RU89816U1 - DEVICE FOR REMOVING A FOREIGN BODY FROM INNER-EYE SPACE - Google Patents

Abstract

1. A device for extracting a foreign body from the intraocular space, containing a foreign body removal mechanism, characterized in that a catheter is inserted into the device, the distal end of which is made at an acute angle with cutting edges, and its opposite end is split and bent into two diametrically located parts, moreover, the catheter is made with the possibility of introducing it through the sclera of the eye into the intraocular space at an angle to its visual axis and with the possibility of supporting the split parts of its ends on the sclera, as well as a fiber connected to the laser, configured to insert it into the catheter, and the foreign body removal mechanism is equipped with a cannula with a foreign body removal unit and with a beveled end for insertion and movement in the catheter’s inner opening. ! 2. The device according to claim 1, characterized in that the foreign body excretion unit is made in the form of a tube located in the cannula, inside of which metal spokes are fixed with several hooks at the ends and with the possibility of moving the cannula along the tube. ! 3. The device according to claim 1, characterized in that the foreign body removal unit is made in the form of a metal tube placed in the cannula with a beveled end in contact with a ferromagnetic core, on which a coil connected to a power source is wound, or a permanent magnet placed in the cannula, made in the form of a rod with a magnet fixed at its end. ! 4. The device according to claim 1, characterized in that the foreign body excretion unit is made in the form of a liquid suction mechanism comprising a cylindrical body with a girth located inside it

Description

A device for extracting a foreign body from the intraocular space belongs to the field of medicine - ophthalmology.

With various injuries, foreign bodies, both metallic and non-metallic, enter the eye. Metal foreign bodies can be magnetic (steel, iron) or non-magnetic (brass, aluminum alloys), non-metal foreign bodies are fragments of wood, glass, plastic. The problem of extracting a foreign body from the eye is that, unlike other parts of the body in the eyeball, a minimum of surgical procedures must be performed. A foreign body enters the intraocular space mainly through the sclera, so either you can use the hole in the sclera through which this body gets into the inside of the eye, or make a hole in the sclera into which you can insert a tool to remove the foreign body. In addition, if a fragment is not pulled out of the intraocular space in a short time, then it gets into the choroid of the eye, overgrows with tissue, forming a capsule or mooring, this introduces additional difficulties in removing the fragment. It is also difficult to remove a foreign body when it floats in the vitreous. The detection and location of a foreign body in the intraocular space is carried out using optical instruments: an ophthalmoscope or a slit lamp through the pupil of the eye. In order to remove a foreign body from the inner space of the eye, you must have a set of tools or a set of modules of the foreign body extraction units using one hole in the sclera. In medical practice, various mechanisms for its removal are used to remove a foreign body, for example, ophthalmic tweezers, a permanent magnet or an electromagnet, or a mechanism for suctioning a liquid through a syringe.

Therefore, the task of extracting a foreign body from the intraocular space is to create a set of modules of nodes for extracting a foreign body using one hole in the sclera of the eye with the possibility of alternating their introduction.

In medical ophthalmological instruments, mechanisms are known for removing a foreign body from the inner space of the eye, for example, in the solution specified in item No. 2180201 dated January 27, 2000, A61F 9/00, it is proposed to use a permanent magnet in the form of a grip to remove metal fragments .

The disadvantages of this device are: the removal of the magnetic metal foreign body is carried out by the "front" path, that is, from the outside of the eye, from the sclera, cornea, limbus. To remove from the inner cavity of the eye, you can only open the sclera, i.e. surgically. The permanent magnet is also not effective enough, because it is impossible during the operation to change the magnetic strength of the magnet. It is not possible with such a device to remove a splinter from the capsule or moorings.

Ophthalmic tweezers are used to remove a non-magnetic foreign body in ophthalmology, see RF No. 2049454 dated 10.10.1992, A61F 9/007, containing a spoon-shaped knife placed in a holder on the tube connected to the “spoon” control mechanisms - opening and closing them.

The disadvantages of such a device are: the removal of a foreign body with spoon-shaped knives is carried out when it is in a mooring in a suspended state, it is not provided for removing it from a capsule or from a choroid or from a vitreous body. The mechanism of moving (opening and closing) with spoons is inconvenient in work, you need to work with two hands, and if in the field, you need the help of an assistant, it’s inefficient to work with such a device, so you need to make a large hole in the sclera to bring such a device into the eye, removal of a foreign body from the choroid of the eye is traumatic.

The technical result of the proposed solution is: reduction of trauma during removal of a foreign body from the intraocular space, from capsules, choroid, moorings, increase of multifunctionality and convenience of work during removal in the field.

This result is achieved in that a catheter is inserted into the device for removing a foreign body from the intraocular space containing a foreign body removal mechanism, the distal end of which is made at an acute angle with cutting edges, and its opposite end is split and bent into two diametrically located parts, the catheter being made with the possibility of introducing it through the sclera of the eye into the intraocular space at an angle to its visual axis and with the possibility of supporting the split parts of its ends on the sclera, as well as a fiber connected to the laser, made with the possibility of introducing it into the catheter, and the foreign body removal mechanism is made in the form of a set of modules of nodes for removing a foreign body from the intraocular space, equipped with a beveled end of the cannula in each of the nodes of the modules with the ability to enter and move it with each of the foreign body removal units in the inner hole of the catheter, while the module of the foreign body removal unit is made in the form of a metal tube located in the cannula, inside which are fixed Allic knitting needles with several hooks at the ends and with the possibility of moving the cannula along the tube, or the module of the foreign body removal unit is made in the form of a metal tube placed in the cannula with a beveled end in contact with a ferromagnetic core, on which a coil connected to a power source, or placed in the cannula of a permanent magnet, made in the form of a rod with a magnet fixed at its end, or in the form of a module of a foreign body removal unit made in the form of a liquid suction mechanism ti, comprising a cylindrical body arranged inside it a spring-loaded piston attached to the rod, and the outside of the housing - with established at its end a conical tip having an axial bore, which accommodates the cannula.

The essence of the proposed solution is expressed in the aggregate of essential features sufficient to achieve the technical result provided by the solution.

An essential feature of the proposed device is the presence of a foreign body removal mechanism.

Significant distinguishing features of the device are: A - a catheter is inserted into the device, the distal end of which is made at an acute angle with cutting edges, and its opposite end is split into two diametrically arranged parts, the boat being made to insert it through the sclera of the eye into the intraocular space at an angle to its visual axis and with the possibility of supporting the split parts of its ends on the sclera; B — an optical fiber connected to the laser and configured to insert it into the catheter is inserted into the device; B - a foreign body removal mechanism is made in the form of a set of modules of nodes for removing a foreign body from the intraocular space, equipped with a beveled end of the cannula in each of the nodes with the ability to enter and move it with each of the foreign body removal nodes in the inner opening of the catheter.

Particular distinguishing features: G - the module of the foreign body excretion unit is made in the form of a tube located in the cannula, inside of which metal spokes are fixed with several hooks at the ends and can be moved along the cannula tube; D - the module of the foreign body excretion unit is made in the form of a metal tube placed in the cannula with a beveled end in contact with the ferromagnetic core, on which a coil is wound, connected to the power source, or placed in the cannula of a permanent magnet, made in the form of a rod with a rod fixed on its end a magnet; E - The module of the foreign body excretion unit is made in the form of a liquid suction mechanism containing a cylindrical body with a spring-loaded piston located on its rod, and outside the body with a conical tip installed at its end with an axial hole in which the cannula is located.

A device for extracting a foreign body from the intraocular space contains a catheter 1 of FIG. 1, the distal end end of which 2 is made at an acute angle with cutting edges, the opposite end of the catheter 1 is split and bent into two diametrically located parts (180 ° ± 15 °) 3.4. The catheter 1 is made with the possibility of introducing it through the sclera into the intraocular space at an angle to its visual axis and with the possibility of supporting the split parts of its ends on the sclera. The optical fiber 5 of FIG. 2 is also inserted into the device, connected to a laser 6, the dimensions of which are adapted to insert it into the catheter and move it along it. The mechanism for removing a foreign body from the intraocular space is made in the form of a set of modules of nodes for removing a foreign body from the intraocular space, representing a set of tools that work autonomously and constructively as separate devices, each of which can work independently. The device also introduced a cannula installed in each node, the outer diameter of which is the same (unified) for all modules and allows you to place in the catheter 1.

Each module with its own foreign body removal unit performs a certain function and accordingly has its own design and technological features. So to remove a foreign body from the choroid of the eye or from the capsule or from the mooring or from the vitreous, the module of the foreign body removal unit is made in the form of a tube 7 of Fig. 3, inside of which metal spokes 8 with several hooks 9 at their ends are welded by laser welding In this particular embodiment, 2 hooks are made at each end of the spoke 8. The cannula 10 is mounted on the tube 7, fixed in a sleeve 11, spring-loaded with a second sleeve 12 mounted on the proximal end of the tube 7. The beveled end 13 of the cannula 10 serves as a knife. When removing a foreign body from the eye, insert the cannula 10 of this node into the catheter 1, move it to the foreign body, if necessary dissecting the capsule (or mooring line) with the sharp end 13, move the spring-loaded first sleeve 11 with the cannula 10 through the tube 7 to the second sleeve 12, fixed at the proximal end of the tube 7, pushing the last of the cannula 10 with the needles 8. Manipulating the hooks 9 they capture foreign body and pull it together with the cannula 10 through the catheter 1.

If a magnetic body has got into the inside of the eye through the sclera, then another module of the foreign body removal unit is inserted into the catheter, either in the form of an electromagnet or a permanent magnet placed in its cannula made according to the outer diameter and can be placed in the catheter 1. The electromagnet is made in the form 4, placed in the cannula 14 of FIG. 4, a metal magnetic tube 15 interfaced with a ferromagnetic core 16 on which a coil of copper wire 17 is wound and connected to a power source 18 (AA batteries of 1.5 V each). A node with a permanent magnet is made in the form of a cannula 19 of Fig. 5, in which a permanent magnet 20 is mounted, mounted on the rod 21. The cannula 14 and 19 of the magnets and the electromagnet tube 15 are made with beveled sharp ends. When removing the magnetic body through the catheter 1, either a cannula 19 with a permanent magnet is inserted, pushing the latter out of it and in contact with the magnetic body, remove it. Or, through the catheter 1, an electromagnet is inserted with its cannula 14. The tube 15 is brought to the magnetic body, the power is turned on and the eyes are pushed out through the catheter. If necessary, an electromagnet can increase electromagnetic induction.

If a non-magnetic foreign body (wood, plastic or glass) floats in the vitreous body and it is impossible to pull out the different foreign body removal units, then the liquid suction mechanism is used, made in the form of a housing 22 of Fig. 6 with a spring-loaded piston 23 mounted on its rod 24, which is located in the blind wall 25 of the housing and with a spring 26 and a sleeve 27 installed on it. A conical tip 28 is mounted on the other end of the housing 22 from the piston, in the axial bore of which a cannula 29 is screwed, having a beveled outer end. During operation, the piston 23 with the rod 24 is moved in the housing, compressing the spring 26. Insert the cannula 29 into the catheter 1, bring it to the foreign body and open the spring 26, releasing the sleeve 27, mounted on the outer end of the rod 24. The piston moves to the blind wall of the housing, the absorption of the vitreous body together with the foreign body through the cannula into the body. If necessary, you can replace part of the selected vitreous with silicone oil, using this mechanism as a pump.

When fouling a foreign body with tissue in the choroid, it is necessary to highlight the boundaries of its location. To do this, use laser coagulation or heating the tissue with laser radiation through a fiber connected to the laser. The dimensions of the outer diameter of the fiber are not larger than the inner diameter of the catheter.

The catheter 1 is a tube with a beveled end end, its proximal end is split into two diametrically located parts within 180 °, which abut against the patient's face (orbit, sclera) so that it does not fall into the eye when inserting modules with a cannula. The material of the cannula and catheter is made of either VT1-0 titanium, widely used in engineering and, in particular, in medicine, or 12X18H10T stainless steel, also used in medical instrumentation.

Using the technical solution "Device for extracting a foreign body from the intraocular space" in comparison with the known solutions can reduce trauma when removing a foreign body from capsules, moorings, vascular gelatinous body, due to the fact that a set of modules for removing foreign body depending on the material of the foreign body is used and its location in the inner space of the eye. The proposed set of modules of the units for removing a foreign body allows you to use it in the field and in combat conditions, taking into account various materials of the foreign body. Other instruments can also be inserted through a catheter installed in the sclera, for example, to treat small intraocular tumors or the retina. The proposed device is multifunctional in its design capabilities: it is possible to carry out laser irradiation of the choroid, retina, and surgical operations, as the end of the cannula is made in the form of a knife with a tapered pointed end, to suck out the intraocular fluid or introduce silicone oil into the eye to straighten the retina. With this set of modules, foreign bodies can be extracted in a “frontal” way, scleral and through the wound opening. A set of modules of foreign bodies removal units in manufacturing is economical and technological, convenient and practical in operation, sterilized in the field. The catheter, tubes, cannulas are made of standard GOST capillary tubes. Details of module assemblies are made with minimal mechanical operations and therefore their manufacture in mechanical workshops is possible. Foreign body removal mechanisms can be operated with one hand without the assistance of an assistant. A device for extracting a foreign body from the intraocular space is industrially applicable and can find wide application.

Claims (4)

1. A device for extracting a foreign body from the intraocular space, comprising a foreign body removal mechanism, characterized in that a catheter is inserted into the device, the distal end of which is made at an acute angle with cutting edges, and its opposite end is split and bent into two diametrically located parts, moreover, the catheter is made with the possibility of introducing it through the sclera of the eye into the intraocular space at an angle to its visual axis and with the possibility of supporting the split parts of its ends on the sclera, as well as a fiber connected to the laser, configured to insert it into the catheter, and the foreign body removal mechanism is equipped with a cannula with a foreign body removal unit and with a beveled end for insertion and movement in the catheter’s inner opening. 2. The device according to claim 1, characterized in that the foreign body excretion unit is made in the form of a tube located in the cannula, inside of which metal spokes are fixed with several hooks at the ends and with the possibility of moving the cannula along the tube. 3. The device according to claim 1, characterized in that the foreign body removal unit is made in the form of a metal tube placed in the cannula with a beveled end in contact with a ferromagnetic core, on which a coil connected to a power source is wound, or a permanent magnet placed in the cannula, made in the form of a rod with a magnet fixed at its end. 4. The device according to claim 1, characterized in that the foreign body removal unit is made in the form of a liquid suction mechanism, comprising a cylindrical body with a spring-loaded piston located inside it, mounted on a rod, and outside the body with a conical tip mounted on its end with an axial the hole in which the cannula is placed.