RU186177U1 - Collet injector for the introduction of elastic intraocular implants - Google Patents

Abstract

The utility model relates to the field of medicine, to ophthalmology, namely to microsurgical instruments used in ophthalmosurgery for introducing implants into the eye during ophthalmological operations. A device for implanting resiliently resilient artificial eye implants comprises a body with a shaft located therein that carries a working part for receiving an implant in it, which is configured to reciprocate within the body; the jaws connected to the housing, while the possibility of reciprocating movement of the rod inside the housing is realized through the action of the jaws on the rod, in which the compression of the jaws leads to the extension of the working part of the rod from the housing, expansion - the return movement of the working part into the housing, and the working part is made in the form spring split sleeve, providing a fixed position in it of the implant when placing the sleeve inside the housing and the release of the implant from the sleeve when it is pulled out of the housing.

Description

Technical field

The utility model relates to the field of medicine, to ophthalmology, namely, to the microsurgical instruments used in ophthalmosurgery for introducing implants into the eye during ophthalmic surgery.

State of the art

Known collet tweezers (for example, the catalog of the company "Medin-Ural", model "M1332 B" http://www.medin-ural.ru/?surg-1&part=11). which can be used for the introduction of elastic intraocular implants, while the implant is captured with tweezers and inserted into the eye through an incision. Collet tweezers consists of a handle, a cylindrical body and a working part moving inside it, made in the form of two tips with the ability to move relative to each other so as to ensure the capture of an object; the movement of the tips relative to each other is carried out using their institution in a cylindrical body when you click on the branches or their output from the cylindrical body when the pressure is weakened. The disadvantage of this tool, which makes it difficult to use for the introduction of elastic intraocular implants, is that such tweezers do not allow to reduce the transverse dimensions of the elastic implant by 2 or more times compared to the initial dimensions (the width of the implant determines the size of the incision required for implantation), for example, by transverse compression (or longitudinal stretching) or twisting, making it thus impossible to introduce implants through small incisions (for surgery of the anterior segment of the eye - 2 mm and less, for surgery of the posterior segment of the eye - 25G and 27G).

The injector for the intraocular insertion of a rigid implant — the intracapsular ring (for example, the Medin-Ural catalog, model “M919T” http://www.medin-ural.ru/?surg=1&part=7) is known in the art. which consists of a handle, a cylindrical body and a moving inside the last working part, equipped with a hook to capture the implant. This tool allows you to grab a hard implant (intracapsular ring) and bring it inside the cylindrical body of small radius in order to ensure the introduction of the implant through a small incision; after the implant is captured and inserted into the cylindrical body, the body is inserted into the eye through a small size, and then the implant is pushed out of the body by longitudinal movement of the working part. The disadvantage of this tool, which makes it impossible to use it for the introduction of elastic intraocular implants, is the high probability of damage to the implants when they are inserted into the body due to the low strength of the latter, as well as the impossibility of introducing them into the eye by pushing out the working part of the device due to their insufficient rigidity.

The closest analogue to the claimed solution is a device for implantation of elastic artificial eye implants (utility model RU 10554 U1), comprising a housing with a pusher and a working part made in the form of a tube, the surface part of which contains two slots made symmetrically along the longitudinal axis and separating the tube into two symmetrical halves, made with the possibility of angular movement relative to the axis, while the implant is located between two symmetric halves in a plane perpendicular to the the sharpness in which the slots are formed, and the inner diameter of the working part of the tube is the same along the entire length. This device allows you to place the implant in the working part of the device in a folded form, ensuring the introduction of the implant into the eye through a small incision. The disadvantage of this device is that the most vulnerable implants (for example, made of elastomers) can be damaged by a pusher pushing the implant through the working part.

Utility Model Disclosure

The technical result achieved by the utility model consists in eliminating damage to the implant when it is inserted into the eye and, thus, improving the quality of implantation. The inventive device can be made of materials for repeated use with the possibility of sterilization after use, or in the form of a disposable device. In this case, the installation (filling) of the implant in the working cavity of the device is carried out without any difficulty, and can be implemented both in a hospital (for the reusable device) and in the "factory" conditions in the embodiment for a single use. An advantage of the claimed device is to improve the quality of implantation by reducing the width of the incision required for implantation, the speed of surgical manipulation of implantation, and eliminating damage to the implant during implantation. An additional advantage is to increase the accuracy of positioning of the implant inside the patient’s eye due to the presence of a long thin working part, allowing you to bring the implant directly to the location where it should be located.

The technical result is achieved by the fact that the device for implantation of elastic elastic artificial eye implants comprises a body with a shaft located therein, carrying a working part, designed to accommodate an implant, which is made with the possibility of reciprocating movement inside the body; jaws connected to the body; the possibility of reciprocating movement of the rod inside the housing is realized through the action of the jaws on the rod, in which the compression of the jaws leads to the extension of the working part of the rod from the housing, expansion - the return movement of the working part into the housing, and the working part is made in the form of a spring split sleeve, providing a fixed position of the implant in it when the sleeve is placed inside the case and the implant is released from the sleeve when it is extended from the case.

The impact of the jaws on the rod is realized from the side opposite to its working part. The split sleeve is a tube having longitudinal slots from the distal end in the implant placement region, dividing the tube into several symmetrical parts, each of which is made spring-loaded, ensuring its angular movement relative to the axis of the tube. The cuts of the sleeve are made along the longitudinal axis with the separation of the sleeve into two or three equal parts. The housing in the area of the split sleeve is cylindrical and has an inner diameter corresponding to the outer diameter of the sleeve, allowing fixation of the stretched elastic-elastic implant in the working part of the rod between the parts of the sleeve. The sleeve has an inner diameter corresponding to the width of the implant in the stretched state, while the slot of the sleeve has a length not less than the length of the stretched implant. The working part of the device is removable with mechanical or magnetic fixation to the rod inside the housing.

Thus, the technical result is achieved by the fact that the claimed device allows you to place the implant inside its working part in a stretched or folded form, which reduces the external transverse dimensions (diameter) of the injector, as well as easy removal of the implant from the device when opening its working part directly in the area implantation without additional pushing the implant through the working part (compared with the prototype).

Brief Description of the Drawings

The utility model is illustrated by drawings (FIGS. 1-7), where in FIG. 1 is a side view of the device, in FIG. 2 is a top view of the device, in FIG. 3-longitudinal section of the device (along the line AA) in the open state, in FIG. 4 is a longitudinal section of the device (along line AA) in the closed state; FIG. 5 shows the working part of the device in the open state, FIG. 6 shows the working part of the device in the closed state; FIG. 7 shows a variant of the device with a removable working part and magnetic fixation (the replaceable working part is not fully worn).

The positions in the figures denote: 1 - body, 2 - working part, 3 - jaws, 4 - rod (or tube), 5 - slot, 6 - symmetrical parts of the rod in the area of the implant (working part), 7 - implant, 8 - magnet magnetic retainer, 9 - the counterpart of the magnetic retainer, 10 - locking cap.

Utility Model Implementation

Below is a more detailed description of the claimed device and method of its use.

A device for implantation of elastic elastic artificial eye implants is a body 1 in the form of a voluminous extended body with a cylindrical part, in which there is a rod 4 having a working part 2 from the side of the proximal end, designed to accommodate an implant 7 stretched or rolled into a tube; and jaws movably fixed in the device case. The rod 4 is made with the possibility of reciprocating movement in the housing 1 by the action of the jaws on the rod from the side of its proximal end, in which the compression of the jaws leads to the extension of the working part of the device from the housing, expansion - the return movement of the working part. To ensure this function in one embodiment of the inventive device, the rod from the side of its proximal end may be provided with elastic metal "antennae" that are connected to the jaws, and the device body has slots for the "antennae", while compressing the jaws leads to compression of the "antennae" »With the simultaneous movement of the rod with the working part outside the housing, and the expansion - to the reverse movement of the rod. The working part is made in the form of a spring-loaded split sleeve (tube) according to the type of collet clamp, while in the initial position the working part of the rod with the implant is located in the housing. The cuts of the sleeve are made along the longitudinal axis with the separation of the sleeve preferably into two equal parts. The working part of the device can be made removable with mechanical or magnetic fixation to the rod inside the housing.

Loading the implant into the device is as follows. The elastic implant 7 is stretched or twisted and placed in the working part of the device between the symmetrical elements (halves) of the tube 4, clamped and then inserted into the body of the device. The body holds the halves of the tube together, preventing them from opening. In this case, the tube halves work on the principle of a “compression spring”, and the installation of the tube with the implant in the body is realized by reducing the compression force of the jaws, which allows the working part of the tube 4 to move inside the cylindrical part of the body 1. The inner diameter of the body 1 is approximately equal to the outer diameter of the tube 4 in its working part in the closed position of symmetrical elements, provides a closed position of the working part of the device. The housing holds the symmetrical parts of the tube together, preventing them from opening. A surgical incision is made in the tissues of the eye, and the working part of the device is inserted into the eye through the incision. By pressing on the jaws, the working part is pushed forward from the body, the symmetrical parts of the tube are opened, the implant goes into the eye cavity and restores its original shape. Thus, the exclusion of pushing the implant through the working part avoids damage to the implant. The option with a replaceable working part with a factory loading of implants is used in the same way: a replaceable working part with a preloaded implant is placed inside the cylindrical body until the mechanical or magnetic fixation is activated; the retainer is removed from the removable working part, preventing its premature opening before the working part is inserted into the cylindrical body. After this, a surgical incision of the eye tissue is performed and an implant is inserted into the eye, following the procedure described above. After removing the device from the eye, the replaceable working part is removed and a new replaceable working part with a preloaded elastic implant is loaded.

An example of the manufacture of the device.

The device was made of stainless steel, had a length of 12 cm and a width of 2 cm.

Example of use 1. In a preclinical experiment on an experimental animal (Chinchilla rabbit), the manufactured device was used to introduce elastic intraocular implants. Previously, the implant was charged into the device: by pressing on the jaws the working part was advanced from the cylindrical body; a flat implant of elastomer with initial dimensions of 5 mm by 2 mm and a thickness of 0.4 mm was placed in the open working part with tweezers. After stretching and laying in the working part of the device, the width of the implant was reduced to 0.6 mm. Gradually, the pressure on the jaws was weakened so that the working part gradually entered the cylindrical part of the body and closed; in the process, the implant was adjusted to ensure its stretched position inside the working part. After the implant was loaded into the device, a 21G incision was made in the flat part of the ciliary body into which the cylindrical body of the device was inserted; by gradually pressing the jaws, the working part was withdrawn from the cylindrical part of the body and opened, releasing the implant. After the final removal of the implant from the working part, it completely restored its shape and size. The device was removed from the eye and was ready for reuse.

Example of use 2. In a preclinical experiment on an experimental animal (Chinchilla rabbit), the device was used to introduce elastic intraocular implants. A variant of the device with a replaceable working part was used, into which a flat implant made of an elastomer 0.2 mm thick with a size of 4 mm by 1.5 mm was pre-loaded factory-made under sterile conditions (the "preloaded" option). In the filled state, the implant width was 0.5 mm. The replaceable working part with the inserted implant was removed from the sterile packaging. With a slight pressure on the branches, the magnetic base of the working part was slightly brought forward; with tweezers, a removable working part with a pre-loaded implant was captured and inserted into the cylindrical body with the non-working end as far as it would go (click of the magnetic lock). After that, the pressure on the branches was slightly weakened, so that the working part almost completely entered the cylindrical body. A cap was removed from the working part, which kept it closed until it was inserted into the cylindrical part of the body, after which the pressure on the branches was finally weakened and the working part completely entered the cylindrical body. A 23G incision was made in the flat part of the ciliary body into which the cylindrical body of the device was inserted; by gradually pressing the jaws, the working part was withdrawn from the cylindrical part of the body and opened, releasing the implant. After the final removal of the implant from the working part, it completely restored its shape and dimensions: it again took a length of 4 mm, a width of 1.5 mm and a thickness of 0.2 mm. The device has been taken out of the eye. By pressing the jaws, the working part was removed from the cylindrical body, after which it was grabbed and removed from the cylindrical body with tweezers, and the device was ready for reuse.

Claims (7)

1. A device for implantation of elastic elastic artificial eye implants, comprising a body with a shaft located therein, carrying a working part, designed to accommodate an implant, which is made with the possibility of reciprocating movement inside the body, characterized in that it contains connected with the jaw body, while the possibility of reciprocating movement of the rod inside the body is realized through the action of the jaws on the rod, in which the compression of the jaws leads to moving the working part of the rod from the housing, expansion - the return movement of the working part into the housing, and the working part is made in the form of a spring split sleeve that provides a fixed position of the implant in it when the sleeve is placed inside the housing and the implant is released from the sleeve when it is extended from the housing. 2. The device according to claim 1, characterized in that the effect of the jaws on the rod is realized from the side opposite to its working part. 3. The device according to claim 1, characterized in that the split sleeve is a tube having longitudinal slots from the distal end in the implant placement region, dividing the tube into several symmetrical parts, each of which is made spring-loaded, providing its angular movement relative to the axis tube. 4. The device according to p. 1, characterized in that the cuts of the sleeve are made along the longitudinal axis with the separation of the sleeve into two or three equal parts. 5. The device according to p. 1, characterized in that the housing in the area of the split sleeve is made cylindrical and has an inner diameter corresponding to the outer diameter of the sleeve, allowing fixation of the stretched elastic-elastic implant in the working part of the rod between the parts of the sleeve. 6. The device according to claim 1, characterized in that the sleeve has an inner diameter corresponding to the width of the implant in a stretched state, while the slot of the sleeve has a length not less than the length of the stretched implant. 7. The device according to claim 1, characterized in that the working part of the device is removable with mechanical or magnetic fixation to the rod inside the housing.

Images