RU172812U1 - TOOL FOR OBTAINING STANDARDIZED SCLERA TRANSPLANTS - Google Patents

Abstract

The utility model relates to medicine, namely to ophthalmology, and in particular to tools for obtaining standardized scleral transplants, and can be used to study the biomechanical properties of sclera, scleroplasty in case of traumatic eye defects and progressive myopia to strengthen sclera. The tool contains a handle (1) and three blades (2) sequentially connected to each other and placed at a distance of 4 mm from each other. Using the utility model allows the formation of identical scleral rags that are standardized in width. 1 ill.

Description

The utility model relates to medicine, namely to ophthalmology, and in particular to tools for obtaining standardized scleral transplants, which can be used to study their biomechanical properties, scleroplasty for traumatic eye defects and progressive myopia to strengthen sclera.

Known diamond knife, consisting of a cutting part and a handle [patent RU 20025, 2001]. This tool is taken as a prototype. The disadvantage of this tool is the inability to obtain the same standardized sclera flaps in width.

The objective of the utility model is to create a tool for obtaining standardized sclera flaps in width.

The technical result when using the utility model is to obtain the same standardized sclera flaps in width.

The specified technical result is achieved by the fact that in the tool for producing scleral flaps containing a handle and a blade as a cutting part, according to a utility model, the cutting part further comprises two blades, all blades being connected in series and spaced 4 mm apart.

The utility model is illustrated by a figure, which depicts a General view of the proposed tool containing the handle 1 and sequentially connected to each other and placed at a distance of 4 mm from each other three blades 2 located in the same plane. The length of the cutting part is 1.0-1.5 mm, depending on the objectives of studying the structure and biomechanics of the sclera in the norm and after treatment (for example, crosslinking of the sclera, cutting out dosed grafts, plastic scleral defects after injuries, etc.).

The tool is used as follows. After installing the tool on the sclera, the working cutting part is placed perpendicularly in the desired sector of the eyeball, pressed against the sclera, cutting through it, cuts through and cuts out two sclera of the same width of flap of a given configuration, the length of which is regulated depending on the objectives of the study. Experimental modeling of scleral transplants provides greater objectivity and reliability of the obtained experimental results.

Usage example. An experimental study of the effects of crosslinking with riboflavin / ultraviolet A on the biomechanical strength of scleral tissue was performed on cadaver pig eyes. It is important to cut out two identical sclera flaps, including after the procedure has affected one of them. For this, enucleated eyeballs were freed from adjacent soft tissues. Using the proposed tool for 12 hours at once, 2 parallel through cuts of the sclera were performed in the sagittal direction, starting 2 mm from the limb, 12 mm long. The flaps were cut in the horizontal direction using an ophthalmic blade fixed in a blade holder. Then, one of the flaps on the eyeball was subjected to a crosslinking procedure with riboflavin / ultraviolet A, the second was left intact (used as a control). The biomechanical properties of the obtained scleral tissue samples were evaluated by stretching them in the longitudinal direction on a tearing machine. Using the proposed tool provided fast simultaneous cutting of paired scleral flaps as close as possible to each other in size, which is important for the accuracy of the data obtained as a result of the experiment.

Thus, the proposed tool allows you to get two standard sclera flap for the study of biomechanics, transplantation. The tool is easy to use, provides a controlled dosing of scleral graft dosing, reduces the time of the procedure. Using the tool seems appropriate for obtaining identical scleral flaps for studying its biomechanics or transplantation goals, eliminates the need for marking.

Claims (1)

A tool for producing scleral transplants, comprising a handle and a blade as a cutting part, characterized in that the cutting part further comprises two blades, all blades being connected in series and spaced 4 mm apart.

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