RU74564U1 - A device for hydrodilimination of the vitreous cortex - Google Patents

Abstract

A device for hydrodelimination of the vitreous cortex, consisting of a straight tube with a round cross section, characterized in that it is additionally equipped with a second straight tube with a round cross section, while the second tube is 3-4 mm longer and two times thinner, the tubes are connected between each other with their sides so that their non-working ends are at the same level, the working end of the second tube is bent at an angle of 115 degrees to the side opposite to the side connected to the tube, and the working end of the first The plug is sealed and rounded, on the side of the first tube, opposite to the side connected to the second tube, a hole is made, the axis of which is perpendicular to the longitudinal axis of the tube, while the hole is located near the muffled end of the tube.

Description

The utility model relates to medicine, namely to ophthalmology.

During vitrectomy in patients with retinal detachment, a snug fit of the vitreous cortex (CT) to the inner surface of the retina occurs. To exfoliate the CT cortex, a hydroseparation method using a cannula for hydrodelimation of epiretinal membranes containing a straight working tube with a circular cross section, the end of which is smoothly bent in the form of a hook, is used (RF patent for utility model No. 62516).

However, the use of this cannula for hydrodelimination of the vitreous cortex can lead to an increase in intraocular pressure (IOP) during manipulation. This complicates the process of exfoliation of cortical collagen, lengthens the time of surgery and can cause the development of ischemic neuroretinopathy.

The technical result achieved by using the proposed utility model is the detachment of the CT cortex from the inner border membrane (VPM) without increasing IOP, reducing the morbidity and time of manipulation during hydrodelimination of the vitreous cortex. The technical result is achieved by the fact that in the device for hydrodelimation of the vitreous cortex, consisting of a straight tube with a round cross section, according to a utility model, it is additionally equipped with a second straight tube with a round cross section, while the second tube is 3-4 mm longer than the first and two times thinner, the tubes are interconnected by their sides so that their non-working ends are at the same level. The working end of the second tube is bent at an angle of 115 degrees to the side opposite to the side connected to the first tube, and the working end of the first tube is muffled and rounded.

On the lateral side of the first tube, the opposite side connected to the second tube, a hole is made, the axis of which is perpendicular to the longitudinal axis of the tube, with the hole located near the muffled end of the tube.

The device is illustrated in the drawing and consists of two straight tubes 1 and 2, connected by their sides. Tube 2 is 3-4 mm longer than tube 1 and twice as thin. Tubes 1 and 2 are connected in such a way that their non-working ends 3 and 4 are at the same level. The end 4 of the tube 2 is connected using a silicone tube with an irrigation syringe (not shown in the drawing). The working end 5 of the tube 2 2.5 mm long is bent at an angle of 115 degrees to the side opposite to the side connected to the tube 1, and the working end 6 of the tube 1 is muffled and rounded.

On the lateral side of the tube 1, the opposite side connected to the tube 2, a hole 7 is made, the axis of which is perpendicular to the longitudinal axis of the tube, the hole being located near the muffled end 6 of the tube.

The device is inserted into the vitreous cavity through the sclerectomy opening. Then, in a tube 2 of the device, a high-pressure physiological saline (RF) is supplied through a silicone tube with an irrigation syringe, which leads to the formation of penetration in the CT and makes it possible to reach the FR to the border of the cortex of ST and VPM. Under high pressure of saline, complete detachment of the CT cortex from the inner surface of the retina is achieved. A short tube 1 through the hole 7 provides a reverse fluid flow, which reduces IOP during the manipulation.

Claims (1)

A device for hydrodelimination of the vitreous cortex, consisting of a straight tube with a round cross section, characterized in that it is additionally equipped with a second straight tube with a round cross section, while the second tube is 3-4 mm longer and two times thinner, the tubes are connected between each other with their sides so that their non-working ends are at the same level, the working end of the second tube is bent at an angle of 115 degrees to the side opposite to the side connected to the tube, and the working end of the first The plug is plugged and rounded, on the side of the first tube, opposite to the side connected to the second tube, a hole is made, the axis of which is perpendicular to the longitudinal axis of the tube, while the hole is located near the muffled end of the tube.