RU11058U1 - DEVICE FOR SMOOTH DECOMPRESSION DURING REMOVAL OF A VACUUM RING FOR LASER AND MECHANICAL KERATOMYLESIS - Google Patents

Description

The utility model relates to the field of medicine, and more specifically to ophthalmic surgery and can be used for keratomiliasis surgery 1phy of refractive errors.

Currently, a decompression device is known to be used in the keratome More (Frashcha, 1998, Technical Data Sheet p. 4), consisting of a body with a valve for regulating pressure, however, a change in pressure u) occurs simultaneously, which can lead to such formidable complications, as retinal detachment, macular edema, subretinal hemorrhages.

The problem to be solved is the exclusion of detachment or edema of the retina and various hemorrhagic complications.

This problem is solved in that the device for smooth decompression during removal of the vacuum ring during keratomycosis, includes a housing and means for the formation of decompression. The body of the device is made of two hollow cylinders connected in the form of a tee with a transition hole between them with a diameter of 0.5-0.6 mm., On

at the opposite ends of one of the cylinders there are fittings for connecting a vacuum pipeline to the system, and the decompression means is made in the form of a pointed cylindrical piston installed in the second hollow cylinder coaxially with it with a gap of 0.15 mm., while the pointed end of the piston is directed to the side vias

The device is illustrated in the drawing. FIG. 1, which shows an overall view of the device.

The device for smooth decompression during the removal of the BaKyjnvraoro ring consists of a hollow cylinder 1 and a hollow cylinder 2 connected in the interior of the tee with a transition hole 3 between them. At the opposite ends of the cylinder 1 there are fittings 4 for connecting a vacuum pipeline system (not shown in the drawing), and a cylindrical piston 5, pointed in the form of a cone, is inserted coaxially with the cylinder 2, while the pointed end 6 of the piston 5 is directed towards the vias 3 The piston 5 is connected to a mechanical drive (not shown in the drawing).

Work with the proposed device is as follows.

The device for smooth decompression during the removal of the vacuum ring is connected to the rupture of the keratoma vacuum pipeline (not shown in the drawing) through fittings 4 || 1 and indra 1. In this case, the through hole 3 is closed by the pointed end 6 of the piston 5 of the hollow cylinder 2,

which at the time of keratectomy allows you to remove the necessary vacuum. At one end of the pipeline, a keratom vacuum ring is clamped (not shown in the drawing), and the other end of the pipeline is connected to the keratom vacuum pump casing (not shown in the drawing). Under local anesthesia, at the moment the keratoma vacuum pump is turned on, a vacuum ring is fixed on the patient’s eyeball. After gradual keratectomy, by pressing the pedal of the mechanical drive (not shown in the drawing), u), the cylindrical piston 5 is moved, which smoothly opens the transition hole 3. Thus, into the closed vacuum pipe system, through the transition hole 3, it smoothly atmospheric air is supplied, which makes it possible to atraumatically equalize the pressure in the keratom vacuum system with atmospheric pressure. After eliminating the pressure difference, the keratoma vacuum system is turned off and the vacuum ring is removed from the main apple of the patient.

Using the proposed device allows to exclude the appearance of retinal detachment and hemorrhagic complications, which is clinically manifested by the absence of subretinal and scleral hemorrhages, the absence of retinal detachment and retinal edema, and the visual results of keratomilosis surgery are improved.

Claims (1)

A device for decompression during the removal of a vacuum ring during laser and mechanical keratomileusis, comprising a housing and means for forming decompression, characterized in that the housing is made of two hollow cylinders connected in the form of a tee with a transition hole between them with a diameter of 0.5 - 0.6 mm, at the opposite ends of one of the cylinders there are fittings for connecting a vacuum pipeline to the system, and the decompression means is made in the form of a pointed cylindrical piston installed in volts The second hollow cylinder is aligned with it with a gap of 0.15 mm, while the pointed end of the piston is directed towards the vias.