CS232807B1 - Inter-uterus anticonception little body and method of its making - Google Patents

Abstract

Intrauterine contraceptive devices made of synthetic polymer combined with metal include 1 to 30% wt. of at least one metal ingredient in a powdered state selected from copper, silver, gold and zinc. The powdered metal is distributed throughout the polymer material homogenously, and has a particle size of from 2 to 50 mu m.

Description

The invention relates to an intrauterine contraceptive device made of a synthetic polymer in combination with a metal, wherein the synthetic polymer comprises a metal additive.

Currently, IUDs around the world are using approximately. 50 million women, in Czechoslovakia there are about 400,000 carriers of intrauterine contraceptive devices. Planned parenthood becomes more important in the life of a modern man. Planned parenthood refers to both the quantitative and the qualitative component, because it is about the · born offspring. was physically and mentally healthy, as well as helping individuals with reduced fertility or infertility to get the necessary fertility. Contraception is the most convenient way to family planning. Contraception mean 'of such means which allow the mutual contact of two rosexuálních fertile heterozygous individuals without ^one another new conception of the individual, and such methods are reversible. Neither abortion, a method of repressive nor sterilization, nor sexual abstinence, is included. Contraception is subject to great demands. It is required to be reliable, safe and harmless, while being aesthetically acceptable and relatively inexpensive. There is still no means in the world to fulfill all these. conditions. In the early sixties, the first generation of intrauterine contraceptive bodies made of metal-free synthetic polymers were created. This generation was still characterized by a fairly acceptable number of failures and side effects, mainly including spontaneous expulsion of the uterine uterine contraceptive outward and bleeding and / or pain for which the uterine contraceptive body had to be extracted from the uterus.

These disadvantages and experience have led to the creation of an intrauterine contraceptive. second generation bodies that already adhere to the required accordion effect and the principle of finding the uterine fund. Essentially, the shape and size of the intrauterine contraceptive body is as much as possible. optimally approximates the size and shape of the uterine cavity into which the intrauterine contraceptive device is to be introduced, and of such material and shape that it has sufficient flexibility to accommodate changes in the shape of the uterine cavity due to menstrual cycle and uterine contractions. The condition is that they must have sufficient. plastic shape memory to keep when finished. These intrauterine contraceptive effects have returned. to its original shape and its original position, where the uterine fundus should occupy its largest part. Even this second-generation intrauterine contraceptive device, despite improved results, was not 100% reliable and was not completely free of side effects - expulsion, bleeding and pain. This leads to the development of intrauterine. a third generation contraceptive body, whereby the addition of the active ingredient creates a so-called m-modified intrauterine contraceptive device. As an active substance it is most often. used metal, most often copper, in the form of a wire or a tube threaded or wrapped around a portion of an IUD or in its surface layer. The use of metal in the form of a wire or tube has its disadvantages of corrosion of the metal in the metal. .the intrauterine environment and subsequent wire breakage; or. tube, which increases. risk of injury. Also the labor intensity of intrauterine production is not negligible. Contraceptive bodies. Synthetic steroids which are released from the intrauterine contraceptive body as a reservoir are also used. into the intrauterine environment. IUDs with a synthetic steroid hormone reservoir have a limited shelf-life for dispensing as the reservoir becomes depleted in one to two years, and the IUD must be 'removed' and replaced with a new one. A further disadvantage of intrauterine contraceptive devices is that for their detection in the intrauterine cavity requires the addition of a contrast medium, for example barium sulfate, to the body of the body up to a level of 25. weight percent, which reduces the possibility of increasing the metal content of the body mass.

The above drawbacks are overcome with an intrauterine contraceptive device made of synthetic polymers in combination with a metal according to the invention, characterized in that the body of the device comprises an admixture of at least one metal, in the powdered state from 20 to 30% by weight selected. Ib groups 4., 5. a. 6th period and from lib group 4 period. a periodic system of elements, wherein the metal powder is. distributed in the whole mass of the body. preferably homogeneously, and its grain size is from 2 to 50'μτη. The mass of the body contains copper in an amount of up to 25% by weight with an admixture of silver in an amount of up to · 5% by weight

The body of the body contains zinc. v. up to 25% by weight of silver admixture up to. 5% by weight.

Way . producing the intrauterine contraceptive device according to the invention. The invention consists in first of all being synthetic. the polymer and the powder metal additive are homogenized in a mixer and then remelted into a homogenizer. and the extruded cord is granulated, after which the granulated synthetic polymer-containing polymer is transferred to a thermoplastic state in the melt chamber of the injection molding machine and sprayed into the extruder. molds to be removed as. finished intrauterine contraceptive device. '

The advantage of an intrauterine contraceptive body made of synthetic polymer with. The content of the metal according to the invention consists in eliminating undesirable effects on the organism at almost 100% efficiency, if the synthetic polymer used is directly filled with powdered metal up to 30% by weight, which is released in a controlled amount due to the complex function of the uterus and its environment .

This ensures the long-term efficacy of the intrauterine contraceptive device without the risk of injury, since the metal is distributed throughout the body. It is preferable to replace the contrast medium, for example barium sulfate, with a metal, which allows the detection of the body in the uterine cavity by other methods than X-ray examination. A higher metal content, preferably up to 30% by weight, provides for a higher efficiency of the intrauterine contraceptive device, while maintaining its elasticity, which is important for its complex function. Another advantage is the reduction of labor in manufacturing. Nor is it negligible that if as many women as possible are found for suitable and well-managed contraception, the number of pregnancy interruptions will be reduced and, in addition to reducing certain damages to women's health after pregnancy interruption, a significant portion of the bed capacity will be saved. When, of the 1,500 women with interceptions, one third of unwanted conceptions are prevented by appropriate contraception, this means saving 1009 to 1,500 beds. This capacity can then be devoted to taking care of high-risk pregnancy or to deepening care for gynecologically ill women.

The following are examples of embodiments of the invention.

The intrauterine contraceptive body of synthetic polymers in combination with metal is composed of a synthetic polymer which contains a powdered metal admixture of from 20 to 30 ° C by weight, and the powdered metal is either copper, zinc, silver, or gold, or a mixture thereof, preferably a mixture of copper and silver, zinc and silver or copper, silver and zinc, the maximum weight of the metal being given by the amount of metal deposited by restrained physiological rest. the value of metal excreted in the urine, which is 0.75 ± 0.25 μΐηο1 / 24 hours for copper, 2.76 ± ± 0.38 μιηο1 / 24 hours for zinc, 5.88 ± 0.56 for silver mole / 24 hours.

An example of the most suitable combination of metal mixtures according to the invention

Copper in% Silver in · ·% Zinc in ·% % 20 May 2 8 30 21 2 7 30 A 22 2 6 30 23 2 5 30 24 2 4 30 25 2 3 30 26 2 2 30 27 Mar: 2 , _t 1 30 25 5 0 30 26 4 0 30 27 Mar: 3 0 30 28 2 0 30 29 1 0 3Q 30 0 0 30

The essence of the contraceptive effect of the intrauterine contraceptive device according to the invention is complex and consists primarily in stimulating the body's natural defenses, in which the intrauterine contraceptive device introduced into the uterus leads to a vast amount of macrophages that invade the foreign body located in the intrauterine cavity. This stimulates the body's immune response, when the macrophages traveled at the same time · attack the intrauterine contraceptive body · located in the intrauterine cavity and the sperm traveling into the intrauterine cavity. Sperms are immune to foreign women and are macrophages fugesylated in the uterine cavity. As a result, the sperm count is greatly reduced and, as a result, conception is not possible. Normally fertile (normospermi-e) seed becomes less fertile (olgospermia) to · infertile (azoospermia) seed, which is important for · understanding the contraceptive effect since it is a true contraceptive effect, not an antinidative effect or abortive. The addition of metal increases the contraceptive efficacy of the intrauterine contraceptive. bodies by traveling a larger number of macrophages, so. It is possible to use a smaller intrauterine contraceptive device to reduce the adverse effects. . bleeding effects and / or pain. Scanning electron microscopy studies have shown the phagocytic effect of macrophages. Adding powder. the metal or more metals into the polymeric material of the body then results in the metal being uniformly distributed throughout its volume and being uniformly released throughout the intrauterine cavity · the contraceptive body is evenly released throughout the intrauterine cavity, as opposed to wrapped wire or metal sleeve where release is not ensured; over the entire surface of the body.

When - the long-term storage of the intrauterine contraceptive device - in the intrauterine cavity, where the body of the device contains an admixture of metal, the following partial processes take place:

a) metal penetrates to the surface - polymer material,

b) the metal diffuses from the inner mass of the body to its surface,

c) the rate of metal release from the polymeric material is influenced by the swelling of the body, the increase in the porosity of the body and thus the rate of diffusion processes of the given metal to and from the surface to the environment,

(d) the silver present in the mass - the bacterium is bactericidal.

Process for producing an intrauterine contraceptive device from - synthetic polymers in combination with a metal -. This can be accomplished by first homogenizing the weighted amount of the base synthetic polymer and the desired powder metal additive in a suitable blender. equipment and then remelted on a screw extruder with high homogenisation efficiency,. and the extruded string of the polymer is granulated by means of a - chopper - into granules,. After this, the granulated metal-containing synthetic polymer thus treated is transferred to the thermoplastic state in the injection molding chamber, and is then injected into a mold from which it is removed as a ready-to-use intrauterine contraceptive device. The advantages of this process lie in the possibility of accurately feeding the powdered metals into the powdered synthetic polymer, preferably the ethyl vinyl acetate copolymer, and homogenizing it on a twin-screw extruder.

The intrauterine contraceptive device according to the invention can also be used in veterinary practice.

Claims (4)

SUBJECT An intra-conceptual contraceptive element made of synthetic polymers in combination with a metal, in a proportion of 12.5% by weight of a highly dispersed copper powder and 12.5% by weight of a highly dispersed silver powder, characterized in that the composition comprises at least one - a powdered metal of from 20 to 30% by weight selected from 1b of groups 4, 5 and 6 - periods, and from group II of the period 4, wherein the powder - metal is dispersed throughout the mass of the body, preferably homogeneously, and its grain size is 2 to 50 μΐη. 2. An intrauterine contraceptive device according to claim 1, characterized in that the body material contains copper in an amount of up to 25% by weight of silver admixtures in an amount of up to 5% by weight. VYNALEZU 3. An intrauterine contraceptive device according to claim 1, characterized in that the body of the device comprises zinc in an amount of up to 25% by weight with an addition of silver in an amount of up to 5% by weight. 4. A process for the production of an intrauterine contraceptive device, characterized in that the synthetic polymer and the powdered metal additive are first homogenized in a mixing device and then remelted on a homogenizing screw extruder and the extruded string is granulated, then the granulated synthetic polymer is The metal content is transferred to the thermoplastic state in the melting chamber of the injection molding machine and injected into a mold from which it is removed as a ready-to-use intrauterine contraceptive device.