DE3841397A1 - Porous absorbable medicinal substance carrier - Google Patents

Abstract

The invention relates to a porous, absorbable medicinal substance carrier in which the medicinal substance carrier which consists, for example, of collagen is coated with an absorbable, degradable, aliphatic polyester as coating agent. A pharmaceutical agent is contained in the porous medicinal substance carrier and/or the aliphatic polyester. This agent is released to the extent that the coating agent is broken down or hydrolysed after introduction into the body.

Description

The invention relates to a drug carrier from a porous, resorbable material such as collagen, this being Drug carrier with a resorbable degradable aliphatic polyester, which serves as a coating agent, is coated. In the drug carrier and / or Laking agent is also at least one Contain drug active ingredient.

The modern development in medicine sees one controlled local application of drugs in Body inside. For this purpose, implantable Drug forms using absorbable and also used non-absorbable systems. With help of modern techniques, especially in combination with drug carriers, drugs targeted into the body be introduced. In addition to usual, surgical Interventions in the body are also endoscopic Techniques available. Through the targeted implantation high local concentrations can be reached. At the same time, those with systemic administration common side effects completely or at least partially avoided. This is especially true with septic Interventions, but also for the treatment of malignancies  Swollen desirable. Especially in tumor surgery is a longer, targeted action on site of a cytostatic is desirable.

Non-absorbable drug delivery systems, e.g. B. on Basis of the bone cements such as polymethyl methacrylate (PMMA) plastics, can be combined with drugs will. But here is the release of the drug, regardless of the location of the implantation in the body, often at short notice and there is often only one incomplete delivery of the incorporated drugs, such as has been shown for various antibiotics and cytostatics.

Absorbable drug delivery systems, e.g. B. such Basis of collagen, fibrin, albumin, chitin, oxycellulose, or also other resorbable or degradable synthetically produced drug carriers, prove Combination with one or more Active pharmaceutical ingredients, depending on the location of the implantation, different availabilities. In well perfused Tissues are released quickly Active pharmaceutical ingredient before the carrier is complete is absorbed.

Absorbable porous drug carriers are also known active substances contained therein. Are also known resorbable and degradable polyester, e.g. B. such based on polyglycolic acid (PGS), polylactic acid (PLS), Polyhydroxybutyric acid (PHB) or polyhydroxy propionic acid (PHP), or copolymers of the aforementioned compounds. These absorbable and degradable polyesters are as absorbable sutures have been tried and tested in part in trade. They are caused by hydrolysis in the body tissues Course from several hours to several days - in  Depending on the thickness of the threads, or their Surface area, and the molecular weight of the polyester - reduced.

The object of the invention is a drug carrier in Combination with a drug ingredient for the to provide incorporeal application where a targeted sustained release of the active ingredient he follows. This task is done by a porous resorbable drug carrier according to claim 1 solved.

The release can be targeted depending on Implantation site, d. that is, in the area with good or poor perfusion due to the choice and thickness of the applied varnish can be controlled. The Drug carrier has a porous structure and is resorbable. Are particularly suitable as a carrier material Foils or sponges based on collagen. The collagen can optionally be chemically modified, e.g. B. by Introduction of functional groups or through Cross-linking. The production of foils and sponges is known from collagen. You can for example by Freeze-drying a collagen-containing solution. Also resorbable as drug carriers Suitable for products of plant or animal origin, such as fibirin, chitin or oxycellulose.

Depending on the intended use, the drug carrier lies as a sponge or film, or as a powder or granulate in front.  

The invention provides the combination of a porous, absorbable drug carrier, e.g. B. a sponge from collagen, with a so-called lacquering agent. They serve as varnishing agents beforehand mentioned absorbable polyester based on Polyglycolic acid (PGS), polylactic acid (PLS), Polyhydroxybutyric acid (PHB), polyhydroxy propionic acid (PHB) or copolymers thereof, or mixtures of these polyesters or copolyester with each other.

In at least one of these two components, i.e. the Carrier and the varnish, is a Contain drug active ingredient. The nature of this Drug ingredient depends on the intended Therapy off. In addition to the cytostatics mentioned at the beginning, the play a role in tumor control for example the wide range of antibiotics in Question. The active pharmaceutical ingredient can thus either in or on the porous substrate or in the lacquering agent be included and it can also be both in the carrier as active ingredients are also incorporated in the coating agent, these active ingredients in the carrier and in the varnish can also be different from each other.

The varnish, one of the aforementioned Polyester, releases the active ingredient depending on that gradual hydrolytic degradation of the varnish, thus retarded free, whereby this active ingredient either from the varnish is released and / or from the porous support or the surface of the porous support in the extent to which this surface is hydrolysed Lacquer is released is available. Through the Control of the thickness of the varnish, the selection of the  Varnishing agent itself and the choice of Molecular weight of the polymeric varnish can controlled the release of the active ingredient (s) will.

The degree of drug release may continue be controlled by the fact that as a laking agent a combination of different polyesters Molecular weights used. By breaking down the polyester then with a smaller molecular weight early release of the drug while by the delayed degradation of the polyester with higher Molecular weight release of the drug ingredient only at a later date. In this way you can control the drug level so that a high one immediately after the implantation local drug level is present and the Concentration of active ingredient released over time, from several hours to several days, gradually decreased. It is also possible to have a multiple Make varnishing and in the individual Varnish layers a drug ingredient gradient build up. Within the scope of the present invention are here given many variations. One of these Opportunities is e.g. B. that one in the porous carrier or active pharmaceutical ingredient contained in the varnish from the outset already in a slow release form or in a mixture of non-delayed and delayed release Material. Over time, the release of the non-retarded and the retarded Active pharmaceutical ingredient, the retarded form then ensures that at a later date after the Implantation of the drug ingredient is available.

The following examples describe the invention.

Example 1 Production of a gentamicin-collagen-PGS combination

• 1. 0.2 g per 10 ml of 6-fluoroisopropanol
  0.02 g
  0.002 g or
  0.0002 g PGS (molecular weight 4000-8000) dissolved.
• 2. In a 5 × 5 × 2 cm glass tub Collagen gentamicin sponge size 5 × 5 × 0.5 cm, with the 2 mg gentamicin per cm² is loaded. In these Then 25 ml of the varnish solutions with the given under 1 given concentrations of PGA and the Solution becomes careful at a temperature of 30 ° C evaporated and dried in vacuo. You get on this way using 4 collagen gentamicin sulfate sponges different PGA concentrations.

Example 2

The procedure is as in Example 1, but instead of PGA, PHB (molecular weight 400,000-800,000) used becomes. PHB concentrations are initially set per 10 ml 6-fluoroisopropanol from

0.2 g
0.1 g
0.01 g
0.001 g or
0.0001 g

forth. The further procedure is as in Example 1.  

Example 3

Examples 1 and 2 are repeated. To the gradual degradation of the varnish (PGH or PHB) show, one adds to the varnishing solutions from PGS or PHB methylene blue. For this, 0.2 mg methylene blue, dissolved in water, per batch in a petri dish (Diameter: 3 cm) freeze-dried and then each time 0.5 ml of the aforementioned varnish solutions and these solutions are then cautious at one temperature dried from 30 ° C as indicated above.

The release of methylene blue from the respective paints from PGS or PHB is carried out in Ringer's lactate and the determination the concentration of methylene blue depending on time Photometer; the buried from the unpainted control Methylene blue serves as the internal standard. The release of gentamicin is carried out analogously. To determine the released aminoglycoside is used with common microbiological process determines the base released.

Claims (6)

1. Porous resorbable drug carrier, characterized in that the drug carrier is coated with a resorbable, degradable aliphatic polyester as a coating agent and at least one active pharmaceutical ingredient is contained on or in the drug carrier and / or in the coating agent. 2. Drug carrier according to claim 1, characterized characterized in that the drug carrier in Form of a sponge, a foil, a powder or one Granules are present. 3. Drug carrier according to one of the preceding Claims, characterized in that it is based on Basis of collagen, fibrin, chitin or oxycellulose is constructed. 4. Drug carrier according to one of the preceding Claims, characterized in that the resorbable, degradable aliphatic polyester Polyglycolic acid (PGS), polylactic acid (PLS), Polyhydroxybutyric acid (PHB), polyhydroxy propionic acid (PHP), a copolymer based on glycolic acid and lactic acid or a mixture of the foregoing Is polyester.   5. Drug carrier according to one or more of the preceding claims, thereby characterized in that in the Drug carrier and in the varnish same active pharmaceutical ingredients. 6. Drug carrier according to one of the preceding Claims 1 to 4, characterized in that the im Drug carrier and contained in the varnish Active pharmaceutical ingredients are different.