RU2184512C2 - Surgical method for treating ciliary body detachment cases aggravated by eyeball subatrophy at initial stage - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves forming external scleral flap in the zone of ciliary body detachment projection, draining supraciliary space and fastening external magnetic seal in intrascleral way by suturing. Subtotal vitrectomy, intravitreal tamponade with perfluororganic substance is carried out. Then, internal magnetic seal manufactured from plastic flexible material shaped as a strip is intravitreally introduced and arranged in the external magnetic seal projection zone. EFFECT: enhanced effectiveness of treatment.

Description

 The invention relates to medicine, in particular to ophthalmology, and is intended for the surgical treatment of exfoliation of the ciliary body.

 There is a method of surgical treatment of exfoliation of the ciliary body (E.N. Verigo, I. B. Alekseeva, G. D. Malyuta // Bulletin of Ophthalmology. - 1984. - 2. - P.22-25), taken as a prototype, where the ciliary the body is hemmed to the sclera with interrupted sutures. The method includes forming a scleral flap, draining the supraciliary space and suturing the ciliary body to the sclera.

 In cases of the onset of eyeball subatrophy, which are manifested by prolonged deep hypotension due to the presence of a detachment of the ciliary body, traditional methods of surgical treatment of this pathology are ineffective due to the high risk of complications associated with hemming of the ciliary body. The low efficiency of these methods requires intravitreal filling of the area of the exfoliated ciliary body, where the main problems that need to be addressed are the choice of material, placement on the area of the exfoliated ciliary body and its fixation.

 The disadvantage of this method is the possibility of hemorrhage from damaged vessels of the ciliary body and cutting of sutures on the edematous ciliary body.

 The objective of the invention is the development of a method of surgical treatment of detachment of the ciliary body, with the beginning processes of subatrophy of the eyeball, which are manifested by prolonged deep hypotension due to the presence of detachment of the ciliary body.

 The technical result is the achievement of a positive anatomical outcome in the treatment of ciliary body detachment.

 The technical result is achieved by the fact that in the method of surgical treatment of ciliary body detachment at the initial stage of subatrophy of the eyeball, including the formation of a scleral flap in the projection area of the ciliary body detachment, drainage of the supraciliary space and suturing of the ciliary body to the sclera, according to the invention, the outer magnetic field is hemmed, subtotal vitrectomy, intravitreal tamponade with a perfluororganic compound, then through the flat part of the ciliary body int an internal magnetic seal made of a flexible polymer material is introduced in the form of a strip and placed in the projection area of the external magnetic seal, while the ciliary body is fixed to the inner surface of the sclera due to the compression interaction of two magnetic fillings.

 The method is as follows.

 At the preparatory stage, after processing the surgical field, Sol.Dicaini 1% epibulbar anesthesia is performed, then Sol.Novocaini 4% - 2.0 ml is retrobulbarly injected and Sol.Novocaini 2% circular muscle acinia is 10.0. 3 mm from the limb in the area of the projection of the detachment of the ciliary body, a conjunctival flap is formed with its separation from the limb. The external scleral flap is formed 5x5 mm to the limb by 1/2 of the sclera thickness and drainage of the supraciliary space. A magnetic seal of polymer material with a diameter of 4 mm is placed on the bed and the surface scleral flap is fixed with two interrupted sutures. Then, in the flat part of the ciliary body in the upper nasal at 1 hour and in the upper temporal quadrants at 10 and 11 hours, 1 mm sclera punctures are performed with the cannula of the liquid-gas exchange system hemmed to one of them for a closed vitrectomy. Vitrectomy is performed using endovitreal illumination and the delivery of a replacement physiological solution through a hemmed cannula. At the end of vitrectomy, the fluid is replaced by perfluoropolyether DK-164, for which PFPE 5-7 ml is injected into the vitreous cavity.

An implant is formed on the operating table from a biologically inert elastic polymer magnetic magnetic material with a thickness of 0.15-0.2 mm in the form of a strip 2-3 mm wide and long enough to cover the area of the exfoliated ciliary body (on average 7-10 mm). The formed implant is inserted into the injector, through the incision in the flat part of the ciliary body, it is inserted into the vitreous cavity, placed in the projection area of the intrascleral magnetic seal so that the central part of the implant is located in the projection zone of the external magnetic seal. The perfluoropolyether DK-164 is replaced with a 20% air-gas mixture of C ₄ F ₈ after sealing scleral fractures.

 The method is illustrated by a clinical example.

 Patient M., 26 years old, was admitted on September 27, 1999. It was known from the anamnesis that on January 10, 1999, he received a blow to the right eye with a blunt object. I noticed a decrease in vision after 1 month. From February to April 1999, he was repeatedly treated conservatively in a hospital with a diagnosis of detachment of the choroid of the right eye. Conducted general hypotensive, desensitizing, stimulating therapy. The treatment was ineffective.

 In May 1999, anterior sclerectomy and cryopexy of the ciliary body were performed. A small amount of clear liquid was released through the hole. The positive postoperative effect was short-lived. The ciliochoroidal detachment reappeared.

 Upon receipt, the visual acuity of the right eye is 0.1, is not corrected, the left eye is 1.0. The adnexa of the right eye is not changed. His mobility is maintained in full. The cornea is transparent. The front camera is very small especially on the periphery. Gonioscopically, the angle of the anterior chamber is not visible. The iris is greenish. Pupil up to 6 mm, irregular in shape, powerful back synechia at 6 o’clock. In the lens of clouding under the posterior capsule in the lower inner quadrant. On the fundus of the optic disk, the optic nerve is hyperemic, edematous, slightly promoted into the vitreous, its borders are faded. The veins are dilated, convoluted. Arteries of ordinary caliber, edema of the optic disc extends to the peripapillary and macular zones. On the periphery of the fundus, whitish. Intraocular pressure is 8 mmHg. Field of view without pathology. An echographically determined planar ciliochoroidal detachment in the two lower quadrants.

September 28, 1999 the operation was performed subtotal vitreotomy, intraoperative injection of PFOS into the vitreal cavity, magnetocyclopexy, tamponade with a 20% C ₄ F ₈ air-gas mixture.

 The progress of the operation. 3 mm from the limb in the lower outer and lower inner quadrants in the projection zone of the detachment of the ciliary body, a conjunctival flap is formed with its separation from the limb. Then, at 4.30 and 7.30 hours, two external scleral flaps 5 × 5 mm in size to the limbus are formed and the suprauylar space is drained.

 Magnetic fillings made of polymer material with a diameter of 4 mm are placed on the bed and the surface scleral flap is fixed with two interrupted sutures. Then, in the flat part of the ciliary body in the upper nasal at 1 hour, in the upper temporal quadrants at 10 and 11 hours, 1 mm scleral punctures are performed with hemming of the cannula of the liquid-gas exchange system to one of them for a closed vitrectomy. Vitrectomy is performed using endovitreal illumination and the delivery of a replacement physiological solution through a hemmed cannula. At the end of vitrectomy, the fluid is replaced by perfluoropolyether DK-164, for which 5 ml PFPE is introduced into the vitreous cavity.

Two intravitreal implants are formed on the operating table from a biologically inert elastic polymer magnetic magnetic material with a thickness of 0.15 mm in the form of strips 2.5 mm wide and 6 mm long each. The formed implants are inserted into the injector in turn and inserted through the incision in the flat part of the ciliary body into the vitreous cavity and placed in the projection area of the external intrascleral magnetic fillings. The perfluoropolyether DK-164 is replaced with a 20% air-gas mixture of C ₄ F ₈ after sealing scleral sections.

 Before discharge, visual acuity with a correction of 0.3; intraocular pressure 20 mmHg Front camera of medium depth. On the fundus of the optic disc is pink, its boundaries are clear. Edema in the peripapillary and macular areas has almost disappeared. Arteries and veins of normal caliber.

 The proposed method allows you to fix the exfoliated ciliary body to the inner surface of the sclera from the side of the vitreous body in those cases where the beginning processes of subatrophy of the eyeball are revealed, which are manifested by prolonged deep hypotension due to the presence of detachment of the ciliary body, where the possibilities of traditional methods have been exhausted. This expands the possibilities of surgery. The positive effect is the ability to achieve anatomical fit of the ciliary body in previously considered incurable cases.

Claims (1)

 A method for surgical treatment of ciliary body detachment at the initial stage of eyeball subatrophy, including the formation of a scleral flap in the projection area of the ciliary body detachment, drainage of the supraciliary space and suturing of the ciliary body to the sclera, characterized in that the external magnetic filling is intrasclerally stitched, subtitular vitromyectomy is performed; organofluorine compound, then through the flat part of the ciliary body intravitreal injected internal magnetic plane bu from a polymeric elastic material in the form of strips and disposed in the zone of its outer projection of the magnetic seal, the ciliary body is fixed to the inner surface of the sclera due to the interaction of two magnetic compression seals.