RU36219U1 - Device for fixing the amniotic membrane during conservation - Google Patents

Description

A device for fixing the amniotic membrane during co-preservation.

The utility model relates to medicine; it can be used for preservation of the donor amniotic membrane intended for transplantation.

Known devices for fixing the amniotic membrane, based on the use of nitrocellulose paper (Kim JC, Tseng SCG // Cornea.- 1995.- Vol. 14.-P. 473-484; Momose A., Xiao-Hong K., Junsuke A. // Ophthalmosurgery. -2001. No. 3. - S. 3-9; Kasparov A.A., Trufanov S.V. // Bulletin of Ophthalmology. -2001, No. 3, -P.45-47).

The disadvantage of this device is the need for dense

contact of artificial material, nitrocellulose paper with an amniotic membrane, which does not separate during transplantation and is a foreign body.

The closest in technical essence to the achieved result of the proposed utility model is a device in the form of a metal frame, with the help of which the amniotic shell is fixed (Zolotarev A.V., Milyudin E.S., Volova L.T. // Materials of III Euro-Asian conference on ophthalmosurgery. Yekaterinburg, 2003. - 4.2. -P.69-70).

The disadvantage of the metal frames used to fix the amniotic membrane during conservation is that during sterilization, the surface of the metal frame is oxidized. Oxides with

the surface of the frame damages the conserved amniotic membrane.

The technical result, the achievement of which is aimed at creating a utility model, is to improve the quality of the canned amniotic membrane by improving the quality of sterilization and eliminating the toxic effects of metal oxides on the conserved material.

The technical result is achieved in that the arbitrary shape frame is made of non-oxidizable material. As non-oxidizable material, it is possible to use glass, ceramics, plastic, wood, which during sterilization does not form chemically active or toxic compounds with conserved material.

A device for fixing the amniotic membrane, which was used as a frame of arbitrary shape, made, for example, of glass measuring 40x40 mm. The glass frame was sterilized by boiling with preliminary soaking in a washing solution of surface-active substances. In this case, neither destruction nor damage to the surface of the glass frame was noted. Fixation was performed efficiently. The amniotic membrane was maintained in a fixed position until the end of the silicone drying process, while the preserved material did not change its properties and color during the conservation process.

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such as glass, ceramics, plastic, wood, which do not form chemically active or toxic compounds with preserved material during sterilization and preservation.

A search by the applicants for scientific and patent sources of information and a prototype selected from the list of analogues made it possible to identify distinctive features in the claimed solution to the problem. Therefore, the claimed method meets the criterion of the utility model “novelty.

The utility model criterion “industrial applicability is confirmed by the fact that the proposed device for fixing the amniotic membrane made of materials that are not formed, they can be used in practical medicine without significant investment when sterilizing and preserving chemically active or toxic compounds with preserved biological tissue.

The proposed device for fixing the amniotic membrane can be successfully, without significant material investment, used in clinics of the Russian Federation and LNG. The successful use of the device for fixing the amniotic membrane during preservation allows us to recommend the proposed fixation method for widespread use.

Applicant Authors:

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E.G. Milyu din A.V. Zolotarev

Claims (5)

1. A device for fixing the amniotic membrane during preservation, made in the form of a frame of arbitrary shape, characterized in that the frame is made of non-oxidizable material that does not form chemically active or toxic compounds with preserved material during sterilization. 2. The device according to claim 1, characterized in that glass is used as the non-oxidizable material of which the frame is made. 3. The device according to claim 1, characterized in that as the non-oxidizable material of which the frame is made, ceramic is used. 4. The device according to claim 1, characterized in that plastic is used as the non-oxidizable material of which the frame is made. 5. The device according to claim 1, characterized in that the tree is used as the non-oxidizable material from which the frame is made.