Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Tablets – lozenges – or pills
Reexamination Certificate
1999-08-12
2001-03-27
Bawa, Raj (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Tablets, lozenges, or pills
C424S453000, C424S464000, C424S466000, C424S468000, C424S470000
Reexamination Certificate
active
06207191
ABSTRACT:
TECHNICAL FIELD
This invention relates generally to drug delivery systems.
BACKGROUND OF THE INVENTION
It has been recognized that there is a need for a drug delivery system which yields an increase in the oral dosing interval of drugs exhibiting presystemic loss metabolism while simultaneously maintaining bioavailability equivalent to the immediate release dosage form. Such drugs would otherwise either require short interval dosing, such as periodic oral dosing having short periods between each oral dosing.
Various drug delivery systems, commonly referred to as time released systems, have attempted to solve this problem by continuously releasing amounts of the drug throughout the travel of the drug through the digestive track. For example, the U.S. Pat. No. 4,773,907 to Urquhart et al, issued Sep. 27, 1988, discloses a delivery system comprising a capsule containing dosage forms comprising a semipermeable wall surrounding a compartment containing drug. A passageway through the semipermeable wall releases drug from the dosage form to the environment. The U.S. Pat. No. 4,777,049 to Magruder et al, issued Oct. 11, 1988, discloses an osmotic delivery system. The system provides a device including a wall which can be a laminate comprising a semipermeable lamina and lamina arrangement with a microporous lamina. The lamina provides micropaths for emitting external fluid into the osmotic device. The device includes an opening having an erodible element, such as a gelatin plug that erodes and forms an osmotic passageway in the environment of use. Within the device is a modulating agent in nonequilibrium proportions. Upon the influx of fluid into the device, there is co-solubilization of a useful agent which is then released from the device. Thusly, co-solubilization of a modulating agent and a useful agent controls the release of the useful agent and results in the delayed release of the useful agent resulting from a reduction of the concentration of the modulating agent. This results in an osmotic system and a method of preprogramming to a desired time of release, a delayed release or a delayed pulsed release of agent. However, the delayed pulse of release is over a base line release and not a true pulse release from a zero base line.
The U.S. Pat. No. 4,783,337 to Wong et al, issued Nov. 8, 1988, discloses an osmotic system comprising a wall which is at least in part a semipermeable material that surrounds a compartment. An osmotic composition, or several osmotic compositions are contained within the compartment defined by the wall and a passageway in the wall connects the first composition with the exterior of the system. The first composition causes imbibition of fluid which results in the delivery of the suspension or solution through the aforementioned passageway. This can end up being a multi-chamber device.
European Patent 384 642 to Rashid, issued Dec. 15, 1993, discloses a water permeable capsule formed from at least two separable pieces and preferably uses a water swellable material to separate the two pieces and release the active material. The device disclosed in this application includes both a fluid permeable plug and fluid permeable capsule having water sensitive material disposed therebetween. In this configuration, the plug is forced out of the capsule by fluid ingressing through both the plug and the capsule wall to cause the water swellable material to physically increase in size and force the plug from the capsule. However, if this device were to include an osmotic reagent for generating osmotic pressure to force the plug from the capsule, the device would be inoperable as the permeability of both the capsule wall and plug would allow the escape or leakage of internal pressure which would prevent the build-up of adequate internal pressure and would not separate the plug from the capsule.
The aforementioned patents do not result in a truly pulsatile release. Pulsatile release, as used herein, implies an initial first release followed by a period of time where there is absolutely no release. Then, after the predetermined period, there is a true pulse release. Unlike prior art systems, it is desirable to provide a drug delivery system for non-linear presystemic loss drugs which will release fractions of the total dose at specified sites and time in the gastro-intestinal track so that bioavailability will not be compromised by the decreased release rate of conventionally controlled or sustained release dosage forms.
There are several advantages to a true pulsatile delivery system in extending the dosing interval. For those drugs which are first pass metabolized, an increase in delivery rate to the portal system results in a decrease in metabolism. For those drugs exhibiting non-linear prehepatic metabolism a larger fraction of drug will escape metabolism and therefore be available. For those drugs with incomplete absorption due to low permeability, poor solubility or in which case the absorption rate limited by rate of dissolution, enhancers can be added to increase the bioavailability. The pulse time and release rate can be programmed to match the immediate release dosage form profile. The pulse time and release rate from pulsatile delivery can be more reproducible than the immediate release dosage form which relies on patient compliance and rate of gastric emptying for input of drug to the site of absorption, that being the small intestine. The result is a decreased variability in plasma level time curves. The clinical efficacy of a pulsatile delivery system can be established to provide equivalent bioavailability to the conventional dosage form. Accordingly, patient compliance is increased through the use of a reduced and/or simpler dosing schedule. The pharmacodynamics of the pulsatile system can be made to match the established immediate release dosage. Thereby, the metabolic rates equivalent to that obtained from an approved dosing schedule can be obtained, hence no unusual accumulation of metabolites or altered metabolic profile results. The pulse delay and amount being pulsed are programmable to a variety of dosing schedules such that allowance for circadian rhythms is possible in order to optimize the pharmacodynamic response throughout the day. Finally, the optimal dosing schedule for two or more drugs, tailored to their individual pharmacokinetic and pharmacodynamic properties, can be optimized using this technology. The present invention provides an improved means of providing a pulsed dose or doses which are capable of providing all of the aforementioned advantages.
SUMMARY OF THE INVENTION
In accordance with the present invention, there is provided a drug delivery system comprising a first container including an inner chamber for containing a drug therein and having a passageway opening to an external environment thereof. Plug means is disposed in the passageway for plugging and closing the opening. The plug means is releasable from the opening upon the application of pressure from within the inner chamber. The container includes pump means reactive to the external environment for increasing the pressure within the inner chamber and forcing the plug means out of the passageway to release the drug from the chamber and out of the passageway.
The present invention further provides a method of delivering a drug to a body, the method including the steps of ingesting a drug delivery system, immediately releasing a first predetermined amount of drug from a second chamber of the system, and increasing the pressure within a first chamber of the system over time and forcing a plug therefrom at a predetermined time after the ingesting step. The drug is released from the first chamber once the plug is released therefrom.
The present invention further provides a method of making a drug delivery system, the method including the steps of filling a first capsule half with drug and a reactive agent, the capsule being water permeable. The capsule is plugged and a water permeable film is disposed over the capsule and plug. A second capsule half is filled with drug and an
Amidon Gordon L.
Crison John R.
Bawa Raj
Hudak & Shunk Co. LPA
Port Systems L.L.C.
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