chem. Abat ., Vol. 71 4274P, 22572F, 22573F, 1969.
, Additional microporous materials include poly(urethanes), cross-linked, chain-extended poly(urethanes), microporous poly(urethanes) in U.S. Pat No. 3,524,753 poly(imides), poly(benzimidazoles), collodion (cellulose nitrate with 11% nitrogen), regenerated proteins, semi-solid cross-linked1 poly(vinylpyrrolidone), microporous materials prepared by diffusion of multivalent cations into polyelectrolyte sols as in U.S. Pat. No. 3,565,259, anisotropic permeable microporous materials of ionically associated polyelectrolytes, porous polymers formed by the coprecipitation of a polycation and a polyanion as described in U.S. Pat. Nos. 3,276,589; 3,541,055; 3,541,066 and 3,546,142 derivatives of poly(styrene) such as poly(sodium styrenesulfonate) and poly(vinyl benzyltrimethyl-ammonium chloride), the microporous materials disclosed in U.S. Pat. No. 3,615,024 and U.S. Pat. Nos. 3,646,178 and 3,852,224.
Further, the microporous forming material used for the purpose of the invention, includes the embodiment wherein the microporous lamina is formed in situ, by a pore-former being removed by dissolving or leaching it to form the microporous lamina during the operation of the system. The pore-former can be a solid or a liquid. The term liquid, for this invention, embraces semi-solids and viscous fluids. The pore-formers can be inorganic or organic. The pore-formers suitable for the invention include pore-formers that can be extracted without any chemical change in the polymer. The pore-forming solids have a size of about 0.1 to 200 micrometres and they include alkali metal salts such as sodium chloride, sodium bromide, potassium chloride, potassium sulfate, potassium phosphate, sodium benzoate, sodium acetate, sodium citrate, potassium nitrate and the like. The alkali earth metal salts include calcium phosphate, calcium nitrate and the like. The transition metal salts include ferric chloride, ferrous sulfate, zinc sulfate, cupric chloride, manganese fluoride, manganese fluorosilicate, and the like. The pore-formers include organic compounds such as polysaccharides. The polysaccharides include che sugar's sucrose, glucose, fructose, mannitol, mannose, galactose, aldohexose, alcrose, talose, sorbitol, lactose, monosaccharides and disaccharides. Also, 5 e organic aliphatic and aromatic oils and solids, > including diols and polyols, as exemplified by polyhydric alcohols, poly(alkylene glycols), polyglycols, alkylene glycols, poly(cc-ω)-alkylenediols esters or alkylene glycols and the like; water soluble 10 cellulosic polymers such as hydrosyloweralkyl cellulose, hydroxypropyl methlcellulose, methyl cellulose, methylethyl cellulose, hydroxyethyl cellulose and the like; water soluble polymers such as 15 polyvinylpyrrolidone, sodium carboxymethylcellulose and the like. The pore-formers are nontoxic and on their removal form the lamina channels are formed through the 20 lamina. In a preferred embodiment, the nontoxic poreforming agents are selected from the group consisting of inorganic and organic salts, carbohydrates, polyalkylene glycols, poly(tfi - u>)-alkylenediols, esters of alkylene glycols, glycols, and water soluble cellulosic polymers, useful for forming a microporous lamina in a biological environment. Generally, for the purpose of this invention, when the polymer forming the lamina contains 25 more than 25% by weight of a pore-former, the polymer is a precursor microporous lamina that on removing the pore-former, yields a lamina which is substantially microporous, at concentrations less than this, the lamina behaves like a semipermeable lamina or membrane. 30 The expression passageway as used comprises means and methods suitable for releasing the agent or drug from the osmotic system. The expression Includes apreture, orifice, hole, or bore through the semi- 35 4' permeable wail or the laminated wall. Tbe passageway can be formed by mechanical drilling, laser drilling, or by eroding an erodible elemen , such as a gelatin plug, in the environment of use. A detailed descrip- -24tion of osmotic passageways, and the maximum and minimum dimensions for a passageway are disclosed in United States Pat.
Nos. 3,845,770 and 3,916,899· The osmotically effective compounds that can be used for the purpose of this invention include Inorganic and organic compounds that exhibit an osmotic pressure gradient across a semipermeable wall, or across a semipermeable microporous laminated wall, against an external fluid. Tbe osmotically effective compounds (along with the osmopolymers) imbibe fluid into the osmotic device thereby making available in situ fluid for imbibition by an osmopolymer to enhance its expansion, and/or for forming a solution or suspension containing a beneficial agent for its delivery from the osmotic device. The osmotically effective compounds are known also as osmotically effective solutes, or osmagents. The osmotically effective compounds are used by mixing them with a beneficial agent and osmopolymer for forming a solution, or suspension containing the beneficial agent that is osmotically delivered from the device. The expression limited solubility as used herein means the agent has a solubility of about less than 5% by weight in the aqueous fluid present in the environment. The osmotic solutes are used by homogenously or heterogenously mixing the solute with the agent or osmopolymer, and then charging them into the reservoir. The solutes and osmopolymers attract fluid into the reservoir producing a solution of solute in a gel which is delivered from the system concomitantly transporting undissolved and dissolved beneficial agent to the exterior of the system. Osmotically effective solutes used for the former purpose include magnesium sulfate, magnesium chloride, sodium chloride, potassium chloride, lithium chloride, potassium sulfate, sodium sulfate, lithium chloride, potassium sulfate, sodium sulfate, lithium sulfate, potassium acid phosphate, d-mannltol, urea, Inositol, magnesium succinate, tartaric acid, - 25 carbohydrates such as raffinose, sucrose, glucose,«c-dlactose monohydrate, and mixtures thereof. The amount of osmagent in the compartment will generally be form 0.01% to 30%, or higher in the first composition, and usually from 0.01% to 40% or higher in the second compartment.
The osmotic solute is initially present in excess and it can be in any physical form that is compatible with the beneficial agent and the osmagent. The osmotic pressure of saturated solutions of various osmotically effective compounds and for mixtures of compounds at 37°C., in water, is listed in Table 1. In the table, the osmotic pressure τ , is in atmospheres, ATM. The osmotic pressure is measured in a commercially available osmometer that measures the vapor pressure difference between pure water and the solution to be analyzed, and according to standard thermodynamic principles, the vapor pressure ratio is converted into osmotic pressure difference. In Table 1, osmotic pressures of from 20 ATM to 500 ATM are set forth; of course, the ivnention includes the use of lower osmotic pressures from zero, end higher osmotic pressures than those set forth by way of example in Table 1. The osmometer used for the present measurements is identified as Model 320B, Vapor Pressure Osmometer, manufactured by the Hewlett Packard Co., Avonad ale, Penna.
TABLS1 COMPOUND OSMOTIC PRESSURE OR MIXTURE _ATM_ Lactose-Fructose 500 Dextrose-Fructose 450 Sucrose-Fructose 430 Mannitol-Fructose 415 Sodium Chloride 356 Fructose 355 Lactose-Sucrose 250 Potassium Chloride 245 Lactose-Dextrose 225 Mannitol-Dextrose 225 Dextrose-Sucrose 190 Mannitol-Sucrose 170 Dextrose 82 Potassium Sulfate 39 Mannitol 38 Sodium Phosphate Tribasic·121^0 36 Sodium Phosphate Dibasic-7H20 31 Sodium Phosphate Dibasic·12H20 31 Sodium Phosphate Dibasic Anhydrous 29 Sodium Phosphate MonobasiC'H20 28 The osmopolyers suitable for forming the first osmotic composition, and also suitable forming the second osmotic composition are osmopolymers that exhibit fluid imbibition properties. The osmopolymers are swellable, hydrophilic polymers which interact with water and aqueous biological fluids and swell, or expand to an equilibrium state. The osmopolymers exhibit the ability to swell in water and retain a significant portion of the imbibed water within the polymer structure. The osmopolymers swell or expand to a very high degree, usually exhibiting a 2 to 50 fold volume increase. The swellable, hydrophilic polymers are in one presently preferred embodiment lightly cross-linked, such cross-links being formed by covalent or ionic bonds.
The osmopolymers can be of plant, animal, or synthetic origin. The osmopolymers are hydrophilic polymers. Hydrophilic polymers suitable for the present purpose include poly(hydroxyalkyl methacrylate) having a molecular weight of from 30,000 to 5,000,000; poly(vinylpyrrolidone) having a molecular weight of from ,000 to 360,000; anionic and cationic hydrogels; polyelectrolyte complexes; poly(vinyl alcohol) having a low acetate residual, cross-linked with glyoxal, formaldehyde, oc glutaraldehyde and having a degree of polymerization from 200 to 30,000; a mixture of methyl cellulose, cross-linked agar and carboxymethyl cellulose; a water-insoluble, water-swellable copolymer produced by forming, a dispersion of finely divided copolymer of maleic anhydride with styrene ethylene, propylene, butylene or isobutylene cross-linked with from 0.001 to about 0.5 moles of polyunsaturated cross-linking agent per mole of maleic anhydride in the copolymer; water-swellable polymers of N-vinyl lactams and the like.
Other osmopolymers include polymers that form hydrogels such as Caxbopol (Trade Mark)" acidic' carboxy polymers having a molecular weight of 450,000 to 4,000,000; Cyanamer polyacrylamides; cross-linked waterswellable indene-maleic, anhydride polymers; Good-Rite (Trade Mark) polyacrylic acid having a molecular weight of 80,000 to 200,000; Polyox polyethylene oxide polymers having a molecular weight of 100,000 to.5,000,300; starch graft copolymers; Aqua-Keeps acrylate polymer; diester cross-linked polyglucan; and the like. Representative polymers that form hydrogels are known to the prior art in U.S. Pat. No. 3,865,108 Issued to Bactop; U.S. Pat. Mo. 4,002,173 issued to Manning; U.S. Pat. Mo. 4,207,893 issued to Michaels; and in Handbook of Common Polymers by Scott and Roff, published by the Chemical Rubber Co., Cleveland, Ohio. The amount of osmopolymer in the first osmotic composition may be .01 to 90% and the amount of osmopolymer in the second osmotic composition nay ne 15 to 95%. In a presently preferred embodiment, the molecular weight of the osmopolymer in the second osmotic composition is larger than the molecular weight of the osmopolymer in the first osmotic composition.
Osmopolymer fluid imbibition determination for a chosen polymer can be made by following the procedure described below. A 1/2 inch round disc, fitted with a 1/2 inch diameter stainless steel plug, is charged with a known quantity of polymer with the plugs extending out either end. The plugs and the die were placed in a Carver press with plates between 200° and 300°F. A pressure of 10,000 to 15,000 RSI was applied to tbe plugs. After 10 to 20 minutes of heat.and pressure the electrical heating to the paltes were turned off, and tap water circulated through the plates. The resulting 1/2 inch discs were placed in an air suspension coater charged with 1.8 kg saccharide cores and coated with cellulose acetate having an acetyl content of 39.8% dissolved in 94:6 w/w, CH^CZ^/CR^OR, to yield a 3% w/w solution. The coated systems were dried overnight et 25 50°C. the coated discs were immersed in water at 37°C and periodically removed for a gravimetric determination of water imibed. The initial imbibition pressure was calculated by using the water transmission constant for the cellulose acetate, after normalizing imbibition values for membrane surface area and thickness. The polymer used in this determination was the sodium derivative of Carbopol-934 polymer, prepared according to the procedure of B.F. Goodrich Service Bulletin GC-36, Carbopol Water-Soluble Resins, page 5, published by B.F. Goodrich, Akron, Ohio. The cumulative weight gain values, y, as a function of time, t, for the water soluble polymer disc coated with the - 29 cellulose acetate were used to determine the equation of the line y=c + bt + at2 passing through those points by a .least * square fitting technique.
The weight gain for the Na Carbopol-934 is given by the 5 equation 17 that follows: Weight Gain equals 0.359 * O.665t 0.00106t2- wherein t is elapsed time in minutes. The rate of water flux at any time will be equal to the slope of the line, that is given by the following equation 18 and 19: dy , d(0.359 + O.665t - 0,00106c2) <18) dc dc dy . 0.665 - 0.OO212t Ί Π * t < ft λ To determine the initial rate of water flux the derivative is evaluated at t=0, and dy/dt = 0.665 ul/uin, which is equal to the coefficient b. Then, normalizing the imbition rate for time, membrane surface area and thickness, and the membrane permeability constant to water, K,it may he determined according to the following equation 20: Kir - 0.665 Hl/min x (3£-miB) χ ( A.·* ) (0··θ°3 £») (20) hr 1000 ul 2.86 cm2 with K ».1.13 x 10"^ cm2/hr. The ( z) value for NaCl was determined with a Hewlett-Packard vapor pressure osmometer to 2o 4e 345 atm + 10$, and the K value for cellulase acetate used, in this experiment calculated from NaCl imbibition-values was determined to be 1.9 x 10"^ cm2/hr atm. - 30 Substituting these values into the calculated Kitexpression (1.9 x 10"7/cm2/hr.atm)( * ) = 1.13 x IO4 cm2/hr gives u s 600 atm at t=Q. As a method for evaluating the efficiency of a polymer with respect to duration of zero-order driving force, the % of water uptake was selected before the water flux values decreased to 90S of their initial values. The value of the slope for the equation of a straight line emanating from the % weight gained axis will be equal to the initial value of dy/dt evaluated at t=0, with the y intercept c defining the linear swelling time, with (dy/dt) 0 a 0.665 and the y intercept s 0, which yields y a 0.665t + 0.359· In order to determine when the value of the cumulative water uptake is 90$ below the initial rate, the following expression is:solved for t, 0.9 < bt + c (21) -0.00106 t2 + 0.665 t + 0.359 - 0.9, and (22) 0.6650 * 0.359 solving fox t -0.00106t^ + 0.0665c + 0.0359 - 0 t j-0.0665 + [(0.0665)2 - 4(-0.00106)(0.0359)]1/2 (23) 2(-0.00106) t a 62 min and the weight gain is -0.00106(62)2 + (0.665)(62) * 0.359 - 38 ul» with the initial sample weight a 100 mg» thus ( A w/w) 0.9 x 100 a 38$. The results are presented in Figure 8 for a graphical representation of the values. Other methods available for studying the hydrogel solution interface include rheologic analysis, viscometric analysis, ellipsometry, contact angle measurements» electrokinetlc determinations, infrared spectroscopy, optical microscopy, interface morphology and microscopic examination of an operative device.
The expression active agent as used herein, includes any beneficial agent, or beneficial compound, that can be delivered from the device to produce a beneficial and useful result. The agent can be insoluble to very soluble in the exterior fluid that enters the device and it can be mixed with an osmotically effective compound and an osmopolymer. The term active agent includes pesticides, herbicides, germicides, biocides, algicides, rodenticides, fungicides, insecticides, antioxidants, plant growth promoters, plant growth inhibitors, preservatives, disinfectants, sterilization agents, catalysts, chemical reactants, fermentation agents, sex sterHants, fertility inhibitors, fertility promoters, air purifiers, micro-organism attenuators, and other agents that benefit the environment of use.
In the specification and the accompanying claims, the term beneficial agent includes drug, and the term drug includes any physiologically or pharmacologically active substance that produces a local or systemic effect, in animals, including warm blooded mammals, humans and primates, avians, household, sport and farm animals, laboratory animals, fishes, reptiles and zoo animals. The term physiologically as used herein denotes the administration of a drug to produce normal levels and functions. The term pharmacologically denotes variations in response to amount of drug administered to the host. See Stedman1s Medical Dictionary ; 1966. published by Williams and Wilkins, Baltimore, Md. The phrase drug formulation a* used herein means the drug is in the compartment mixed with an osmotic solute and/or an osmopolymer and if applicable, and with a binder and lubricant. The active drug that can be delivered' includes Inorganic and organic compounds without limitation, including drugs that act on the peripheral nerves, adrenergic receptors, cholinergic receptors, nervous system, skeletal muscles. cardiovascular system, smooth muscles, blood circulatory system, synoptic sites, neuroeffector junctional sites, endocrine system, hormone systmes, immunological system, organ systems, reproductive system, skeletal'system, autocoid systems, alimentary and excretory systems, inhibitory of autocoids and histamine systems. The active drug that can be delivered for acting on these animal systmes includes depressants, hypnotics, sedatives, psychic energizers, tranquilizers, anticonvulsants, muscle relaxants, antiparkinson agents, analgesics, anti-inflammatory, local anesthetics, muscle contractants, anti-microbials, anti-malarials, hormonal agents, contraceptives, sympathomimetics, diuretics, anti-parasitics, neoplasties, hypoglycemics, ophthalmics, electrolytes, diagnostic agents and cardiovascular drugs.
Exemplary drugs that are very soluble in water and can be delivered by the devices.of this invention include prochlorperazine edisylate, ferrous sulfate, aminocaproic acid, potassium chloride, mecamylamine hydrohloride, procainamide hydrochlor ide, amphetamine sulfate, benzphetamine hydrochloride, isoproternol sulfate, methamphetamine hydrochloride, phenmetrazine hydrochloride, bethanechol chloride, mechacholine chloride, pilocarpine hydrochloride, atropine sulfacte, methascopolamine bromide, isopropamide iodide, trldihexethyl chloride, phenformin hydrochloride, methylphenidate hydrochloride, oxprenolol hydrochloride, metoprolol tartrate, imetidine hydrochloride, theophylline cholinate, cephalexin hydrochloride and the like.
Exemplary drugs that are poorly soluble in water and that can be delivered by the devices of this invention include diphenidol, meclizine hydrochloride, prochlorperazine maleate, phenoxybenzamine, thiethylpera2ine maleate, anisindone, diphenadione erythrityl tetranitrate, dizoxin, isofurophate, - 33 reserpine, acetazolamide, ethazolamide, bendroflumethiazide, chlorpropamide, tolazamide, chlormadinone acetate, phenaglycodol, allopurinol, aluminum aspirin, methotrexate, acetyl sulfisoxazole, erythromycin, ptofestins, estecogenic progestational, corticosteroids, hydrocortisone, hydrocorticosterone acetate, cortisone acetate, triamcinolone, methyltesterone, 17 β-estradiol, ethinyl estradiol, prazosin hydrochloride ethinyl estradiol 3-methyl ether, pednisolone, 17 β-hydroxyprogesterone acetate, 19-nor-progesterone, norgestrel, norethiderone, progesterone, norgesterone, nocethynodrel and the like.
Examples of other drugs that can be delivered by / the osmotic device include aspirin, indomethacin, naproxen, fenoprofen, sulldac, diclofenac, indoprofen, nitroglycerin, propranolol, metoprolol, valproate, oxprenolol, timolol, atenolol, alprenolol, cimetidine, imipramine, levodopa, chloropromazine, reserpine, methyl-dopa, dihydcoxyphenylalanine, pivaloyloxyethyl, ester of cC -methyldopa hydrochloride, theophylline, calcium gluconate, ketoprofen, ibuprofen, cephalexin, erythromycin, proszin, haloperidol, zomepirac, ferrous lactate, vincamine, diazepam, phenoxybenzamine, deblocking agents, calcium-channel blocking drugs such as nifedipine, diliazen, verapamil, betablockers and the like. The beneficial drugs are known to the art in Pharmaceutical Sciences , edited by Remington 14th Ed., 1979 published by Mack Publishing Co., Easton, Penna·; The Drug,The Nurse, The Patient, Including Current Drug Handbook , 1974-1976 by Falconer, et al., published by Saunder Company, Philadelphia, Penna·; and Medicinal Chemistry , 3rd Ed·, Vol. 1 and 2 by Burger, published by Wiley-Interscience, Hew Fork.
The drug can be in various forms, such as uncharged molecules, molecular complexes, pharmcologically acceptable salts such as hydrochloride, hydrobromide, sulfate, laurylate, palmitate, phosphate, nitrite. borate, acetate, maleate, tartrate, oleate and salicylate. For acidic drugs, salts of metals, amines or organic cations, for example quaternary ammonium, can be used. Derivatives of drugs such as esters, ethers and amides can be used. Also, a drug that is water insoluble can be used in a form that is a water soluble derivative thereof to serve as a solute and on its ' release from the device, is converted by enzymes, hydrolysed by body pH or other metabolic processes to the original biologically active form. The agent < including drug, can be present in the compartment with a binder, dispersant, wetting agent, suspending agent, lubricant and dye. Representative of these include suspending agents such as acacia, agar, calcium carrageenan, alginic acid, algin, agarose powder, collagen, colloidal magnesium silicate, colloidal silicon dioxide, hydroxyethyl cellulose, pectin, gelatin and calcium silicate; binders like polyvinyl pyrrolidone, lubricants such as magnesium stearate, wetting agents such as fatty amines, fatty quaternary ammonium salts and the like. The phrase drug formulation indicates the drug is present in the compartment accompanied by an osmagent, osmopolymer, a binder and the like. The amount of beneficial agent in a device generally is about from 0.05 ng to 5 g or more, with individual devices containing for example, 25ng, 1 mg, 5mg, 125mg, 250mg, 500mg, 750mg, 1.5g, and the like.
The devices can be administered once, twice or thrice daily.
The solubility of a beneficial agent in the fluid can be determined by known techniques. One method consists of preparing a saturated solution comprising the fluid plus the agent as ascertained by analyzing the amount of agent present In a definite quantity of the fluid. A simple apparatus for this purpose consists of a test tube of medium size fastened upright in a water bath maintained at constant temperature and pressure, in which the fluid and agent are placed and stirred by a rotating glass spiral. After a given period of stirring, a weight of the fluid is analyzed and the stirring continued an additional period of time. If the analysis shows no increase of dissolved agent after successive period of stirring, in the presence of excess solid agent in the fluid, the solution is saturated and the results are taken as the solubility of the product in the fluid. If the agent is soluble, an added osmotically effective compound optionally may not be needed; if the agent has limited solubility in the fluid, then an osmotically effective compound can be incorporated into the device. Numerous other methods are available for the determination of the solubility of an agent in a fluid. Typical methods used for the measurement of solubility are chemical and electrical conductivity. Details of various methods for determining solubilities are described in United States Public Health Service Bulletin , No. 67 of the Bygenic Laboratory; Encyclopedia of Science and Technology , Vol. 12, pages 542 to 556, 1571, published by McGraw*Hill, Inc., and Encyclopedia Dictionary of Physics , Vol. 6, pages 547 to 557, 1962 published in Pergamon Press, Inc.
The osmotic device of the invention is manufactured by standard techniques. For example, in one embodiment, the beneficial agent is mixed with an osmagent and osmopolymer, and pressed into a solid possessing dimensions that correspond to the internal dimensions of the compartment adjacent to the passageway; or the beneficial agent and other formulation forming ingredients and a solvent are mixed into a solid or a semisolid by conventional methods such as ballmilling, calendering, stirring or rollmilling and then pressed into a preselected shape. Next, a layer of a composition comprising an osmagent and an osmopolymer is placed in contact with the layer of beneficial agent formulation, and the two layers surrounded with a semipermeable wall. The layering of the beneficial agent composition and the osmagent/osmopolymer can be accomplished by conventional two-layer tablet press techniques. The wall can be applied by molding, spraying or dipping the pressed shaped into wall-forming material. Another and presently preferred technique that can be used for applying the wall is the air suspension coating procedure. This procedure consists in suspending and tumbling the pressed compositions in a current of air and a wall forming composition until the wall surrounds and coats the two pressed compositions. The procedure is repeated with a different lamina forming composition to form a laminated wall. The air suspension procedure is described in O.S. Pat. No. 2,799,241? J. Am. Pharm. Assoc. , Vol. 48, pages 451 to 459, 1979; and ibid, Vol. 49, pages 82 to 84, I960.
Other standard manufacturing procedures are described in Modern Plastics Encyclopedia , Vol 46, pages 62 to 70, 1969; and ln Pharmaceutical Sciences , by Remington, 14th Edition, pages 1626 to 1678, 1970, published by Mack Publishing Co·, Easton, Penna.
Exemplary solvents suitable for manufacturing the laminates and laminae include inert inorganic and organic solvents that do not adversely harm the materials and the final laminated wall. The solvents broadly include members selected from the group consisting of aqueous solvents, alcohols, ketones, esters, ethers, aliphatic hydrocarbons, halogenated solvents, cycloaliphatics, aromatics, heterocyclic solvents and mixtures thereof. Typical solvents Include acetone, diacetone alcohol, methanol, ethanol, iospropyl alcohol, butyl alcohol, methyl acetate, ethyl acetate, isopropyl acetate, n-butyl acetate, methyl isobutyl ketone, methyl propyl ketone, n-hexane, n-heptane, ethylene glycol monoethyl ether, ethylene glycol monoethyl acetate, methylene dichloride, ethylene - 37 dichloride, propylene dichloride, carbon tetrachloride, chloroform nitroethane, nitropropane, tetrachloroethane, ethyl ether, isopropyl ether, cyclohexane, cyclooctane, benexene, toluene, naphtha, 1,4-dioxane, tetrahydrofuran, diglyme, water and mixtures thereof euch ae acetone and water, acetone and methanol, acetone and ethyl alcohol, methylene dichloride and methanol, and ethylene dichloride and methanol.
DETAILED DESCRIPTION OF EXAMPLES The following examples are merely illustrative of the present invention, and they should not be considered as limiting the scope of the invention in any way, as these examples and other equivalents thereof will become apparent to those versed in the art in the light of the present disclosure, the drawings and the accompanying claims.
EXAMPLE 1 An osmotic delivery device manufactured as an osmotic tablet shaped, sized and adapted for oral admittance into the gastrointestional tract is made as follows: a first osmotic drug composition is prepared by screening 355g of poly(ethylene oxide) having an approximate molecular weight of 200,000 through a 40 mesh stainless steel screen, then lOOg of nifedipine is passed through the 40 mesh screen, 25g of hydroxypropylmethylcellulose is passed through the 40 mesh screen, and finally lOg of potassium chloride is passed through the 40 mesh screen. Next, all the screened ingredients are added to· the bowl of a laboratory blender and the Ingrdients dry blended for -20 minutes to produce a homogeneous blend. Then a granulation fluid is prepared comprising 250al of ethanol and 250ml of isopropyl alcohol and the granulating fluid added to the blending bowl; first 50ml is sprayed into the bowl with constant blending then 350ml of the granulation fluid is added slowly to the bowl and the wet mass blended for another 15 to 20 minutes. Then the wet granules are passed through a 16 mesh screen and dried at room temperature for 24 hours, and the dry granules passed through a 16 mesh screen.
Next, lOg of magnesium stearate is added to the dry granules, and the ingredients roll-mixed for 20-30 minutes on a standard two roll mill.
Next, a second osmotic composition is prepared as follows: first, 170g of poly(ethylene oxide) having a molecular weight of 5,000,000 is screened through a 40 mesh screen, then 72.5g of sodium chloride is passed through the 40 mesh screen and the ingredients added to a mixing bowl and blended for 10-15 minutes. Then a granulation fluid is prepared by mixing 350ml of methanol and 150ml of isopropyl alcohol and the granulation fluid added to the blending bowl in two steps. First, 50ml of the granulation fluid is sprayed into the bowl with constant blending, then 350ml of the granulation fluid is slowly added to the bowl and the wet blend mixed for 15-20 minutes to a homogeneous blend. Then, the wet blend is passed through a 16 mesh screen, spread on a stainless steel tray and dried at room temperature of 22.5°C for 24 hours. The dried blend is passed through a 16 mesh screen, the roll milled with 5g of magnesium stearate on a two roll mill for 20-30 minutes.
A number of drug cores are prepared by pressing the two compositions on a Manesty Layerpress* The drug containing composition is fed into the cavity mold of the press and compressed into a solid layer. Then, the second, osmotic composition is fed into the cavity overlaying the compressed layer and pressed into a solid layer to form a two layered drug core.
The drug cores next are coated with a semipermeable wall-forming composition comprising 95g of cellulose acetate having an acetyl content of 39.8% and 5g of polytethylene glycol) 4000 in a solvent comprising 1960 *(Trade Mark) ml of methylene chloride and 820 ml of methanol. The drug cores are coated with the semi-permeable wall forming composition until the wall surrounds the drug core. A Wurster air suspension coater is used to form the semipermeable wall. The coated cores are then spread on a tray and the solvent evaporated in a circulating air oven at 50°C for 85 hours. After cooling to room temperature a 0.26mm diameter passageway is laser drilled through the semipermeable wall connecting the exterior of the osmotic device with the composition containing the drug. The osmotic device weighed 262 mg and it contained 30 mg of drug in the first composition weighing 150mg, the second composition weighed 75mg and the semipermeable wall weighed 37mg.
The first osmotic composition of the osmotic device compries 30mg of nifedipine, 106mg of poly(ethylene oxide), 3mg of potassium chloride, 7.5mg of hydroxypropylmethylcellulose and 3mg of magnesium stearate. The second osmotic composition comprises 51mg of poly(ethylene oxide), 22mg of sodium chloride, and 1.5mg of magnesium stearate. The device has a diameter of 8mm, a surface area of 1.8 cm and the semipermeable wall is Q.17mm thick. The cumulative amount of drug released ls depicted ln Figure 9.
EXAMPLE IA Osmotic delivery systems are prepared having a first composition comprising 25 to lOOmg of nifedipine, 100 to 325mg of poly(ethylene oxide) having a molecular weight of 200,000, 2 to lOmg of potassium chloride, 5 to 30mg of hydroxypropylmethylcellulose and 2 to lOmg of magnesium stearate; and a second composition comprising 30 to 175mg of polyfetbylene oxide) having a molecular weight of 5,000,000, 20 to 75mg of sodium chloride and 1 to 5mg of magnesium stearate. The procedure of Example 1 is repeated for preparing osmotic devices having the following compositions: (a) an osmotic device having a first compostion comprising 60mg of nifedipine, 212mg of poly(ethylene oxide) , 6mg of potassium chloride, 15mg of hydroxypropylmethylcellulose and 6mg of magnesium stearate; and a second composition comprising* 102mg of poly(ethylene oxide) , 44mg of sodium chloride, and 3 mg of magnesium stearate; and (b) an osmotic device having a first composition comprising 9Qmg of nifedipine, 318mg of poly(ethylene oxide), 9mg of potassium chloride, 22.5mg of hydroxypropylmethylcellulose, and 9mg of magnesium stearate, and a second composition comprising 102mg of poly(ethylene oxide), 66mg of sodium chloride,and 4.5mg of magnesium stearate. In an embodiment, the osmotic device described in (a) and (b) further comprise a pulse coated on the outer semipermeable wall. The pulse coat comprises 30mg of nifedipine and hydroxypropylmethylcellulose. In operation in the fluid environment of use, the pulse coat provides instant drug availability for instant drug therapy.
EXAMPLE 2 The procedure* of Example 1 is repeated with all conditions as previously described except that the drug in the compartment is replaced with a member from the group consisting of a beta-blocker, anti-inflammatory, analgesic; sympathomimetic, antiparkinson or a diuretic drug.
EXAMPLE 3 An osmotic therapeutic device for the controlled and the continuous oral release of the beneficial calcium channel blocker drug verapamil is made as follows: 90mg of verapamil, 50ag of sodium carboxyvinyl polymer having a molecular weight of 200,000 and sold under the - name Carbopol (Trade Mark) polymer, 3mg of sodium chloride, 7.5.mg of hydroxypropylmethylcellulose and 3mg of magnesium stearate are mixed thoroughly as described in Example 1, and pressed in a Manesty press with a 5/16 inch punch using a pressure head of 1-1/2 tons to produce a layer of the drug composition. Next, 51mg of the carboxyvinyl polymer having a molecular weight of 3,000,000 and sold under the trademark Carbopol polymer 22mg of sodium chloride and 2mg of magnesium stearate are blended thoroughly and added to the Manesty press, and pressed to form a layer of expandable, osmotic composition in contact with the layer of osmotic drug composition.
Next, a semipermeable wall is formed by blending 170g of cellulose acetate having an acetyl of 39.8% with 900ml of methylene chloride and 400ml of methanol and spray coating the two layered compartment forming member in an air suspension machine until a 5.1mil thick semipermeable wall surrounds the compartment. The coated device is dried for 72 hours at 50°C and then a 8 mil passageway is laser-drilled through the semipermeable wall to connect the layer containing drug with the exterior of the device for releasing drug over a prolonged period of time.
EXAMPLE 4 The procedure of Example 3 is repeated with all conditions as described except that the drug in the osmotic device is fendiline, diazoxide, prenylamine or diltiazen.
EXAMPLE 5 An osmotic, therapeutic device for the delivering of the drug sodium diclofenac for uses as an anti-inflammatory is prepared by first pressing in a Manesty press an osmotic drug composition containing 75mg of sodium diclofenac, 300mg of sorbitol, 30mg of sodium bicarbonate, 26mg of pectin, 10mg of polyvinyl pyrrolidone and 5mg of stearic acid and pressing the composition in a cavity to a solid layer. Next, the cavity is charged with a second and greater force generating composition comprising 122mg of pectin having a molecular weight of 90,000 to 130,000, 32mg of mannitol, 20mg of polyvinyl pyrrolidone and 2mg of magnesium stearate and pressed to form a second layer in contacting relation with the first layer. The second layer had a density of 1.28g/cm^ and a hardness score of greater than 12kg. Next, the two layer core is surrounded with a semipermeable wall comprising 85g of cellulose acetate having an acetyl content of 39.8%, and 15g of polyethylene glycol 4000, 3wt/wt % solid in a wall forming solvent comprising 1960 ml of methylene chloride and 819ml of methanol. The coated device is dried for 72 hours at 50°C, and then a 0.26mm diameter passageway is laser-drilled through the wall. The semipermeable wall is 0.1mm thick, the device has an area of 3.3 cm , and it has an average rate of drug release of 5.6mg per hour over a 12 hour period. The cumulative amount released is illustrated in Figure 10. The small vertical bars represent the minimum and maximum drug release for five systems measured at that time.
EXAMPLE 5A The procedure of Example 5 is followed for providing an osmotic device wherein the compartment contained a blend of osmopolymers. The compartment contained a first composition weighing 312mg and consists of 48% sodium diclofenac drug, 38% poly(ethylene oxide) osmopolymer having a molecular weight of 200,000, 10% polyfethylene glycol) osmapolymer having a molecular weight of 20,000, 2% sodium chloride, and 2% sodium chloride, and 2% magnesium stearate; and a second composition weighing 150mg and consisting of 93% polyfethylene oxide) having a molecular weight of 5,000,000, 5% sodium chloride, and 2% magnesium stearate.
EXAMPLE 6 In this example, the increase in osmotic pressure for a number of compositions comprising an osmagent and as osmopolymer are made for demonstrating the operative advantage provided by the invention. The measurements are made by measuring the amount of water imbibed across the semipermeable wall of a bag containing as osmagent, or an osmopolymer, or a composition comprising an osmagent and an osmopolymer. The semipermeable vail of the bag is formed of cellulose acetate having an acetyl content of 39.8%. The measurements are made hy weighing the dry ingredients of the semipermeable bag, followed by weighting the blotted semipermeable bag, after the bag is in a water bath at 37°C for various lengths of time. The increase in weight is due to water imbibition across the semipermeable wall caused by the osmotic pressure gradient across the wall. The osmotic pressure curves are illustrated in Figure 11. In Figure 11, the curved line with the triangles represents the osmotic pressure for poly(ethylene) oxide having a molecular weight of 5,000,000; the curved line with the circles represents the osmotic pressure for a composition comprising poly(ethylene) oxide having a molecular weight of 5,000,000 and sodium chloride with the ingredients present in the composition in the ratio of 9.5 parts osmopolymer to 0.5 parts osmagent; the curved line with squares represents a composition comprising the same osmopolymer and osmagent in the ratio of 9 parts osmopolymer to one part osmagent; the curved lines with hexagon represents the same composition comprising the osmopolymer and osmagent in the ratio of 8 parts to 2 parts; and the dashed lines represents the osmagent sodium chloride. The mathematical calculations are made using the formular dw/dt-A (Knv)/h, wherein dw/dt is the rate of water imbibition over time, A is the area of the semipermeable wall, and K is the permeability coefficient. Also, in Figure 11, is the amount of water imbibed divided by the weight of osmopolymer plus osmagent. - 44 EXAMPLE 7 An osmotic therapeutic device for dispensing sodium diclofenac is prepared by screening through a 40 mesh screen a composition comprising 49% of sodiuita diclofenac, 44% poly(ethylene) oxide having a molecular, weight of 100,00, 2% sodium chloride and 3% hydroxypropylmethylcellulose, and then blending the screened composition with an alcohol solvent used in the ratio of 75 ml of solvent to lOOg of granulation. The wet granulation is screened through a 16 mesh screen, dried at room temperature for 48 hours under vacuum, passed through a 16 mesh screen and blended with 2% 80 mesh screened magnesium stearate. The composition is compressed as described above.
Next, a composition comprising 73.9% of pectin having a molecular weight of 90,000 to 130,000, 5.8% microcrystalline cellulose, 5.8% polyvinyl pyrrolidone, 14.3% sodium chloride and 2% sucrose is passed through a 40 mesh screen, blended with an organic solvent in the ratio of 100 ml of solvent to lOOg of granulation for 25 minutes, passed through a 16 mesh screen, dried for 48 hours at room temperature under vacuum, again passed through a 16 mesh screen, blended with 2% magnesium stearate, and then compressed onto the compressed layer described in the above paragraph. The dual layered drug core is coated by dipping in a wall forming composition comprising 80% cellulose acetate having an acetyl content of 39.8%, 10% polyethylene glycol 4000, and 10% hydroxypropylmethylcellulose. A passageway is drilled through the wall communicating with the drug containing composition. The passageway diameter is 0.38mm. The theoretical cumulative release profile for the device is depicted in Figure 12. Figure 13 depicts the theoretical release rate in mg per hour for the osmotic device.
EXAMPLE 8 The procedure of Example 7 is repeated with all conditions as described except that the osmopolymer in the drug composition is polyoxyethylene polyoxypropyleneblock copolymer having a molecular weight of about 12,500· EXAMPLE 9 An osmotic device is made by following the above procedures. The device of this example comprises a single composition comprising 50% of sodium diclofenac, 46% of poly(ethylene) oxide having a molecular weight of 100,000, 2% sodium chloride and 2% magnesium stearate.
The device has a semipermeable wall comprising 90% cellulose acetate comprising 39.8% acetyl, and 10% polyethylene glycol 4000. The cumulative amount released for this device comprising the single composition is 40% of the device comprising two compositions. The cumulative amount released is Illustrated in Figure 14.
EXAMPLE 10 The in vivo and in vitro mean cumulative releases of diclofenac sodium from an osmotic device comprising a first osmotic composition comprising 75mg of diclofenac sodium, 67mg of poly(ethylene) oxide having a molecular weight of 100,000, 3.0mg of sodium chloride, 4.5mg of hydroxypropylmethylcellulose and 3.0mg of magnesium stearate; a second osmotic composition distant from the releasing passageway comprising 51mg of poly(ethylene) oxide having a molecular weight of 5,000,000, 22.5mg of sodium chloride and 1.5mg of magnesium stearate; and, surrounded by a semipermeable wall comprising 90% cellulose acetate having an acetyl content of 39.8% and 10% polyethylene glycol 4000 was measured in vivo and in vitro in laboratory dogs. The amounts of drug released at various times in vivo were determined by administering a series of devices to the animal and measuring the amount released from the corresponding device at the appropriate residence time. The results are depicted in Figure 15, wherein the circles with the bars are the in vitro means cumulative releases and the triangles with the bars are the in vitro mean cumulative releases EXAMPLE 10A The in vivo and in vitro mean cumulative release for a device containing nifedipine was measured as descrbed immediately above. The osmotic device comprised a composition adjacent ts the passageway comprising 30mg of nifedipine, 106.5mg of poly(ethylene) oxide having a molecular weight of 200,000, 3mg of potassium chloride, 7.5mg of hydroxypropylmethycellulose and 3mg of magnesium stearate; a composition distant form the passageway comprising 52mg of poly(ethylene) oxide having a molecular weight of 5,000,000, 22mg of sodium chloride and l.Smg of magnesium stearate; and a semipermeable wall comprising 95% cellulose acetate having an acetyl content of 39.8% and 5% hydroxypropylmethylcellulose. Figure 16 depicts the release from the system, in figure 16 the circles represent the in vivo cumulative release and the triangles represent the in vitro means cumulative release.
EXAMPLE U The procedure of Example 10 is followed for making an osmotic therapeutic delivery system comprising: a first or drug composition weighing 638mg and consisting 96% cephalexin hydrochloride, 2% Poviclone (polyvinyl pyrrolidone) and 2% magnesium stearate; a second, or osmotic deriving composition weighing 200mg and consisting of 68.5% poly(ethylene oxide) having a 30 molecular weight of 5 x 10S, 29.5% sodium chloride, and 2% magnesium stearate; a semipermeable wall weighing 55.8mg consisting of 80% cellulose acetate having an acetyl content of 39.8%, 14% polyethylene glycol 4000, and 14% hydroxypropylmethylcellulose; and an osmotic orifice having a diameter of 0.039mm. The device has an average rate of release of about 54mg per hour over a - 47 period of 9 hours· The novel osmotic system of this invention uses dual means for the attainment of precise release rate of drugs that are difficult to deliver in the environment of use, while simultaneously maintaining the integrity and the character of the system. The words Polyox Carver and Manesty used herein are Trade Marks.
Claims (13)
1. A device for the delivery at a controlled rate of a beneficial agent to an environment of use, the device comprising: a) a wall formed at least in part of a composition * permeable to the passage of an exterior fluid present in the environment of use but impermeable to beneficial agents, osmopolymers and osmagents, the wall surrounding * and forming; b) a compartment; c) a first composition in the compartment, said first composition comprising a beneficial agent and an osmopolymer; d) a second composition in the compartment, said second composition comprising an osmagent and an osmopolymer, adapted in use to act upon said first composition; and e) a passageway in the wall communicating with the first composition and the exterior of the device for delivering the beneficial agent from the device in response in part at least to the action of the second composition,
2. The device for the delivexyat a controlled rate of the beneficial agent according to claim 2, wherein the wall forming composition comprises a member selected from the group consisting of cellulose acylate, cellulose diacylate, cellulose triacylate, cellulose acetate, cellulose diacetate, cellulose triacetate, ethyl cellulose, cellulose acetate butyrate, cellulose acetate propionate, hydroxypropylmethylcellulose hydroxyloweralkylcellulose, methylcellulose, * 49 methylethylcellulose and mixtures thereof.
3. The device for the delivezyat a controlled rate of the beneficial agent according to either of claims 1 or 2, « wherein the first composition is in the compartment as a 5 layer, and the second composition is in the compartment as a layer.
4. The device for the delivery at a controlled rate of the beneficial agent according to any preceding claim, wherein the wall is at least substantially completely 10 formed of a composition permeable to the passage of the fluid, and wherein the first composition imbibes external fluid through the wall into the compartment, and the second composition imbibes external fluid through the wall into the compartment. 15
5. The device for the delivery at a controlled rate of the beneficial agent according to any preceding claim, wherein the osmopolymer comprising the second composition has a molecular weight greater than the molecular weight of the osmopolymer comprising the first composition. 20
6. The device for the delivery at a controlled rate of the beneficial agent according to any preceding claim, wherein the beneficial agent is a drug.
7. The device for the controlled delivery of the beneficial agent to the environment of use according to 25 any preceding claim, wherein the wall is a laminate comprising a semipermeable lamina and a microporous lamina. 50
8. The device for the controlled delivery of the beneficial agent to the environment of use according to any preceding claim, wherein the composition forming the wall contains polyethylene glycol.
9. The device for the controlled delivery of the * beneficial agent to the environment of use according to any preceding claim, wherein the osmopolymer in the first composition is poly (ethylene oxide). '*
10. The device for the controlled delivery of the beneficial agent to the environment of use according to any preceding claim, wherein the osmopolymer in the second composition is poly(ethylene oxide).
11. The device for the controlled delivery of the beneficial agent to the environment of use according to any preceding claim, wherein the agent is the drug nifedipine, verapamel, diltiazen, diclofenac, propanolol, proszin, ibuprofen, ketoprofen, haloperiodol, indomethacin, and cephalexin.
12. The device for the controlled delivery of the beneficial agent to the environment of use according to any preceding claim, wherein the first composition comprises an osmagent.
13. A device as claimed in Claim 1 and substantially as herein described and/or with reference to the accompanying drawings.
Applications Claiming Priority (1)
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US49376083A | 1983-05-11 | 1983-05-11 |
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IE56515B1 true IE56515B1 (en) | 1991-08-28 |
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IE10/84A IE56515B1 (en) | 1983-05-11 | 1984-01-05 | Osmotic device with dual thermodynamic activity |
Country Status (20)
Country | Link |
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JP (1) | JPS6041609A (en) |
AT (1) | AT397180B (en) |
AU (1) | AU566110B2 (en) |
BE (1) | BE898819A (en) |
CA (1) | CA1222950A (en) |
CH (1) | CH669329A5 (en) |
DE (1) | DE3417113A1 (en) |
DK (1) | DK163910C (en) |
ES (1) | ES532018A0 (en) |
FR (1) | FR2545721B1 (en) |
GB (1) | GB2140687B (en) |
IE (1) | IE56515B1 (en) |
IL (1) | IL71727A (en) |
IT (1) | IT1178911B (en) |
MX (1) | MX163518B (en) |
NL (1) | NL192250C (en) |
NO (1) | NO170834C (en) |
NZ (1) | NZ206600A (en) |
SE (1) | SE455918B (en) |
ZA (1) | ZA842422B (en) |
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-
1983
- 1983-12-16 NZ NZ206600A patent/NZ206600A/en unknown
- 1983-12-19 AU AU22511/83A patent/AU566110B2/en not_active Expired
- 1983-12-22 GB GB08334189A patent/GB2140687B/en not_active Expired
-
1984
- 1984-01-05 IE IE10/84A patent/IE56515B1/en not_active IP Right Cessation
- 1984-01-24 NO NO840248A patent/NO170834C/en not_active IP Right Cessation
- 1984-02-02 BE BE0/212326A patent/BE898819A/en not_active IP Right Cessation
- 1984-02-13 JP JP59024947A patent/JPS6041609A/en active Granted
- 1984-02-24 DK DK099784A patent/DK163910C/en not_active IP Right Cessation
- 1984-02-29 MX MX200502A patent/MX163518B/en unknown
- 1984-03-15 AT AT0088084A patent/AT397180B/en not_active IP Right Cessation
- 1984-03-23 IT IT8467283A patent/IT1178911B/en active
- 1984-03-30 ZA ZA842422A patent/ZA842422B/en unknown
- 1984-04-05 FR FR8405362A patent/FR2545721B1/en not_active Expired
- 1984-04-27 ES ES532018A patent/ES532018A0/en active Granted
- 1984-05-02 IL IL71727A patent/IL71727A/en not_active IP Right Cessation
- 1984-05-08 NL NL8401470A patent/NL192250C/en not_active IP Right Cessation
- 1984-05-09 DE DE3417113A patent/DE3417113A1/en active Granted
- 1984-05-09 SE SE8402512A patent/SE455918B/en not_active IP Right Cessation
- 1984-05-10 CA CA000453998A patent/CA1222950A/en not_active Expired
- 1984-05-10 CH CH2309/84A patent/CH669329A5/de not_active IP Right Cessation
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8153160B2 (en) | 2005-07-06 | 2012-04-10 | Bayer Pharma Aktiengesellschaft | Pharmaceutical dosage forms comprising an active ingredient combination of nifedipine and/or nisoldipine and an angiotensin II antagonist |
US9539176B2 (en) | 2012-05-07 | 2017-01-10 | Bayer Pharma Aktiengesellschaft | Process for manufacturing a pharmaceutical dosage form comprising nifedipine and candesartan cilexetil |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
MK9A | Patent expired |