DE4438989A1 - Scopolamine patches - Google Patents

Abstract

A scopolamine-containing transdermal therapeutical system is designed as a plaster. The active substance-containing layers of the plaster contain copolymers of acrylic or methacrylic acid derivatives as base polymer and a concentration of scopolamine base that corresponds to 50-100 %, preferably 60-100 %, of the saturation concentration of the total vehicle.

Description

Scopolamine is a well-known substance that is used in a ver marketed transdermal patch system with systemic Effect is administered. Scopolamine is a so-called Antiemetic and is preferred to avoid of nausea and vomiting, for example, as a result of Repeated passive changes occurring during travel balance.

The therapeutic advantage of transdermal administration is that the drug delivery slowly and by the trans dermal system controlled. It is possible the rather narrow therapeutic window for scopolamine to be met reliably and thus therapeutically to achieve effective plasma levels without, on the other hand the side effects associated with an overdose to fear.

The structure of the marketed system is in the US 3,797,494. It essentially consists of a backing layer, an active substance reservoir, one microporous membrane, which also contains an active ingredient Skin adhesive layer and one to be removed before use Protective film. The reservoir and the skin adhesive layer are made up of a mixture of polyisobutylenes with different molecular weights and a mineral oil. The active ingredient in this mixture is a viscous liquid dispersed. A transdermal system that works parts containing substances are built on this basis, however, shows serious disadvantages. Under certain Conditions occur to spontaneous crystallizations the bioavailability of the active ingredient in the patch is negative influence.

In US 4,832,953 the details of this instability are  detailed. A method is described as by subsequent heat treatment of the ver packed plasters to prevent crystallization can. According to the information in this patent it is mainly the scopolamine hydrate that crystallizes out.

It’s a significant disadvantage if, under certain, conditions that are difficult to define in a Active ingredient containing drug form not previously predictable time after manufacture its aggregate shape changes under the influence of bioavailability.

The Erfin is based on this state of the art based on the task of an alternative polymer form to specify the formulation for the active substance scopolamine base, which is free from the patents cited above described serious disadvantages.

The problem is solved with a transdermal one therapeutic system in the preamble of claim 1 mentioned type with the invention in that the effective layers of the plaster as a base polymer Copolymers of acrylic acid or methacrylic acid derivatives and scopolamine base in a concentration 50-100% of the saturation solubility is preferred 60-100% of the saturation solubility, in the full Vehicle formulation corresponds.

Further refinements of the invention are corresponding provided the subclaims.

According to the literature, scopolamine base is viscous Liquid. However, it is difficult for the person skilled in the art understand that a relatively polar substance with a Molecular weight of 303.35 in its stable aggregate condition should be a liquid. Nevertheless it works under appropriate conditions, scopolamine base too crystallize. A white solid is obtained  a melting point of approx. 68 ° C. This results in mandatory that in plasters according to the prior art the active ingredient contained in an unstable modification is. So it is very likely that not the hydrate the scopolamine base the crystallizing species but that it is a phase change of liquid after solid the scopolamine base itself. Because liquid scopolamine base compared to crystalline Scopolamine base a modification with increased energy represents the content, results from the expert known laws that scopolamine base in Polymer itself in a the saturation concentration exceeding concentration is resolved. The crystalli sation can not only in the dispersed part of the Active ingredient, but also take place in the polymer itself.

The invention advantageously provides a new formulation of the base polymers containing the scopolamine which the known disadvantages for the powerful of the patch should be avoided. By having Polymers are used according to the invention, the effect substance completely dissolved in concentrations below or contain at most equal to the saturation concentration, becomes an instability of the active substance scopolamine and its crystallization in the plaster with great advantage avoided. Such polymers have to be against this over the formulations according to the state of the Technology increased solvent power for scopolamine base to sit.

Self-adhesive co polymers based on polyacrylic acids and their Derivatives. In such polymers, scopolamine base has one on the exact composition of the copolymers and the Type and amount of additive dependent sol between about 10 and 20% (g / g). This is more as sufficient to be in a plaster with a size of approx. 2.5 cm² and one with transdermal systems usual thickness, for example for a three day  treatment necessary for the prophylaxis of travel complaints To accommodate amount of active ingredient.

The properties of such polyacrylate adhesives can by choosing the ones used to make them Monomers and by the polymerization conditions Predeterminable molecular weight with regard to the adhesive force, the cohesion and the release properties vary will. What is important in the sense of this invention is above all the solvent power for scopolamine base. Because scopolamine base is therefore a relatively polar substance all those polyacrylate adhesives in question that are polar functional groups. As such in polyacrylate Common groups are, for example, carboxyl called groups, hydroxyl groups and amino groups. Ent speaking monomers used to introduce these groups can be used in the adhesive are, for example, methacrylic acid, acrylic acid, half esters of diols with acyl and Methacyrlic acid and esters of both acids with amino alcohols.

Polyacrylate adhesives are compatible with a wide range of low molecular weight substances. The addition of such Substances can be used to remove the solvent given polyacrylate adhesives in the sense of this connection to modify. In a practical sense, this means that polyacrylate adhesive that has an insufficient number of polar groups, with the addition of relative polar auxiliaries, and polyacrylate adhesive with a too many polar groups with relatively non-polar ones Auxiliary materials must be provided. Because the thermodynamic Activity of active substances not from the absolute con centering, but rather on the ratio of current concentration to saturation solubility depends, the latter option is important to at a polyacrylate adhesive with too high a solubility for the active ingredient by reducing the solubility saving for scopolamine base active ingredient. Under these aspects are within the meaning of this invention a saturation solubility of scopolamine base in the  Glue or in the mixture of glue / auxiliary from 10-30 Weight percent as optimal.

Since scopolamine base is a real polar substance, can especially the addition of liquid hydrocarbons can be used to achieve saturation solubility drigen. Dioctyl has proven particularly suitable for this proven cyclohexane.

As more polar substances to increase the saturation solution Above all, fatty acids, fatty alcohols, Polyethylene or polypropylene glycol, derivatives of Glycerins and dexpanthenol can be used. As be Fatty acids such as oleic acid are particularly suitable proven.

On the basis of these adhesives or adhesive / auxiliary formulations, both so-called transdermal matrix systems and membrane systems can be produced which have proven to be bioequivalent to marketed competitor products in meaningful in vitro permeation tests on human skin. The structure of such trans dermal systems is shown in Figs. 1 and 2.

In terms of design, a matrix system is the simplest trans dermal system. It consists of a backing layer ( 1.3 ) which is essentially impermeable to the active substance and the auxiliary substances, an active substance-containing, self-adhesive polymer formulation ( 1.2 ) and a protective film ( 1.1 ) to be removed before use. The materials suitable for the backing layer and the protective layer are known to the person skilled in the art. Films based on polyethylene terephthalate are practically universal, the protective film being additionally siliconized, at least on its contact side with the adhesive, in order to make it easier to remove the plaster. If the pressure of the polymer formulation is too low, it can be provided with an additional layer of pressure-sensitive adhesive towards the skin, which is not shown here.

A membrane system consists of a backing layer ( 2.5 ), an active substance reservoir ( 2.4 ), the membrane ( 2.3 ), a skin contact layer ( 2.2 ) and a protective layer ( 2.1 ) to be removed before use.

The drug reservoir layer and the skin contact layer can be the same or a different together have settlement. Important in the sense of this invention is only that at least the reservoir on one Polyacrylate adhesive is based and has a solvent power for Scopolamine base between 10 and 30 percent by weight disposes.

Also the materials that are suitable for a membrane are known to the person skilled in the art. Have proven themselves in combination with a polyacrylate adhesive in the sense of this invention membranes based on copolymers from ethylene and vinyl acetate. Because of the vinyl content Acetate and the thickness of the membrane can be the active ingredient control flow through this membrane. The higher the vinyl acetate content and the smaller the thickness, the greater is the permeability of the membrane for scopolamine base. Membranes with a vinyl acetate content have proven successful of at least 4% and a thickness between 50 and 100 microns. For a plaster with a surface not exceeding 5 cm² Membranes are 50 µm thick and a vinyl acetate content of 9-20% lasts.

Table 1 and Chart 1 show the results of Permeation experiments using Matrixsys shown in the sense of this invention. The attempts were carried out using French Permeation cells and use of human skin (female breast skin from breast reduction surgery).

In Table 2 and Diagram 2 the results with Mem fuel systems shown in the sense of the invention.  

Table 1

Permeation measurements with matrix systems according to Examples 1 and 2

Table 2

Permeation measurements with membrane systems according to Examples 3 and 4

The results of these permeation experiments show one clearly that plasters in the sense of this invention the same Have performance like the comparison samples, but without having their disadvantages. Since the Concentration of active substance does not affect saturation solubility there is no risk of recrystallization. The formation of crystalline scopolamine hydrate is also practically impossible because of polyacrylate formulations due to their chemical-physical properties have a solvent for scopolamine hydrate, that is sufficient to recrystallize the ver practically existing amounts of water in the adhesive prevent.

Examples Example 1

27 g polyacrylate adhesive (Durotak 901-1051, solids content 52%)
3.4 g oleic acid
0.12 g aluminum acetylacetonate
4.0 g scopolamine base
and 3.7 g ethanol
are carefully mixed and coated on a siliconized polyester film as a 200 µm thick film. The solvent-containing film is dried for 30 minutes at 50 ° C. and covered with a 23 μm thick polyester film. The individual plaster systems (area 2.5 cm²) are punched out of the total laminate.

Example 2

27 g polyacrylate adhesive (Durotak 901-1051, solids content 52%)
3.4 g oleyl alcohol
0.12 g aluminum acetylacetonate
3.0 g scopolamine base
and 3.7 g ethanol
are carefully mixed and coated on a siliconized polyester film as a 200 µm thick film. The solvent-containing film is dried for 30 minutes at 50 ° C. and covered with a 23 μm thick polyester film. The individual plaster systems (area 2.5 cm²) are punched out of the total laminate.

Example 3

73.6 g polyacrylate adhesive (Durotak 901-1051, solids content 52%)
9 g oleic acid
0.38 g aluminum acetylacetonate
12.0 g scopolamine base
and 17 g ethanol
are carefully mixed and taken for the coating operations.

a. Production of the skin adhesive layer

The mass is applied to a silicone as a 50 µm thick film coated polyester film. The solvent containing film is dried at 50 ° C for 30 minutes and with a 50 µm thick membrane made of an ethylene vinyl acetate copolymer with a vinyl acetate content of 9% covered.

b. Production of the reservoir layer

The same mass is in a second coating process in a thickness of 150 µm to another siliconized polyester film coated and after Remove the solvent with a 23 µm thick polyester foil covered.

c. Production of the total laminate

The reservoir layer produced under b is from the Peeled off polyester film and onto the membrane of the bottom a skin adhesive layer produced laminated.

The patch systems are made from the entire laminate in one Punched out size of 2.5 cm².  

Example 4

73.6 g polyacrylate adhesive (Durotak 91-1051, solids content 52%)
9 g oleyl alcohol
0.38 g aluminum acetylacetonate
9.0 g scopolamine base
and 17 g ethanol
are carefully mixed and taken for the coating operations.

The further procedure corresponds to example 3.

Claims (8)

1. Transdermal therapeutic system in the form of a plaster with a layered structure, consisting of a backing layer, a pressure-sensitive adhesive reservoir, occasionally a membrane that controls the flux of the active ingredient, an additional skin adhesive layer, if necessary, and a removable protective film containing the active ingredient scopolamine base, thereby characterized in that the active ingredient-containing layers of this plaster as Basispoly mer copolymers of acrylic acid or. Contain methacrylic acid derivatives and contain scopolamine base in a concentration which corresponds to 50-100% of the saturation solubility, preferably 60-100% of the saturation solubility, in the complete vehicle formulation. 2. Transdermal therapeutic system according to claim 1, characterized in that it is a matrix system. 3. Transdermal therapeutic system according to claim 1, characterized in that it is a membrane system. 4. Transdermal therapeutic system according to one or several of claims 1 to 3, characterized in that the membrane is a copolymer of ethylene and vinyl acetate contains. 5. Transdermal therapeutic system according to claim 4, characterized in that the membrane is at least 4% Contains vinyl acetate. 6. Transdermal therapeutic system according to one or several of claims 1 to 5, characterized in that the saturation solubility of the scopolamine base in the adhesive or in the adhesive / auxiliary mixture 10-30% by weight  is. 7. The transdermal therapeutic system according to claim 1 to 6, characterized in that the active ingredient Layers of the plaster hydrocarbons, preferred Dioctylcyclohexane, to reduce the satiety for scopolamine base. 8. Transdermal therapeutic system according to one or several of claims 1 to 7, characterized in that the active ingredient-containing layers of the patch are fat acids or fatty alcohols to increase satiety solubility, preferably oleic acid and oleyl alcohol, ent hold.