Emulsions as solid dosage forms for oral administration

Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Particulate form

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C424S465000, C424S458000, C514S770000

Reexamination Certificate

active

06692771

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to the field of emulsion compositions and to pharmaceutical dosage forms and the methods of preparing the same.
BACKGROUND OF THE INVENTION
Certain drugs present significant problems in balancing the desire for a convenient oral dosing format and the necessary bioavailability. With some drugs, absorption of an orally administered dose could be as little as 30%, or less. Such poorly absorbed drugs often display large inter- and intra-subject variability in bioavailability. See Aungst, B. J., J. Pharm. Sci., 82:979-987, 1993. Specific examples of such drugs, having the average bioavailability given in parentheses, include methyldopa (25%) with a range of 8% to 62%; and nalbuphine (approximately 17%) with a range of 6% to 40%.
The absorption rate of most drugs depends on two factors: (1) the dissolution of the drug in physiological fluids and (2) the absorption process itself, i.e., the process by which a drug in solution enters the cells at the absorption site and, finally enters the general circulation. Many drugs are absorbed by passive diffusion, i.e., a spontaneous migration of drug molecules from a region of high concentration to a region of low concentration. Other drugs are absorbed by active transportation which involves the expenditure of energy by the body. Some drugs are absorbed by the processes of pynocytosis or endocytosis which involve the engulfing of solid particles and the incorporation of such particles into the cellular contents. However, with these few exceptions, for solid orally administered drugs, absorbed actively or passively, dissolution of the drug is the first step in the absorption process.
To compensate for the poor absorption displayed by many drugs, a pharmaceutical formulation may utilize or take advantage of one or more mechanisms to increase the rate and/or the extent to which the administered drug is absorbed. While there are a vast number of such mechanisms, they may be grouped into the following broad categories: (1) techniques that increase rate of absorption by enhancing the rate or extent of dissolution; (2) techniques that increase rate of absorption by facilitating the absorption process that would have occurred naturally; and (3) techniques that increase rate of absorption by inducing an absorption mechanism that would not naturally have occurred or which would have occurred to an insignificant extent in the absence of any special absorption-enhancing mechanism. Incorporation of surfactants to increase the rate of dissolution of a slowly-dissolving drug is an example of a technique which takes advantage of the first mechanism, and incorporation of a chemical substance that opens tight junctions in order to increase the rate of absorption of a drug that would normally have been absorbed slowly through the paracellular route is an example of the use of the second technique. On the other hand, incorporation of a drug within oil droplets for the purpose of using the lymphatic system in the absorption of the drug (where this would not, otherwise, have occurred) is an example of a third technique using the third mechanism.
Emulsions have also been used for delivering drugs. The emulsions are generally delivered only in the form of soft or hard gelatin capsules, or as a liquid dispensed directly into the patient's mouth. However, gelatin capsule shells contain water which can migrate into water-in-oil (“w/o”) emulsions. This can change the relative proportions of the different phases of the emulsion and/or cause the gelatin shell to become dry and susceptible to cracking. Alternatively, a w/o emulsion can lose water to the gelatin shell, again changing the proportions of the different emulsion phases or causing the shell to swell and become soft. The latter effect makes it difficult for a patient or care-giver to handle the capsule. Moreover, surfactants and co-surfactants within the emulsions, often used as emulsifying agents, can react with the capsule shell. Oil-in-water (“o/w”) emulsions generally cannot be incorporated in such capsules because the water in the external phase will dissolve the capsule shell. In addition, gelatin capsules which contain liquids present handling problems to both the patient and the manufacturers. Capsule leakage is a common problem and sophisticated detection systems are sometimes employed to monitor such leakage. Upon physical handling by the patient, the capsule may also soften or leak. With prolonged storage at temperatures and humidity levels that are not as closely controlled as the environment in a pharmaceutical factory, the capsule may also swell, shrink or leak.
More recently, powdered solution technology has been proposed as a technique for the delivery of water-insoluble drugs. See Spireas et al., “Powdered Solution Technology: Principles and Mechanisms, Pharm. Research, Vol. 9, No. 10 (1992) and Sheth, A. and Jarowski, C. I., “Use Of Powdered Solutions To Improve The Dissolution Rate Of Polythiazide Tablets,” Drug Development and Industrial Pharmacy, 16(5), 769-777 (1990). The concept of powdered solutions involves converting drug solutions or liquid drugs into a dry, nonadherent, free-flowing compressible powder by admixing the liquid drugs or drug solutions with a selected carrier. Although the dosage form is a solid, the drug is held in a solubilized liquid state, which enhances diffusion directly into cells. Alternately, it improves the wetting properties of the drug and, therefore, enhances dissolution.
Unfortunately, the application of powder solution technology has been limited.
While the technology offers certain promise in enhancing the drug-delivery performance, in practice, the resulting admixture powders generally have undesirable properties, such as poor and erratic flowability and compressibility. The disclosure of the co-pending commonly assigned U.S. patent application Ser. No. 09/374,393 and the corresponding international application PCT/US99/18552 published under Pub. No. WO009093A1 is incorporated herein by reference.
SUMMARY OF THE INVENTION
One aspect of the invention provides an emulsion composition in the form of a free-flowing, compressible powder, which includes an admixture of a drug-containing emulsion and a solid particle adsorbent; wherein the emulsion is adsorbed on the solid particle adsorbent and forms a free-flowing, compressible powder. The drug-containing emulsion remains stable in the composition. Preferably, the drug containing emulsion has a viscosity of between 1 cps and 400,000 cps, preferably between 400 cps and 200,000 cps and more preferably between 5,000 cps and 150,000 cps. The drug-containing emulsion may include between 2% and 50% active drug ingredient, preferably between 5% and 40% and more preferably between 10% and 30%.
The emulsion compositions according to this aspect of the present invention do not limit the types of dosage form and can be administered to a subject in any pharmaceutically acceptable dosage. For example, the emulsion compositions may be administered as dosage forms, such as tablets; granules, pellets or other multiparticulates; capsules that can contain the drug in the form of mini-tablets, beads, or a powder; suppositories; or as a powder of the emulsion composition itself, either packaged in a multidose container or as individual doses.
In another aspect, the invention also provides an emulsion composition in the form of a free-flowing, compressible powder. The emulsion composition is an admixture of a drug-containing self-emulsifying drug delivery system and solid particle adsorbents. The drug-containing self-emulsifying drug delivery system is a mixture of oil, emulsifying agent and active drug ingredient and the mixture is adsorbed onto the solid particle adsorbent when blended with the adsorbent. Compositions according to this aspect of the invention can be made into dosage forms similar to those discussed above.
The emulsion compositions discussed above may be prepared by adsorbing a drug-containing emulsion onto a particulate solid material so as to provide th

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Emulsions as solid dosage forms for oral administration does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Emulsions as solid dosage forms for oral administration, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Emulsions as solid dosage forms for oral administration will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3296372

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.