Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Web – sheet or filament bases; compositions of bandages; or...
Reexamination Certificate
1999-10-20
2002-08-20
Page, Thurman K. (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Web, sheet or filament bases; compositions of bandages; or...
C424S449000, C424S443000
Reexamination Certificate
active
06436433
ABSTRACT:
This application is a 371 of PCT/EP98/00685 Feb. 9, 1998.
The invention relates to a transdermal or topical plaster system with a backing layer, with an active ingredient-containing and self-adhesive matrix based on crosslinkable polyacrylate as base polymer and with a removable protecting film.
Transdermal therapeutic systems (TTS) have now gained a firm place in the therapy of some disorders because of the special advantages of this administration form for certain active ingredients. The plasters available on the market differ from one another in respect of their technical construction and of the active ingredients, auxiliaries and polymers employed.
In respect of technical construction, essentially two plaster systems dominate the market at present. These are the so-called reservoir systems and the so-called matrix systems. The reservoir systems typically consist of a bag which is filled with a liquid preparation of the active ingredient. One side of the bag consists of a membrane which is permeable at least for the active ingredient, and is normally provided with a suitable adhesive. In the matrix systems, the active ingredient is incorporated into a polymer formulation (matrix) which is preferably also self-adhesive. Thus matrix systems consist in the simplest case of a flexible sheet or textile fabric which form the backing layer of the plaster, of one or more active ingredient-containing, preferably self-adhesive matrix layers and of a protecting layer to be removed before use.
Matrix systems to a certain extent represent the second generation of transdermal systems and are the preferred aim of new developments. Compared with reservoir systems, they have the advantage of greater comfort of wearing and greater inherent safety because there is no need to worry about dose dumping due to leakage from the reservoir. Such matrix systems are also used as so-called topical systems, in which case the active ingredient preferentially displays its effect at the site of application, and systemic availability is not aimed at.
The preferred polymer class for formulating the matrix comprises polyacrylate adhesives because they have a good adhesive power on the skin, are hypoallergenic and are available in a wide variety of types with different properties in respect of their physical and chemical properties.
The development of self-adhesive matrix systems is impeded by the fact that it is necessary to incorporate into the adhesive both the active ingredient and all the other auxiliaries such as, for example, permeation enhancers, and thus the properties of the adhesive are frequently compromised. This affects in particular the cohesion of the adhesive, which is then manifested during storage thereof by so-called cold flow and by adhesive residues remaining on the application site when the plaster is removed from the skin.
Cold flow means in this connection that the adhesive matrix begins to flow like a very viscous liquid between the backing layer and protecting layer during storage, and eventually the adhesive is no longer completely covered by the backing layer. This may result, for example, in the plaster sticking to the primary packaging container, which usually consists of a bag made from heat-sealed packaging material laminate, and thus becoming unusable.
These problems become particularly evident when the concentration of plasticizing active ingredients and/or auxiliaries dissolved in the adhesive is more than 10 per cent by weight and the total weight of the matrix exceeds 50 g/m
2
.
As means of suppressing this cold flow with polyacrylate adhesives, the patent application WO 86/00814 provides for crosslinking of the polymer in such a way that the plasticizing action of the ingredients is compensated by crosslinking. However, it must be remembered in this connection that the tack of the plaster decreases so greatly when there is too much crosslinking that the adhesion to the skin becomes inadequate. Moreover the production of a plaster which adheres well and has acceptable cold flow remains problematic.
The same applies to the solution proposed in the Patent DE 40 20 144, of adding a film-forming nonadhesive polymer to the matrix.
The solution to the problem of improving the cohesion of the matrix without reducing the adhesive power on the skin has now surprisingly been found by constructing the matrix out of at least two layers which have, in particular, the same polymer composition and the same concentration of dissolved ingredients, where the layer(s) facing away from the skin have a degree of crosslinking which is sufficient to prevent cold flow, and the layer facing the skin has a degree of crosslinking which guarantees sufficient adhesion to the skin.
Accordingly, the plaster system according to the invention of the type mentioned at the outset is essentially characterized by an at least two-layer matrix with a degree of crosslinking of the layer facing the skin which is appropriate for adequate adhesion to the skin thereof and is lower than the degree of crosslinking of the layer or layers on top thereof.
The coating weight of the skin contact layer is in this case preferably 10-30 g/m
2
. With such a thickness, the cold flow of the layer is negligibly small, while the degree of crosslinking affords excellent adhesion to the skin.
Further particular features of the invention are evident from the claims and the following description.
The crosslinking of the matrix layers to different extents can be effected in a manner known per se, such as, for example, by
adding metal chelates such as, for example, aluminium
acetylacetonate or titanium acetylacetonate,
chemical crosslinking with reactive reagents such as, for
example, melamine,
crosslinking by electron irradiation,
irradiation with UV light in the case of adhesives with appropriate functional groups suitable for this purpose.
Particular benefits arise according to the invention from the recognition that two important parameters which are crucial for the performance of the TTS are virtually unaffected by the degree of crosslinking. These are
a) the saturation solubility of all low molecular weight substances, and thus also of the active ingredient and
b) the diffusion coefficient of low molecular weight substances,
whereby the definitive elaboration of a specific plaster system experiences a considerable improvement.
The saturation solubility, and thus the thermodynamic activity, of the active ingredient at a given concentration is unaffected because, in general, only a very small portion of the functional groups on the polymer which are necessary for the crosslinking participates in the crosslinking reaction. Thus, the contribution of the functional groups to the polarity of the polymer and thus also to its dissolving power is thus substantially retained. The diffusion coefficient of low molecular weight compounds remains substantially unaffected by the degree of crosslinking, because only the microviscosity of the polymer in the immediate vicinity of the diffusing compound is of importance for the diffusion. However, this microviscosity is virtually unaffected, owing to the great length of the polymer molecules, at all degrees of crosslinking necessary in practice.
Thus, once the matrix formulation which is based on a self-adhesive polyacrylate capable of crosslinking and which permits delivery of an amount, which is adequate for practical use, of active ingredient through the skin has been found, it is then possible directly to provide a construction according to the invention of this matrix composed of several layers with different degrees of crosslinking while optimizing the thickness, cohesion and adhesive power, without thereby affecting the permeation performance of the system.
This denotes a significant simplification for the development of matrix systems. It is a simplification because problems with the adhesive power and the cohesion frequently only become evident when the first clinical tests and stability studies have already been carried out. Reformulation, necessary at this stage, of the matrix in respect
Ghali Isis
Hochberg D. Peter
Holt William H.
LTS Lohmann Therapie-Systeme AG
Page Thurman K.
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