RU2708824C1 - Method of endovitreal treatment of rhegmatogenous retinal detachment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to ophthalmology. For surgical treatment of rhegmatogenous retinal detachment combined with posterior vitreous detachment, three punctures are made in flat part of ciliary body, subtotal vitrectomy, substitution of physiological solution and endolaser coagulation of retina around rupture. During the vitrectomy, the periphery and the retinal rupture area are scrapped with sclerocompression. That is followed by physiological solution replacement with air to the level of rupture and aspiration of the subretinal liquid in the air. Remaining physiologic solution is removed from vitreal cavity, endolaser coagulation of retina around rupture is performed with sclerocompression. Operation is completed by gas-air tamponade and removal of ports.

EFFECT: method enables intraoperative complete adhesion of eyeballs, excludes the need for introduction into the vitreous cavity of PFOC, and therefore reduces injuries by eliminating all possible complications associated with its use, time of surgical intervention.

1 cl, 2 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used for endovitreal treatment of regmatogenous retinal detachment.

The closest analogue is a method of surgical treatment of regmatogenous retinal detachment, combined with posterior vitreous detachment (Takhchidi Kh.P., RF patent 2203001 C2 of 03.28.2000), which includes the formation of three punctures in the flat part of the ciliary body, subtotal vitrectomy, and replacement of saline with organofluorine compound (PFOS), removal of epiretinal mebranes, endolasercoagulation and the replacement of PFOS with silicone oil.

The disadvantage of this method is the need to carry out an additional step for the introduction and removal of PFOS from the vitreous cavity, which can lead to a number of complications, such as: mechanical damage to the retina during PFOS injection (both from direct exposure to the cannula itself and from the strength of the introduced stream), short-term increase IOP, unintentional leakage of PFOS under the retina, “sticking” of silicone oil to the retina in the case of direct replacement of PFOS with silicone oil, which complicates its further removal, damage to the optic nerve when removing PFOS from the vitreous cavity, incomplete removal of PFOS from the vitreal cavity with the subsequent development of sluggish uveitis. In addition, PFOS is an expensive consumable that may not always be at hand of a surgeon.

The objective of the invention is the development of endovitreal surgical intervention for the treatment of regmatogenous retinal detachment (ROS), which will drain the subretinal fluid in a shorter time and achieve complete retinal fit without the use of PFOS.

The technical result is the intraoperative achievement of a full fit of the membranes of the eyeball, the absence of the need for PFOS to be introduced into the vitreous cavity, and, therefore, the reduction in traumatic ™ by eliminating all possible complications associated with its use, the time of surgery and the cost of consumables.

The technical result is achieved by the fact that three micro-invasive ports are installed in the flat part of the ciliary body, an infusion tip is inserted into one of the ports to maintain intraocular pressure, the other two ports are used for the vitreotome and the light guide.

Subtotal vitrectomy is performed with careful processing of the periphery and the area of the retinal rupture with sclerocompression to prevent premature subretinal fluid exit. Then, they are replaced by air and, as soon as the interface reaches the rupture, the subretinal fluid is slowly aspirated in a single block. The physiological saline remaining in the vitreous cavity functions as a heavy fluid, pressing the retina and forcing the subretinal fluid from the center to the periphery, and the air in the rupture zone prevents the saline from flowing under the retina. Then, the remaining saline solution is removed from the vitreous cavity and endolasercoagulation of the retina around the gap with sclerocompression is performed (wavelength 532 nm, power 0.1-0.3 W, spot diameter in focus 200 μm, pulse duration 0.05-0.1 s) . At the end of the operation, air-gas tamponade and port removal are performed. In the early postoperative period, the patient is in a downward facing position.

Between the totality of essential features and the achieved technical result, there is a causal relationship.

The treatment of rupture with sclerocompression helps to prevent premature subretinal fluid exit, and the replacement of physiological saline with air to the level of rupture and the slow aspiration of subretinal fluid in the air contributes to its release as a single unit, and prevents saline from flowing under the retina, which leads to its full fit without use PFOS.

The physiological saline remaining in the vitreous cavity performs the function of PFOS, displacing the subretinal fluid from under the retina.

Carrying out endolasercoagulation of the retina around the gap with sclerocompression due to the displacement of the residual layer of subretinal fluid contributes to the formation of a burn, which is necessary for the formation of a retaining chorioretinal adhesion.

Thus, the number and volume of manipulations during the operation are reduced, and the risks of all possible complications associated with the use of PFOS are also eliminated.

The method is as follows.

If necessary, the first step is phacoemulsification of cataract with IOL implantation according to a standard method. Three transconjunctival punctures in the flat part of the ciliary body, 3.5 mm from the limb, establish three microinvasive ports for the introduction of the optical fiber, irrigation system and vitreotome. Subtotal vitrectomy is performed, the periphery and rupture of the retina are carefully processed with sclerocompression, then physiological saline is replaced with air to the level of rupture and the subretinal fluid is aspirated in air. After the retina lies down, the remaining saline from the vitreous cavity is removed. Retinal endolasercoagulation is performed around the gap with sclerocompression (wavelength 532 nm, power 0.1-0.3 W, spot diameter in focus 200 μm, pulse duration 0.05-0.1 s), tamponade of the vitreous cavity with a gas-air mixture and removal of ports .

Clinical example 1.

Patient I., 59 years old

Diagnosis: Subtotal regmatogenous retinal detachment, proliferative vitreoretinopathy of stage B of the right eye.

Vision decreased 9 days ago.

Examination data before surgery.

Visual acuity of the right eye is the correct light projection.

B-scan: subtotal retinal detachment, posterior vitreous detachment.

Ophthalmoscopically determined retinal detachment from 6 to 4 hours, valve retinal rupture at 1 hour, the macular zone is not visible behind the bubble of the detached retina.

The operation is performed according to the proposed method. Three ports were installed in the zone of the flat part of the ciliary body 3.5 mm from the limbus. Subtotal vitrectomy was performed, peripheral and rupture of the retina were treated with sclerocompression, subretinal fluid was drained as a single unit in the air. After the retina rested, the remaining saline was removed from the vitreous cavity. Retinal endolasercoagulation was performed around the gap with sclerocompression (wavelength 532 nm, power 0.1 W, spot diameter in focus 200 μm, pulse duration 0.1 s) and tamponade of the vitreous cavity with a gas-air mixture. Ports removed.

In the early postoperative period, the patient was facing down.

On the first day after the operation, a gas-air mixture in a 4/5 volume was determined in the vitreous cavity. The visual acuity of the right eye was 0.04 (does not correct). On the 50th day after the operation, the gas in the vitreous cavity completely resolved, visual acuity was 0.7 with correction. Retina full fit achieved.

Clinical example 2.

Patient B., 65 years old

Diagnosis: Common regmatogenous retinal detachment, proliferative vitreoretinopathy stage B of the left eye. Initial cataract.

Vision decreased 4 days ago.

Examination data before surgery.

Visual acuity of the right eye is the correct light projection.

B-scan: retinal detachment in the upper inner quadrants, posterior vitreous detachment.

Ophthalmoscopically determined retinal detachment from 7.30 to 2 hours, 6 valve ruptures at the far periphery in the area of the detached retina, and three silent ruptures at 5, 6 and 7 hours, the macular area is detached.

The operation is performed according to the proposed method. Three ports were installed in the zone of the flat part of the ciliary body 3.5 mm from the limb. Phacoemulsification of cataract with IOL implantation was performed according to the standard method. Using a vitrector and a light guide, a subtotal vitrectomy was performed, the periphery and all ruptures of the retina were treated with sclerocompression, the subretinal fluid was aspirated in air and the remaining saline was removed from the vitreous cavity. Endolaser coagulation of the retina around discontinuities with sclerocompression (wavelength 532 nm, power 0.3 W, spot diameter in focus 200 μm, pulse duration 0.05 s) and vitreous cavity tamponade by air-gas mixture were performed. Ports removed.

In the early postoperative period, the patient was facing down.

On the first day after the operation, a gas-air mixture in a 4/5 volume was determined in the vitreous cavity. The visual acuity of the left eye was 0.02 (does not correct). On the 50th day after the operation, the gas in the vitreous cavity completely resolved, visual acuity was 0.2 with correction. Retina full fit achieved.

The use of the invention allows to quickly and efficiently achieve a full fit of the retina.

According to the proposed method, 10 operations were performed, in all cases the fit of the retina was achieved.

Claims (1)

A method of surgical treatment of regmatogenous retinal detachment, combined with posterior vitreous detachment, including the formation of three punctures in the flat part of the ciliary body, performing subtotal vitrectomy, saline replacement and endolasercoagulation of the retina around the gap, characterized in that the peripheral and rupture zones are processed during vitrectomy retina with sclerocompression, then physiological saline is replaced with air to the level of rupture and aspiration is subretinal liquid in the air, then the remaining physiological solution is removed from the vitreous cavity, endolasercoagulation of the retina around the gap is performed with sclerocompression, and at the end of the operation, gas-air tamponade and port removal are performed.