RU2620929C1 - Macular rupture surgery technique - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves vitrectomy with excision and excision of the posterior hyaloid membrane. The previously stained internal border membrane is also removed. Active and (after 5-7 minutes) additional passive aspiration of the vitreous remains over the rupture is performed without mechanical reduction of the rupture edges. Platelet-rich blood plasma (PRP) is introduced, and final retinal tamponade is performed with air. At that, the macular rupture area is treated with sulfated glycosaminoglycans at a concentration of 1 to 5% prior to PRP introduction and at a concentration of 0.05% after PRP introduction.

EFFECT: improved visual functions and reduced trauma of the corneal shell.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used in the surgical treatment of idiopathic macular retinal ruptures.

Various methods for the surgical treatment of macular ruptures are known. Russian authors Zakharov V.D. and Ayrapetova L.E. The technology of intravitrial interventions for retinal detachments with macular tears was developed (J. Ophthalmosurgery, 2001, No. 2, pp. 37-43). According to this technology, a subtotal vitrectomy was performed with the removal of premacular membranes, the introduction of a gas mixture or “heavy silicone” into the vitreous cavity and blocking of the macular rupture by autogenous blood serum (bioglue). Blocking was carried out at the final stage of the operation and consisted in the fact that a sterile absorbable collagen sponge soaked in autogenous blood serum was introduced into the macular rupture area with retinal forceps. Unfortunately, practice has shown that in some cases there was no joining of the edges of the macular gap as a result of the actions performed (old gaps, large gap) and the gap was unlocked.

There is a method of treating macular rupture, according to which, after vitrectomy, removal of the posterior hyaloid membrane (HGM), the fluid was replaced by an air-gas mixture and platelet-rich blood plasma (BTP) was introduced without removing the inner border membrane (VPM) (Konstantinidis A., Hero M ., Nanos P., Panos G / D. Efficacy of autologous platelets in macular hole surgery. // Clin Ophthalmol. - 2013. Vol. 7. - P. 45-50). The disadvantage of this technology is the remaining VPM, which helps to unlock the macular rupture due to vitreoretinal traction. Removal of the VPM makes the retinal tissue in the macula more malleable during defect closure.

The closest analogue is a method for treating macular rupture, according to which, after a vitrectomy, removal of HGM and VPM, the edges of the rupture are reduced using a cannula, inside which there is a silicone tube that extends beyond the distal end of the cannula and has 4-6 cuts at the end. The distal end of the cannula is set above the macular gap and, touching the surface of the gap, carry out aspiration, while controlling the reduction of the edges of the macular gap and the patency of the cannula opening. After completing the aspiration, the defect is blocked by applying BoTP to the rupture area (RF patent 2391953).

The disadvantage of this method is trauma to the retinal tissue when trying to mechanically reduce the edges of the macular rupture using a cannula, which leads to a violation of the restoration of the vitreomacular interface in the postoperative period and, as a result, the long-term, more than 1 year, the presence of metamorphopsies, reduced reading ability in patients.

The objective of the invention is to develop an atraumatic technology for the surgical treatment of macular retinal ruptures, which allows to achieve higher functional results.

The technical result achieved by using the invention is to improve visual functions and reduce trauma to the retina.

The technical result is achieved by the fact that in the method of surgical treatment of macular rupture, including performing a vitrectomy with extraction and excision of the posterior hyaloid membrane of the DGM, removal of the pre-stained VPM, active and after 5-7 minutes additional passive aspiration of the vitreous residues over the rupture without mechanical information of the edges of the rupture , the introduction of BTP and the final tamponade of the retina with air, according to the invention, the macular fracture region is treated with sulfated glycosaminoglycans (sGAG) in a concentration of from 1 to 5% before the administration of BoTP and at a concentration of 0.05% after the administration of BoTP.

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

The advantage of this method of surgical treatment of macular rupture is the reduction of edema of the adjacent retinal tissue due to the introduction of sGAG at a concentration of 1 to 5% and the adaptation of the BTP to the injection site due to the use of sGAG at a concentration of 0.05% at the end of the operation.

The method was carried out as follows.

Surgical field treatment and anesthesia are performed. The operation begins with 3 scleral incisions in the region of the flat part of the ciliary body: one of the incisions is intended for supplying irrigation fluid to the vitreous cavity, the second is for introducing an endoplaster to visualize the fundus, and the third is for introducing an instrument, in particular, the tip of the vitreotome . In patients with cataracts, a combined intervention is performed, including cataract phacoemulsification with implantation of an intraocular lens (IOL) in a capsular bag. Patients with artifact begin surgery as standard. Perform a standard three-port 27G vitrectomy. At the first stage, the middle layers of the vitreous are removed - a kind of tunnel is formed from the scleral sections to the posterior pole of the eyeball. The tunnel is formed for free access of the instrument to the posterior pole of the eyeball, so that when it is inserted into the vitreous cavity, the vitreous does not wrap around it and does not cause traction on the retina.

The next step, near the optic nerve disk, detach the DGM from the surface of the retina using one of the known methods and remove the vitreotome to the equatorial region with the surrounding vitreous. At the next stage, irrigation fluid supply to the eye cavity is stopped and the membrane dye Membraneblue-Dual in the amount of 0.2-0.3 ml is supplied to the macular area with a cannula to stain the retina VPM in blue and improve its visualization. The exposure of the dye is 20-40 seconds.

Then the flow of irrigation fluid is resumed, and the remains of the dye are removed from the vitreous cavity by passive aspiration. Then, using the retinal tweezers, the free edge of the VPM is formed. VPM removal is carried out according to traditional technology at a distance of about 1000 microns from the edge of the gap. The exchange of previously introduced irrigation solution into the air is carried out by active aspiration of the solution over the optic nerve disk (optic nerve disc).

After tamponade of the vitreous cavity with air, they achieve the maximum complete removal of the remains of the vitreous body in the area of the gap by additional passive aspiration after 5-7 minutes without mechanical information of the edges of the gap. Then the area of macular rupture is treated with a solution of sGAG in a concentration of from 1 to 5% and blood BTP is injected in a volume of 2 drops. The concentration of sGAG used depends on the size of the macular rupture: small size (less than or equal to 250 microns) - used with GAG 1%, medium size (from 250 to 400 microns) - used with GAG 3%, large size (greater than or equal to 400 microns) - used with GAG 5%. Upon completion of the introduction of BTP, the rupture area is treated with a sGAG solution at a concentration of 0.05%. The operation is completed traditionally. In the postoperative period, the patient is recommended to face down for the next three days.

Example 1

Patient D., 65 years old. She complained of distortion and decreased vision in her left eye for 4 months. When examining the visual acuity in the left eye of 0.08, the correction did not produce improvement. IOP = 18 mmHg On the right eye pathology is not detected. Ophthalmoscopy of the left eye revealed opacities in the cortical layers of the lens and a through defect in the macula. An additional examination on an optical coherence tomograph confirmed a macular gap of D = 245 μm, without posterior detachment of the vitreous. Diagnosis: OS: Complicated cataract. Macular gap. The operation according to the invention was carried out, while sGAG was introduced at a concentration of 1%. In the control turnout after 1 month, the corrected visual acuity of the left eye is 0.5. IOP 19 mmHg With ophthalmoscopy: anterior segment without features, IOL in the capsular bag, there is no air in the vitreal cavity, the gap is blocked, the retina is adjacent. When viewed 3 months after surgery, the corrected visual acuity of the left eye is 1.0. IOP 18 mmHg With ophthalmoscopy: the anterior segment without features, the IOL in the capsular bag, the gap is blocked, the retina is adjacent.

Example 2

Patient P., 59 years old. He complained of the appearance of a spot in the field of vision of the right eye for 6 months. When examining the visual acuity in the right eye of 0.05, the correction did not produce improvement. IOP = 20 mmHg On the left eye pathology was not detected. Ophthalmoscopy of the right eye revealed opacities in the cortical layers of the lens and a through defect in the macula. An additional examination on an optical coherence tomograph confirmed a macular gap of D = 820 μm, without posterior detachment of the vitreous. Diagnosis: OD: Complicated cataract. Macular gap. The operation according to the invention was carried out, while sGAG was introduced at a concentration of 5%. At the control turnout after 1 month, the corrected visual acuity of the right eye was 0.4. IOP 20 mmHg With ophthalmoscopy: anterior segment without features, IOL in the capsular bag, there is no air in the vitreal cavity, the gap is blocked, the retina is adjacent. When viewed 3 months after surgery, the corrected visual acuity of the right eye is 0.8. IOP 18 mmHg With ophthalmoscopy: anterior segment without features, IOL in the capsular bag, the gap is blocked, the retina is adjacent.

The inventive method in the FSAI MNTK "MG" operated on 32 patients. The method has proven reliable, atraumatic. In all cases, good results were obtained that improved (or restored) and stabilized visual functions.

Claims (1)

A method of surgical treatment of a macular rupture, including performing a vitrectomy with extraction and excision of the posterior hyaloid membrane, removing a previously stained internal border membrane, active and after 5-7 minutes additional passive aspiration of the vitreous residues above the rupture without mechanical information of the rupture edges, the introduction of platelet-rich blood plasma (BoP) and the final tamponade of the retina with air, characterized in that the macular fracture area is treated with sulfated glycosides minoglikanami in a concentration of from 1 to 5% before the introduction of PRP in a concentration of 0.05% after administration of PRP.