IMPLANT FOR SUBCUTANEOUS IMPLANTATION

Abstract

The invention relates to an implant for subcutaneous implantation having a substantially cylindrical, conical or spiral-shaped base body which has a lateral surface. The base body consists of a completely resorbable biodegradable polymer. The implant is further configured for blunt implantation. In addition, the biodegradable polymer is enriched with a medicinally relevant active ingredient.

Claims

1.-12. (canceled)

13. An implant for subcutaneous implantation, having a substantially cylindrical, conical or spiral-shaped base body which has a lateral surface, wherein the base body consists of a completely resorbable biodegradable polymer, wherein the implant is configured for blunt implantation, wherein there are provided on the lateral surface of the base body, in the case of a cylindrical or conical base body, protruding wings which are integrally formed with the base body, wherein the biodegradable polymer is enriched with a medicinally relevant active ingredient.

14. The implant according to claim 1, characterized in that the wings are arranged circumferentially at the entire periphery of the lateral surface, in that the wings, in a radial cross-section of the implant, have a surface substantially similar to a triangle.

15. The implant according to claim 1, characterized in that the wings are configured in the manner of a spiral, whereby they form at least one screw thread.

16. The implant according to claim 1, characterized in that the implant is configured to be self-inserting and/or self-tapping on rotation about the longitudinal axis of the base body.

17. The implant according to claim 1, characterized in that it has a resorption rate of at least three months.

18. The implant according to claim 1, characterized in that it has a blunt or rounded tip.

19. The implant according to claims 1, characterized in that the medicinally relevant active ingredient is a competitive inhibitor of type 1 and/or type 2 5--reductase, in particular dutasteride, finasteride and/or minoxidil.

20. The implant according to claim 1, characterized in that the medicinally relevant active ingredient is estrogens and/or androgens.

21. The implant according to claim 1, characterized in that the biodegradable polymers have a constant degradation over time.

22. The implant according to claim 1, characterized in that there are used as biodegradable polymers polylactide and polyglycoid or polycaprolactan and oxalate-crosslinked oligocaprolactones, wherein the resorption time can be adjusted by the ratio of the two polymers to one another.

23. The implant according to claim 1 for use in pharmacological permanent treatment.

24. The implant according to claim 11 for use in the treatment of androgenetic hair loss, of postmenopausal estrogen deficiency syndromes, of male-to-female transsexuality and/or of female-to-male transsexuality.

Description

[0019] The object underlying the invention is, therefore, to provide an implant which is suitable for the continuous administration of active ingredients but causes minimal outlay on implantation.

[0020] The object is achieved according to the invention by an implant for subcutaneous implantation having the features of claim 1.

[0021] Advantageous embodiments of the invention are given in the dependent claims.

[0022] According to the invention, an implant for subcutaneous implantation has a substantially cylindrical, conical or spiral-shaped base body which has a lateral surface, wherein the base body consists of a completely resorbable biodegradable polymer. It is further provided that the implant is configured for blunt implantation and there are provided on the lateral surface of the base body, in the case of a cylindrical or conical base body, protruding wings which are integrally formed with the base body. The wings are made of a similar or the same material as the base body. It is further provided that the biodegradable polymer is enriched or supplemented with at least one medicinally relevant active ingredient.

[0023] In the case of a spiral-shaped base body, the wings can, but do not have to be, omitted. This design can be similar to a corkscrew or a spring. The cross-section of the base body can be round or polygonal.

[0024] A fundamental idea of the invention can be seen in the provision of an implant which is implanted into a body and can be left there. Furthermore, this implant is completely resorbable owing to the use of biodegradable polymers. This means that the implant must only be implanted into the body once, preferably subcutaneously, and decomposes or is degraded during the duration of action. A further intervention to remove the implant is thus prevented from being required. It is further provided according to the invention that the implant is configured for blunt implantation. It is also important that, owing to the shaping, the implant is prevented from slipping out, or at least it is more difficult for it to slip out.

[0025] Within the meaning of the invention, blunt implantation is to be understood as meaning that the step of creating an implant bed can be omitted and/or implantation takes place substantially atraumatically. This means that, when the implant is introduced into a body, the tissue of the body is substantially displaced and a cavity for receiving the implant does not actively have to be created.

[0026] Finally, it has been recognized according to the invention that the biodegradable polymer can be enriched with one or more medicinally relevant active ingredients, that is to say a pharmacological substance. Owing to the continuous degradation of the polymer, the active ingredient or ingredients is/are continuously distributed or released, so that the active ingredient or ingredients can be administered continuously over a specific period of time and its or their systemic effects can unfold.

[0027] It is advantageous if the wings are arranged around the entire periphery of the lateral surface and, in a radial cross-section of the implant, have a surface substantially similar to a triangle. The wings can also be curved, for example. The wings can also be configured in the manner of a spiral, whereby they form at least one screw thread. Another possibility is to provide the base body itself in the form of a spiral. A further form according to the invention is to provide the wings in the form of barbed hooks, which prevent the implant from being pulled out or, in particular, from slipping out by itself.

[0028] It is fundamental to all possible wing forms that they permit, or assist with, blunt introduction of the implant into a body but ideally prevent the implant from being pulled back, being pushed back and/or slipping back. In one embodiment, they can also be configured to be similar to barbed hooks which prevent the implant from being pulled back, being pushed back and/or slipping back.

[0029] In an advantageous embodiment, the implant is configured to be self-inserting and/or self-tapping on rotation about the longitudinal axis of the base body. In this respect, the implant can be regarded as being a screw-in implant which, similarly to a self-tapping screw, namely by rotation about the longitudinal axis of the base body, draws itself into the body. This in turn has the advantage that it is possible to dispense with the complex process of creating an implant bed with the corresponding problems on enlargement of the cavity, for example bleeding, pain, infection.

[0030] For example, the implant according to the invention can thus be implanted subcutaneously at a clinically safer, less disruptive and sufficiently voluminous site, for example in the stomach region. For this purpose, a local anesthetic may be required. Implantation takes place, for example, with a minimal stab incision, through which the implant is then screwed into, for example, the subcutaneous tissue in a self-inserting manner. As described, the necessary steps of creating the implant bed by means of a specially configured cavity enlarger are thus omitted.

[0031] Furthermore, introduction of the implant provided with barbed hooks can take place also only to push in, similarly to the introduction of a wall plug, only the direction of the interior of the body, whereby the implant is secured against slipping back.

[0032] In principle, the implant can have any desired resorption rate. Preferably, it is at least three months. Within the meaning of the invention, resorption rate is understood as meaning the time taken by a body into which the implant has been inserted to degrade, that is to say reabsorb, the implant completely. It is preferred if this period of time is as long as possible, for example two or three years. There may be used as components of the biodegradable polymer, for example, polylactides, polyglycoids, polylactide-co-glycolides, polycaprolactans or oxalate-crosslinked oligocaprolactans.

[0033] Release of the active ingredients present takes place by polymer erosion, whereby a distinction is substantially made between two forms, which can also occur simultaneously. On the one hand, surface erosion, in which the biodegradable polymer is degraded from the outside in, and on the other hand bulk erosion, in which substantially all the polymer molecules are degraded simultaneously.

[0034] General known factors which influence the degradation are the pH, the particle size and the diffusion of water into the material. Biodegradable polymers are degraded in aqueous media to monomers. The monomers are metabolized and expelled via the lungs in the form of water and carbon dioxide. A further portion, which in most cases is relatively small, can also be excreted via the urine.

[0035] If the chosen biodegradable polymer is composed of several different polymers, for example polylactide and polyglycoid, then the rate of degradation can be influenced by the ratio of the two materials to one another. One property which contributes substantially to the variation in the rate of degradation is the hydrophilicity of the polymers used, since the amount of water taken up into the implant material can thus be influenced, and hence the rate of degradation is influenced. Similarly, the biodegradable polymer can be composed of polycaprolactan and oxalate-crosslinked oligocaprolactan, whereby the ratio of the two components to one another again determines the rate of degradation.

[0036] It has been found to be advantageous if the implant does not have a sharp tip but a tip that is at least slightly rounded or somewhat blunt. In other words, the tip is a tissue-conserving, rounded tip. This contributes to allowing the blunt implantation within the meaning of the invention. In this manner, tissue damage on introduction of the implant is prevented or reduced because, as already described, the tissue is substantially not cut but merely displaced. Less damage is thus caused to the tissue, which leads to better compatibility.

[0037] In principle, any desired active ingredients having medicinal activity can be introduced into the implant. For the therapy of androgenetic alopecia there are suitable, for example, a competitive inhibitor of type 1 and/or type 2 5--reductase, in particular dutasteride, finasteride and/or the substance minoxidil. As already described at the beginning, it is known that these substances can retard and in the best case even stop hair loss. When the implant according to the invention is used, the possibility of constant delivery of the active ingredient over a prolonged period of time achieves a constant drug level, so that particularly good success can be achieved.

[0038] Another possibility is to use estrogens and/or androgens as the medicinally relevant active ingredient. Estrogens can be used, for example, for the permanent treatment of postmenopausal estrogen deficiency syndromes or also for the permanent treatment of male-to-female transsexuality. Androgens can be used for the life-long permanent treatment of female-to-male transsexuality.

[0039] In order to facilitate the constant delivery of the active ingredient, it is advantageous if the biodegradable polymers are so chosen that constant degradation is achieved over the entire resorption rate. There are suitable for this purpose the polymers already mentioned, such as polylactides and polyglycoids or polycaprolactans and oxalate-crosslinked oligocaprolactans.

[0040] The invention relates further to an implant according to the invention for use in pharmacological permanent treatment, and preferably to an implant according to the invention for use in the treatment of androgenetic hair loss, of postmenopausal estrogen deficiency syndromes, of male-to-female transsexuality and/or of female-to-male transsexuality.

[0041] In summary, the invention is also suitable for permanent treatment with any other active ingredient which can permanently be topically released locally in a histocompatible manner. The invention is therefore advantageous in situations which require frequently life-long permanent pharmacological treatment.

[0042] If, for example, the implant according to the invention is used with finasteride and/or dutasteride as the active ingredient, the enzyme 5--reductase is continuously blocked, so that damaging levels of dihydrotestosterone, which terminally differentiates the hair follicle, can no longer form. A daily intake of finasteride or dutasteride which is not consistently regular, as is the case with onerous daily oral or topical administration, would mean that there would always be an increase, in phases, in the local dihydrotestosterone (DHT) concentrations, with the negative effects on the terminally differentiating hair follicle. This would have the result that the apoptosis program of the hair follicle cells, and thus shriveling of the hair follicle and the development of alopecia, would be encouraged. Accordingly, the use of the implant according to the invention not only improves compliance but also leads to optimization of the efficiency of the therapy itself by ensuring constant drug levels of the relevant active ingredients.

[0043] Furthermore, a further problem of conventional therapy is solved, since the possibility of contact of the substances introduced in the implant with persons in the vicinity of the implant wearer is ruled out.

[0044] With the implant according to the invention, or the use thereof, continuous and safe administration of active ingredients is made possible, without unnecessarily increasing the outlay in terms of implantation, and better acceptance is achieved.