RU2745303C1 - A way to eliminate vitreomacular adhesion - Google Patents

Abstract

FIELD: ophthalmology.SUBSTANCE: invention relates to ophthalmology. In the eyeball in the projection of the flat part of the ciliary body, transconjunctival scleral punctures are performed. A needle of an ultrasonic vitreo-tom and an endo-illuminator are installed and a constant supply of an irrigation solution is provided. Then, using ultrasonic vibrations with an amplitude of 5-20 microns at the end of the ultrasonic vitreotome needle, the posterior hyaloid membrane around the macular zone is dissected. An islet of the posterior hyaloid membrane is formed, fixed to the foveal fossa. Then using vacuum aspiration of 100-200 mmHg. Art. the islet of the posterior hyaloid membrane is separated from the foveal fossa.EFFECT: method makes it possible to prevent damage to the structures of the posterior part of the eye when eliminating vitreomacular adhesion by reducing the traction effect on the retina when cutting and removing the posterior hyaloid membrane.1 cl, 3 dwg, 2 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used to eliminate vitreomacular adhesion in pathology of the macular zone of the retina.

Vitreomacular adhesion is a manifestation of the age process - posterior detachment of the vitreous body, with its local attachment to the macular and paramacular regions of the retina. The bulk of the vitreous body moves towards its anterior base and causes anteroposterior traction, ultimately leading to the formation of traction lesions on the retina, up to the formation of a macular opening. The condition may be accompanied by metamorphopsia and decreased visual acuity.

There are both surgical and non-surgical methods for eliminating vitreomacular adhesion.

Non-surgical methods include intravitreal administration of bacterial collagenase (RU 2619991, publ. 05/22/2017), plasmin (US 8834869, publ. 09.16.2014) and other enzyme preparations.

There is also a method of introducing microbubbles containing plasmin into the vitreous cavity, with their subsequent release over the adhered posterior hyaloid membrane under the influence of ultrasound at a frequency of 1-20 MHz (US 20140271901, publ. 09/18/2014).

The disadvantages of non-surgical methods for eliminating vitreomacular adhesion include possible incomplete posterior detachment of the vitreous body, the need for repeated administration of the drug in the absence of the desired effect is not excluded, there is a risk of undesirable effects and side effects, as well as intolerance to the administered drugs.

Surgical methods for eliminating vitreomacular adhesion include the use of a femtosecond laser, which forms the posterior detachment of the vitreous body using laser ablation of collagen fibers. The laser divides the macular zone into many areas and determines the “target volume of the target tissue” (the extent of the tissue adhered to the retina), and the laser exposure occurs in the adhesion site of the posterior hyaloid membrane, taking into account the target volume of the target tissue (US 20160022491, publ. 28.01. 2016 g.). Possible disadvantages of the method are the danger of damage to the inner layers of the retina under the influence of laser photoablation, as well as the high cost of femtosecond lasers and consumables for them, the lack of currently available technical solutions for the practical implementation of this method.

There is also a method using a surgical system for creating a posterior vitreous detachment, including the installation through the flat part of the ciliary body of two ports for irrigation and aspiration, the introduction through the irrigation port of a tip with a flexible elongated element having a “nozzle” at the distal end, and its installation in the projection of the detached posterior hyaloid membrane. Through the "nozzle" under pressure, liquid is supplied, and due to the performance of hydrodissection in the subhialoid space, a complete posterior detachment of the vitreous occurs (US 20160346122, publ. 01.12.2016). The possible disadvantages of this method include the complexity of control over the hydrodissection process, which can cause damage to the macular zone with the formation of a through macular hole and retinal hemorrhages. There is also a need for continuous monitoring of intraocular pressure due to the use of a forced hydrodynamic jet in the vitreous cavity.

There is a way to eliminate vitreomacular adhesion, including the installation of two valve ports of 25-27 G caliber at a distance of 3-4 mm from the limbus in the meridians of 10 and 2 o'clock. Intravitreally, an ophthalmic membrane spatula is inserted, containing a handle and a pointed working part, the tip of which is made hook-shaped, until contact with the posterior hyaloid membrane in the macular area, the posterior hyaloid membrane is captured and separated from the foveola. After contact of the instrument with the posterior hyaloid membrane, a hole is made in it, the posterior hyaloid membrane is lifted by the edge of the hole and separated until it peels off (RU 2589660, publ. 10.07.2016). However, this method is quite difficult to execute, as it requires high skill and honed manual skills from the surgeon. In addition, the formation of floating opacities in the vitreous body in the postoperative period is not excluded.

The closest to the described invention is a method for eliminating vitreomacular adhesion, in which vitrectomy is performed through 3 transconjunctivally installed ports, and the posterior hyaloid membrane is separated from the macular zone either using active aspiration and fragmentation with a guillotine pneumatic vitreotome knife, or using vitreoretinal S scissors (de Vitrectomy for prevention of macular holes. Results of a randomized multicenter clinical trial. Vitrectomy for Prevention of Macular Hole Study Group, Ophthalmology. 1994 Jun; 101 (6): 1055-9, http: //www.ncbi.nlm .nih.gov / pubmed / 8008347).

This decision was made as a prototype.

The disadvantages of this method include the need for active aspiration at a high vacuum level, as well as inevitable fluctuations in the aspiration flow associated with the principle of operation of the guillotine vitreotome. This is associated with the risk of iatrogenic formation of a through hole in the retina due to fluctuation fluctuations of the removed remnants of the posterior hyaloid membrane adhered in the foveal zone, as well as direct damage to the retina by the aspiration flow or when it enters the lumen of a vitreo tome operating at a high vacuum.

The objective of the invention is to quickly, efficiently and safely eliminate vitreomacular adhesion and remove the posterior hyaloid membrane in relation to the structures of the posterior part of the eye.

The technical result achieved when using the proposed method is to increase the safety for the structures of the posterior part of the eye while eliminating vitreomacular adhesion by reducing the traction effect on the retina when cutting and removing the posterior hyaloid membrane.

The specified technical result is achieved by performing transconjunctival scleral punctures of the eyeball in the projection of the flat part of the ciliary body with the installation of an ultrasonic vitreotome needle, an endo-illuminator and a constant supply of irrigation solution, after which the posterior hyaloid membrane is dissected around the macular zone using ultrasonic vibrations at the end of the ultrasonic vitreotome needle. an “island” of the posterior hyaloid membrane is created with the center in the zone of greatest adhesion to the retina, and further separation of the “island” of the posterior hyaloid membrane from the foveal fossa is performed by aspiration at low vacuum levels.

These features are essential and interconnected with the formation of a stable set of essential features sufficient to obtain the specified technical result.

The present invention is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

FIG. 1 - shows a diagram of the installation of three valve ports;

fig. 2 - demonstrates the technique of forming an "island" of the posterior hyaloid membrane around the adhesion zone;

fig. 3 shows a schematic representation of the process of separating the "island" of the posterior hyaloid membrane from the adhesion zone.

According to the present invention, a new method for eliminating vitreomacular adhesion using an ultrasonic vitreotome is contemplated and allows for fast, effective and safe elimination of vitreomacular adhesion and removal of the posterior hyaloid membrane in relation to the structures of the posterior part of the eye. At the same time, the method ensures reliable elimination of vitreomacular adhesion, reduction of traction effect on the retina when cutting and removing the posterior hyaloid membrane.

In general, the method for eliminating vitreomacular adhesion is characterized by the fact that transconjunctival scleral punctures made in the eyeball in the projection of the flat part of the ciliary body are equipped with an ultrasonic vitreotome needle, an endo-illuminator and provide a constant supply of irrigation solution, after which, using ultrasonic vibrations at the end of the ultrasonic vitreotome needle the posterior hyaloid membrane is dissected around the macular zone to create a locally located part of the posterior hyaloid membrane centered in the zone of greatest adhesion to the retina, and then, using aspiration at low vacuum levels, this locally located part of the posterior hyaloid membrane is separated from the foveal fossa.

It has been experimentally established that the optimal values of the amplitude of ultrasonic vibrations for dissecting the posterior hyaloid membrane are in the range of 5-20 microns, vacuum - 100-200 mm Hg. Art. The diameter of the "island" cut out (the locally located part of the posterior hyaloid membrane centered in the zone of greatest adhesion to the retina) of the posterior hyaloid membrane can be 1-2 diameters of the optic nerve head. These parameters in each specific case can be determined by the surgeon individually, depending on the viscoelastic properties and density of the posterior hyaloid membrane, as well as the length of the vitreomacular adhesion zone.

The claimed method works as follows.

After local anesthesia, three valve ports of 20, 23, 25, 27G or smaller caliber are installed in the projection of the flat part of the ciliary body, one below, at 4 or 8 o'clock and two above, at 10 and 2 o'clock. Through the lower port, a constant intraocular irrigation of saline is established, and through the other two ports, an endo-illuminator and an ultrasonic vitreotome needle are inserted. The posterior hyaloid membrane can be stained with diprospan for better visualization, and the process can also be performed without staining, for example, under the control of intraoperative optical coherence tomography. The needle of an ultrasonic vitreo tome is installed at the border of the perifoveal zone, after which ultrasound is supplied with a minimum power (from 5% of the maximum, which corresponds to an amplitude of 5 microns), which, if necessary, can be increased to 10-20% (an amplitude of 10-20 microns), depending on the density of the dissected posterior hyaloid membrane. The posterior hyaloid membrane is emulsified and aspirated with the formation of an "island" fixed to the foveal fossa. Further separation of the "island" of the posterior hyaloid membrane from the foveal fossa is performed using aspiration at low vacuum levels (100-200 mm Hg) by aspiration of the edge of the "island" of the posterior hyaloid membrane into the lumen of the ultrasonic vitreo tome and by carefully displacing the needle of the vitreo toome along the adhesion plane in the centripetal direction, relative to the densest adhesion region. The choice of further tactics (peripheral vitrectomy, removal of the internal border membrane, endotamponade of the vitreous cavity) is performed depending on the surgical situation, necessity and feasibility.

The essence of the invention is illustrated by the following figures:

FIG. 1 shows a diagram of the installation of three valve ports: one port 1 - in the lower-outer sector of the eyeball (at 8 o'clock for the right eye, at 16 o'clock - for the left), through which permanent intraocular irrigation 2 is established, and through two other ports 3 and 4 at the 2 and 10 o'clock meridians, the endo-illuminator 5 and the needle 6 of the ultrasonic vitreotome are introduced.

FIG. 2 demonstrates the technique of forming an "island" 7 of the posterior hyaloid membrane around the adhesion zone 8 using a needle 6 of an ultrasonic vitreotome.

FIG. 3 shows a schematic representation of the process of separating the "islet" 7 of the posterior hyaloid membrane from the adhesion zone 8 in the sagittal cut by aspiration of the edge of the previously created "island" of the posterior hyaloid membrane into the lumen of the needle 6 of the ultrasonic vitreo tome (6) and careful displacement of the needle of the vitreo tome (6) along the plane adhesion zones 8.

Symptomatic vitreomacular adhesion (VMA) is the local attachment of the posterior hyaloid membrane to the retinal surface against the background of its complete detachment from the rest of the retina (Sebag J. et al., 2012). At the same time, increasing vitreomacular traction causes anatomical abnormalities in the retina, which leads to the development of vitreomacular traction syndrome (Carpineto P. et al., 2011) (see Stebnev V.S., Malov V.M. "Symptomatic vitreomacular adhesion: options for natural non-surgical current ", M," Modern technologies for the treatment of vitreoretinal pathology ", 2013).

It is the formation of local attachment of the posterior hyaloid membrane to the surface of the retina not in the form of mutual fixation with each other with the formation of an inseparable bond, but in the form of attachment under the action of mutual adhesion that made it possible to create a new method for the safe separation of the posterior hyaloid and the surface of the retina due to aspiration detachment of the "islet" of the posterior hyaloid membrane formed using an ultrasonic vitreotome at very low vacuum values in the aspiration channel. The essence of the method is based on identifying the location of the local zone of maximum (highest in strength) adhesive attachment of tissues to each other. Then, with the help of an ultrasonic vitreotome, the tissue of the posterior hyaloid membrane is dissected around the location of the local zone with an adhesive contact. And after that, in a gentle mode, during aspiration, they capture the edge of the dissection site from the side of the "island" of adhesion and pull this edge away from the epicenter of the adhesive contact. During vacuum gripping, the cutting edge begins to deform, which leads to a point detachment of the posterior hyaloid membrane from the foveal fossa. With aspiration, this separation process (due to an increase in the deformed surface of the "island") increases, which ultimately leads to the neutralization of the contact interaction.

The presented method for elimination of vitreomacular adhesion using an ultrasonic vitreotome allows effectively, quickly and safely eliminate vitreomacular adhesion, reduces the undesirable traction effect of the posterior hyaloid membrane in relation to the macular retina in the zone of the "island" being formed.

The effectiveness of the proposed method is illustrated by the following clinical examples.

Example 1. Patient K., 60 years old. Upon admission: OD - complaints of distortion of objects, decreased visual acuity. When examining: OD: Visus - 0.6, does not correct, visual fields are normal, intraocular pressure (non-contact pneumotonometry) = 13 mm Hg. Art. With ophthalmoscopy: the anterior chamber of the eye is of medium depth, the cornea is transparent, the iris is without pathology, initial opacities in the lens nucleus, the vitreous body - pronounced floating destruction. The fundus of the eye: the optic nerve head is pale pink, clear boundaries, medium-sized vessels, smoothness of the foveal reflex. Optical coherence tomography: Symptomatic vitreomacular adhesion in the fovea.

An operation was performed to eliminate vitreomacular adhesion using the proposed method using an ultrasonic vitreotome and instruments of 25G caliber, followed by tamponade of the vitreous cavity with saline.

The next day after the operation, the vision of the right eye improved to 0.7, does not correct.

Viewed OD: anterior chamber of the eye of medium depth. The cornea is transparent. Lens - initial opacities in the nucleus. Vitreal cavity: Avitria. The fundus of the eye: the optic nerve head is pale pink, the boundaries are clear, the vessels are of medium caliber. Optical coherence tomography OD: vitreomacular adhesion is absent, thickening and deformation of the retina in the fovea region persists. The remnants of the posterior hyaloid membrane are not visualized.

After 1 month, the visual acuity of the right eye is 0.9, does not correct.

Example 2. Patient O., 56 years old. On admission: OS - complaints of decreased vision, metamorphopsia. When examining: OS: Visus - 0.5, does not correct. Visual fields are normal. Intraocular pressure (non-contact pneumotonometry) = 15 mm Hg. Art. With ophthalmoscopy: The anterior chamber of the eye is of medium depth. The cornea is transparent. The iris is without pathology. Artifakia. Intraocular lens (IOL) in the capsule bag, centered. Vitreous humor: gentle floating destruction. The fundus of the eye: the optic nerve head is pale pink, the boundaries are clear, the vessels of medium caliber, the smoothness of the foveal reflex with the appearance of a yellowish rim. Optical coherence tomography - on the OCT tomogram, symptomatic vitreomacular adhesion of the posterior hyaloid membrane is visualized with the formation of stage 1b idiopathic macular foramen.

An operation was performed on the left eye using the claimed method with performing subtotal ultrasonic 25 G vitrectomy and endotamponade of the vitreous cavity with sterile air.

The next day after the operation, the visual acuity of the left eye is due to the presence of a gas-air mixture in the vitreous cavity of the face. On examination: the anterior chamber of the eye is of medium depth. The cornea is transparent. IOL in a capsule bag, centered. Vitreal cavity: Avitria. Tamponade with sterile air. The fundus of the eye: Not ophthalmoscopic. The reflex is uniformly pink.

After 1 month, the vision of the left eye is 0.7, does not correct. Optical Coherence Tomography - Fovea profile restored. The histoarchitectonics of the retinal layers is not disturbed. The remnants of the posterior hyaloid membrane are not visualized. The idiopathic macular opening is closed.

Claims (1)

A method for eliminating vitreomacular adhesion, characterized by the fact that transconjunctival scleral punctures are made in the eyeball in the projection of the flat part of the ciliary body, a needle of an ultrasonic vitreotome, an endo-illuminator are installed and a constant supply of irrigation solution is provided, after which, using ultrasonic vibrations with an amplitude of 5-20 microns at the end the needles of an ultrasonic vitreotome dissect the posterior hyaloid membrane around the macular zone, form an islet of the posterior hyaloid membrane, fixed to the foveal fossa, and then using vacuum aspiration 100-200 mm Hg. Art. the islet of the posterior hyaloid membrane is separated from the foveal fossa.

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