RO107542B1 - An intra uterus, anticonceptional device - Google Patents

Abstract

The present invention refers to an intrauterine contraceptive device comprising an active body (2) of a metallic substance of contraceptive activity, carrier means (1) for supporting the active body (2) in an intrauterine environment. The essence of this invention is that the active body (2) is made of at least two metals forming a plurality of galvanic cells in the intrauterine environment.

Description

The present invention relates to an intrauterine contraceptive device, comprising an active body, made of a metal substance with contraceptive action, and a support medium, made of a biologically inert substance, to support the active body in the intrauterine environment, in which case the support medium is made, generally, of a plastic material connected with an indicator wire.

There are known copper-based contraceptive devices, which include support means, generally made of T-shaped plastic (for example, polyethylene), an active body made in the form of a duct, caliper in contact with the support means and an indicator wire, fixed to the support medium. Most of the time, the active body is a clamp in the coil farm, and the indicator wire is a iii made of plastic material (for example, polyamide). The contraceptive efficacy of intrauterine devices comprising a copper conductor is much higher than that of devices prepared without any active substance.

I also know intrauterine contraceptive devices, which consist in the deactivation of sperm in the uterus, with the help of a weak electrical current. The contraceptive device consists of metal electrodes, located in the uterus, and a battery connected to the electrodes.

A disadvantage of the known trauterine devices is that the copper material in the active body dissolves slowly and, consequently, the active body is fragmented during its presence in the human body. The fragmented copper conductor can disturb the tissues and has a short life span, in order to avoid this disadvantage, the preparation of the active body from a copper dc conductor with a core of a metal more noble than copper has been tackled.

The contraceptive device solves the proposed problem, in that its original form does not change, which allows the uniform release of the ions with contraceptive effect.

The present invention solves the proposed problem with high efficiency, in that it retains its original form throughout the application and ensures uniform release of the ions with contraceptive effect, due to the fact that the active body of the intrauterine device must be made of a suitable metal compound, containing at least two metals, forming with each other a plurality of local galvanic cells within the intrauterine environment, the plurality of galvanic cells consists advantageously of a gold-copper alloy, or silver-zinc copper, and others may also be applied alloys and it is desirable, in particular, for this active body to be made of copper and at least one metal with a higher electropositivity, when copper forms the anode of the galvanic cell, and the other metal, for example, gold or silver, constitutes the cathode. to it, other metal compositions are: nickel and gold, copper, silver and zinc, silver and cadmium, silver and palladium, the basic feature of the intrauterine device being that it dissolves a higher concentration of ions from the anode, generally copper ions, than. In the case of intrauterine devices of known design, the active body of the intrauterine contraceptive device may preferably be made in the form of a coil consisting of a mixture of several metals (for example, copper is supplemented with zinc and silver), thus more metals they can be present in ionic form and in controlled quantities, the potential differences between the electrodes of the galvanic cell are gradually increased, and the effectiveness of the contraceptive action, based on the deactivation of the spermatozoa, is increased, another preferred structure of the active body is that in which its form is tubular. In which case the arc tube is clamped to one or more clamps, in the case of several elements the tube has. they can be divided into ring-shaped elements.

The invention has the following advantages;

- simple construction: easy handling and installation possibilities;

- increased efficiency.

Many examples of embodiments of the invention are given below. In connection with FIG. 1 ... 3, which represents:

- rigj, schematic view of the contraceptive device, having an active body under the hunger of a coil,

- fig.2. schematic view of the intrauterine contraceptive device, including an active body in tubular form, executed from an alloy sheet;

FIG. 3 is a schematic view of an intrauterine contraceptive device with an active body in the form of two tubes and three millet-shaped elements.

The intrauterine contraceptive device, according to the invention, is composed of a support means 1, made of plastic material, a body 2, with ionic action desired, for example, for deactivation of the ccrcromatoses in an intra-media environment and a signal laughter 3 , connected to the miiloc-snporf. The support medium 1 eon is, generally speaking, an adequate plctsliv maienal, which, as a rule, has no physiological action in the intrauterine environment. The fact that the support medium 1 is biologically inert, however, is not a characteristic result of the antivOliceptional duty of the active agent 2. and if necessary, the support medium 1 can be supplemented with other substances with appropriate action. The support medium 1 is generally T-shaped, as the two biathlon elements 12 and 13 can be arranged in a woman's uterus. The support medium 1 is intended, mainly, to support the active body 2.

The support means 1 generally consists of rods 10 and 11, fastened to one another by the loop 14, the loop 5 being caught and the indicator wire 3. The rods 10 and 11 are continued through the arms 12 and 13 (fig. it).

The active body 2 of the intrauterine device is generally produced in the form of a coil 4, wound around the rods 10 10 and 11 of the support 2. The coil 4 may also be a double helix, prepared from a conductor pc based on known mechanical technologies. Single coil 4 or double propeller, for example, a coil wound 15 on another coil prepared from a conductor, provides an enlarged active surface.

Another possibility of configuring the active body 2 is shown in FIG. 2, in which the active body 2 is made of a tube 5, which surrounds the two rods 10 and 11, up from the loop 14 to the beginning of the arms 12 and 13. The tube 5 can be made by forming a 25 dc tube element from a metal sheet, closed by welding the metal sheet along the contact line of the sheet edges.

still another possibility of forming the active body 2 can be seen in FIG. 3, 30 in which it is divided into several parts. The rings w and 11 are partially covered by tubular elements 7 and a ring t> disposed between them. Rings 8 are placed at the free ends of the respective 35 arms 12 and 13. This solution is particularly advantageous, if the active body consists of sheet and ring-shaped elements, with a non-homogenized drawer pc surface, including at least two 40 metals forming small or microscopic galvanic cells, as required by the invention. The compound of two or more metals is also a requirement for coil 4 and tube 5, made in volume 45 completely or at least on the outer surface of at least two metals.

Generally, the active body 2 includes copper and those at least one other metal with a higher electropositivity, for example, gold or silver. These metals can form and / or a mixture or an alloy. A third, or other metals, can also be applied, in this way a series of galvanic piles of different voltages can be made. Other preferred selections for the preparation of the active body 2 are indicated in the examples given below, their possibility of making is not limited to this example.

In the intrauterine environment, the proposed contraceptive device forms a plurality of galvanic cells with electrodes in the active body 2. The electrolyte is the biological fluid in the uterus. If the active body is made of a given metal, for example, copper and a much more noble metal, for example gold, the rules of electrochemical corrosion say that the anodes are inclusions 20 formed by the first metal, for example copper, and the more noble metal cathodes. , for example gold. The dissociation process results in the taking of the raw metal from the active body 2, and the cathodes remain practically unchanged 25 in their places, their fragmentation cannot be observed. In galvanic cells, the concentration of the ions of the first metal, for example of the copper ions, is higher than in the environment of known intrauterine devices.

Because a mixture or alloy containing at least two metals is applied, the ion release process, ensuring the contraceptive action of the proposed device - 35, becomes the active islands of the active body 2 and the problems related to the fragmentation of the active body 2, resulting in -a rough surface, was- 40 stain, its known on known devices, could be avoided.

The composition of the mixture or alloy of the active body 2 can be selected from a wide range, including several orders of size 45.

The proposed intrauterine contraceptive devices act in the mode

next: Small or microscopic galvanic cells, created by the component metals of the active body 2, are capable not only of delivering the necessary active ions, in the intrauterine environment, but also to generate an electric field. Therefore, the contraceptive action, initially supposed to be based on chemical effects, is intensely enhanced by the electric field. It is known that sperm have an electric charge, a result of their migration to cathodes and anodes of the galvanic cell, corresponding to the electrical charges. Therefore, the process of deactivation of the sperm has a higher efficiency than in the known devices.

Another advantage of the proposed intrauterine contraceptive devices is that during the excitation, which accompanies the sexual act, when the fear of the human body exceeds the normal level, the intensity of ion release in the galvanic cells increases, which leads to a more intense action of the device intrauterine contraceptive, when it is most needed.

The following are some examples of embodiments of the device.

Example 1. The active body 2 of the intrauterine device proposed by the invention is a coil 4 (fig. 1), consisting of 85 parts copper and 15 parts gold. The coil 4 is made of a conductor and encloses the support 1, made of polyethylene. The support 1 is connected with a polyamide wire 3.

Example 2. The active body 2 of the intrauterine device, proposed by the invention, is a coil 4 (fig. 1), consisting of an alloy including 30 parts zinc and 70 parts copper. The coil 4 is made of a conductor and surrounds the support 1, made of polyethylene. A polyamide wire 3 is connected to the support.

Example 3. The active body 2 of the intrauterine device, proposed by the invention, is a coil 4 (fig. 1), consisting of an alloy including 40 palladium and 70 silver parts. The coil 4 is made from a conductor and surrounds the support 1, made of polyethylene. I of support 1 is connected a polyamide thread 3.

Example 4. The active body 2 of the intrauterine device, proposed by the invention, is a coil 4 (fig. 1), consisting of an alloy that includes 18 nickel parts and 82 gold parts. Coil 4 is made of a conductor surrounding the support 1, made of polyethylene 1 of the support 1 is connected by a dc-polyamide

3.

Example 5. The active body is a tube 5 (fig. 2), made of an alloy, consisting of 40 parts copper, 25 parts silver and 35 parts zinc. The tube 5 is made by welding from a metal sheet. The support 1 is made of plastic material and is connected to a polyamide 3 wire.

Example 6. The active body 1 is made of a copper conductor and a copper dc sheet having a layer of gold mixed with copper on the surface. The conductors are prepared in the form of rings ό and 8, made from the closed sheet to constitute tributary elements 7 (fig. 3). The support 1 is made of plastic and is connected to a wire 3, made of flexible plastic.

Example 7. The active body 2 is made of a conductor and a sheet made of an alloy, consisting of 90 silver parts and 10 cadmium parts. The conductors are in the form of rings 6 and 8, made of closed sheet, to form the tube elements 7 (fig.3). The support 1 is made of plastic and is connected to a wire 3 of flexible plastic.

The intrauterine contraceptive devices of the invention have been investigated and almost physiological conditions. According to the observations, the effective life of the devices is more than 20 dc a and the contraceptive effectiveness is at least 99%. The device can be applied in the same way as in the case of known devices.

Claims (5)

claims 1. Intrauterine contraceptive device, consisting of an active body, composed of a metal substance with contraceptive action, and a support means for its support, characterized in that the active body (2) is made of at least two metals that form a multitude of galvanic cells in intrauterine environment. 2 Intrauterine contraceptive device. according to claim 1, characterized in that the active body (2) is made up, at least partially, of an alloy or mixture consisting of at least two metals, including at least one metal selected from the group comprising zinc, t upi u, nickel. , silver and cadmium and at least one metal more noble than the one selected, from the group comprising silver, gold and palladium. 3. Contraceptive device according to claims 1 and 2, characterized in that the active body (2) is made, at least partially, in the form of a tubular element (5 and 7) arranged along rods (10, 11) of of the support means (1), the active body consisting of at least two tubular elements (7) surrounding the support means (1). 4. Contraceptive device according to claim 3, characterized in that the active body (2) consists of two tubular elements (7) and 3 rings (6 and 8), of which a ring is disposed on the rods (10, 11) and two are placed on some arms (12, 13) of the support means (1). 5. Intrauterine contraceptive device, provided with a support means for supporting the active body in an intrauterine environment, characterized in that the active body (2) is made of a metal element, selected from a group comprising zinc, copper, cadmium, nickel or silver and at least one metal with a higher electropositivity than that of the metal selected from the said group, said metals forming a 5 td / or an alloy mixture, wherein said mixture and / or alloy of the mentioned metals constitutes a plurality of galvanic cells in intrauterine environment, said metal element comprises at least one metal selected from the group consisting of silver, palladium and gold, the other metal in the mentioned group is copper and another metal less electropositive than copper, this being mainly zinc.