MD4355C1 - Shunt with valve for normalization of intraocular pressure - Google Patents

Abstract

The invention relates to ophthalmology, in particular to the shunts with valves for normalization of intraocular pressure, and can be used for the surgical treatment of glaucoma.The shunt for normalization of intraocular pressure comprises a rod curved open loop (1), made mainly in the shape of circle or oval, to the inner surface of which, at an angle relative to its plane, is adjacent a tube (2), which communicates with the cavity formed by the loop (1). In the point of connector of the loop (1) is adjacent a tube (3), placed with it in the same plane. Both tubes (2) and (3) are arranged on the opposite portions of the loop (1). All elements of the shunt are made of elastic material, and the loop (1) and tubes (2) and (3) are made of one piece.The valve for the shunt for normalization of intraocular pressure comprises a collector-tube (4), from the closed end of which, on its inner surface, are made holes (5). In the collector-tube (4) from the open end thereof, is installed the tube (3) of the shunt. The inner diameter of the collector-tube (4) corresponds to the outer diameter of the tube (3), and all elements of the valve are made of elastic material.

Description

The invention relates to ophthalmology, in particular to shunts with valves for normalizing intraocular pressure (IOP), and can be used for the surgical treatment of glaucoma.

Ahmed valve shunts are known for adults FP7 with dimensions: length 16.0 mm, width - 13.0 mm, and for children FP8 with dimensions: length 10.0 mm, width - 9.0 mm. The shunt is made in the form of a drainage tube connected to the valve (with lamellar type slots), which is fixed in a base by four pins and closed with a cover. The valve is made of elastomer, and other elements of the device are made of medical grade silicone [1].

The known device has a complicated construction and large dimensions, requiring a considerable incision of the conjunctiva, Tenon's capsule and the formation of a large bag for valve installation. In addition, as a result of the sedimentation of albumin, which is contained in the intraocular fluid (IOL), on the inner surface of the valve lamellae (membranes), sticking of the lamellae and plugging of the valve can occur, after which a new surgical intervention is needed to replace this one.

The problem that the proposed invention solves is the creation of a reliable device, which ensures the unidirectional leakage of the IOL from the anterior chamber of the eye and the normalization of the IOP.

The problem is solved by the fact that the shunt for TIO normalization, according to the invention, contains an open curvilinear rod contour, executed, in particular, in the shape of a circle or oval, to the inner surface of which, at an angle to its plane, is attached a tube, which communicates with the cavity formed by the outline. A tube is attached to the opening of the contour, placed in a plane with it, at the same time both tubes are placed on the opposite segments of the contour. All elements of the shunt are made of elastic material, and the outline and tubes are made of one piece.

The elements of the shunt can be manufactured from medical grade silicone and/or high pressure medical grade polyethylene.

The shunt valve for TIO normalization contains a collector tube, from the side of the closed end of which, on its lateral surface, holes are made. In the collector tube, from the side of its open end, the shunt tube is installed, at the same time the inner diameter of the collector tube corresponds to the outer diameter of the tube, and all the valve elements are made of elastic material.

The valve elements can be manufactured from medical grade silicone and/or high pressure medical grade polyethylene.

The constructive implementation of the shunt makes it possible to achieve the unidirectional dosed outflow of the IOL from the anterior chamber of the eye. The open curvilinear rod contour serves primarily as a dispensing capacity for the IOL, which is removed from the anterior chamber. Placing a tube at an angle to the plane of the open contour makes it possible to install this tube in the anterior chamber parallel to the iris and to place the contour around the eyeball in the scleral bag. The execution of the curvilinear contour, in particular, in the form of a circle or oval, gives the possibility to prevent trauma and to reduce the irritating effect on the tissue and the covering of the eye. The tube placed in a plane with the contour ensures, if necessary, the connection of the shunt to the manifold-tube of the valve. The collecting tube, on the lateral surface of which there are holes, ensures the periodic drainage of the IOL, accumulated in the contour, in the subconjunctival space. The manufacturing of the elements of the shunt and the valve from elastic material ensures the possibility of adapting the devices to any anatomical construction of the eyeball and reducing the traumatic and irritating action on the covering of the eye. When the IOL increases, the holes on the lateral surface of the collecting tube open and the IOL drains into the subconjunctival space. When the TIO decreases, the holes on the side surface of the collecting tube close. The materials used to manufacture the shunt and the valve are biologically neutral and do not harm the patient.

The claimed device is reliable, provides unidirectional dosed leakage of IOL and normalization of IOP.

The invention is explained by the drawings in fig. 1-5, which represent:

- fig. 1, frontal view of the shunt;

- fig. 2, lateral view of the shunt;

- fig. 3, the collecting tube in section;

- fig. 4, assembled valve;

- fig. 5, anatomical section of the eye, illustrating the working position of the valve.

The shunt for TIO normalization contains a contour 1 of an open curvilinear rod, executed in the shape of a circle, to the inner surface of which, at an angle to its plane, a tube 2 is attached, which communicates with the cavity formed by the contour 1. Instead opening of the contour 1, a tube 3 is attached, placed in a plane with it. Both tubes 2, 3 are located on opposite segments of contour 1.

The shunt valve for TIO normalization contains a collector tube 4, from the side of the closed end of which, on its side surface, holes 5 are executed. In the collector tube 4, from the side of its open end, the shunt tube 3 is installed. The inner diameter of the collector tube 4 corresponds to the outer diameter of the tube 3. In order to more easily install the tube 3 at the open end of the collector tube 4, an annular protrusion 6 is made. To more easily insert the tube 2 into the anterior chamber at its end an oblique cut is made. The valve elements are made of elastic material, for example medical grade silicone and/or high pressure medical grade polyethylene, which are biologically neutral and compatible with eye tissues.

Example of valve shunt use

The stages of the intervention. Under local anesthesia, the conjunctival incision is made in the upper-external segment of the eyeball on the limbus with a length of 10...12 mm. A conjunctival flap is formed and separated, a scleral flap is cut with the base towards the limb of 4/5 of the thickness of the sclera in a square shape 5x5 mm. The valve is activated, physiological solution is passed through the tubes. Insert the valve into the subconjunctival pouch formed between the upper and outer rectus muscles and fix it to the episclera with two 10/0 nylon sutures about 4/5 mm from the limbus. Under the superficial scleral flap in the transparent part of the limbus, parallel to the plane of the iris, the anterior chamber is opened with a 23G needle. Through the perforation in the limbus, the tube 2 of the shunt is inserted into the anterior chamber so that it is parallel to the iris and enters the anterior chamber by 2...3 mm. Place the superficial scleral flap in place and fix it with two sutures with separate 10/0 threads. In the middle of the distance from the edge of the scleral flap to the edge of the valve - the closed end of the collecting tube 4, the episclera is fixed by 10/0 nylon sutures. Two sutures are performed on the edges of the conjunctival flap. Under the conjunctiva and intravenously, a solution of dexamethasone and an antibiotic with a wide range of action is administered.

The claimed invention allows the LIO to flow in one direction, while its capacity is proportional to the TIO. If the voltage in the anterior chamber is within the norm, then the valve (holes 5 in the collector tube 4) is closed. When the pressure in the anterior chamber increases, the collecting tube 4 widens and the holes 5 open and the IOL drains into the subconjunctival space. When the TIO drops, the valve closes.

The operation using the claimed invention for IOL drainage is technically simple. In isolation, it is extraocular, slightly invasive, ensures the predicted result. Having a well-developed technology for performing the operation, it can be used not only in the advanced stages of glaucoma, but also when performing combined and reconstructive operations, in cases of associative pathology, it reduces the number of surgical interventions and rehabilitation terms. In case of occlusion, due to certain causes, of the collecting tube 4, it is washed, while when using the closest solution, a complicated surgical intervention is required to replace the valve, which traumatizes the patient.

1. Гибкий глаукомный клапан Ahmed, 2013.04.08 [retrieved on 2015.04.15]. Found on the Internet: <URL: http://www.cataract.com.ua/instrum/ahmed/ahmed.htm>

Claims (4)

1. 1. Shunt for the normalization of intraocular pressure, which contains a contour (1) of open curvilinear rod, executed, in particular, in the shape of a circle or oval, to the inner surface of which, at an angle to its plane, a tube is attached (2), which communicates with the cavity formed by the contour (1), and in the opening of the contour (1) a tube (3) is attached, placed in a plane with it, at the same time both tubes (2), (3 ) are located on the opposite segments of the contour (1), all elements of the shunt are made of elastic material, and the contour (1) and the tubes (2), (3) are made of one whole. 2. Shunt, according to claim 1, in which the elements are made of medical silicone and/or high pressure medical polyethylene. 3. Valve for the shunt for the normalization of intraocular tension, which contains a collecting tube (4), from the side of the closed end of which, on its lateral surface, holes (5) are executed; in the collector tube (4), from the side of its open end, the shunt tube (3), defined in claim 1, is installed, at the same time the inner diameter of the collector tube (4) corresponds to the outer diameter of the tube (3), and all the elements the valves are made of elastic material. 4. Valve, according to claim 4, in which the elements are made of medical grade silicone and/or high pressure medical grade polyethylene.