RU2629245C1 - Method for evisceration in case of eyeball subatrophy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: posterior pole, nevrectomy, eye inner membranes removal is performed. Crosswise incision is performed throughout the sclera in the intermuscular spaces in the four meridians with formation of flaps. The edges are spread, and the formed defects of the sclera are filled with polytetrafluoroethylene plates and hemmed to the flaps edges. The plates are preferably 0.2-0.5 mm thick. The dimensions of scleral defects are determined depending on the volume of the scleral capsule and the size of the orbital implant. Plates of predominantly trapezoidal form are sutured to the sclera with nodular sutures. The plate can be perforated and have apertures of 1-2 mm, located in staggered order.

EFFECT: obtaining of an adequate cosmetic effect with formation of a musculoskeletal stump of the required volume.

7 cl, 1 ex

Description

The invention relates to ophthalmology and is intended for reconstructive operations when removing the eye with the formation of the musculoskeletal stump.

Eye injury and its consequences are the leading cause of eye removal (Gundorova R.A., Neroev V.V., Kashnikov V.V. Eye injuries. M: GEOTAR-Media; 2009: 553 p.).

Complications of an injury can lead to complete loss of vision, disability of the injured, and the risk of developing sympathetic ophthalmia in the double eye (Gundorova R.A., Arkhipova L.T., Verigo E.N., Kataev M.G. Complications of severe penetrating wounds, indications and methods eyeball removal. Method. Rec .. M: 2001: 20 p.), (Filatova IA, Verigo EN, Tkhelidze NR, Beraya MZ Influence of the quality of surgical treatment of subconjunctival scleral ruptures on their outcome.Vestnik of Ophthalmology. 2005; 6: 25-26).

Removing the injured eye in some cases is a necessary measure for protecting the double eye from possible consequences, as well as with reconstructive plastic purpose. (Gundorova R.A., Neroev V.V., Kashnikov V.V. Eye injuries. M.: GEOTAR-Media; 2009: 553 p.).

In the modern world, patients began to pay more attention to their appearance, which determines their increased requirements for the results of an eye removal operation.

It is known that cosmetic results after removal of the eye by the method of evisceration with plastic surgery of the stump are superior to the results obtained after enucleation of the eye. The advantages of evisceration are that the scleral membrane with extraocular muscles attached to it remains in the most correct anatomical ratio of the orbital tissues, which in turn provides greater stump strength due to the scleral capsule and its maximum mobility, which is a very important point in patient rehabilitation. (I.A. Filatova, E.N. Verigo, I.A. Pryakhina, E.P. Sadovskaya. The role of the anatomical and clinical manifestations of trauma in the choice of eye removal method, RZH 2014, vol. 7, No. 4, pp. 52-53 )

The surgeon can not always choose this method of operation, for example, with significant subatrophy of the eyeball, because the reduced volume of the cavity of the atrophic sclera does not allow to place the orbital implant of the desired size, which leads to a decrease in the volume of the musculoskeletal stump.

Today, there are various ways of forming the musculoskeletal stump when performing evisceration using anterior or posterior approach during orbital implant implantation.

A known method of evisceration during subatrophy of the eyeball, in which, to form the musculoskeletal stump of the eye, cross-shaped incisions of the cornea and sclera of the eyeball are performed. An implant is placed in the scleral cavity. Horizontal and vertical corneoscleral flaps are displaced diagonally relative to each other and are joined end-to-end with lateral edges in pairs with the formation of scleral duplicate (RU 2187986, 08.27.2002).

A known method of posterior evisceration with implantation of an intraorbital insert made of polytetrafluoroethylene "Ecoflon" (Russian ophthalmology online, www.eyepress.ru/article.aspx?14089). With this method, a scleral incision is performed at a distance of 2-3 mm from the optic nerve with a length of 270 °; 3 radial incisions of the sclera, removal of the contents of the fibrous capsule of the eye; placing an implant in the cavity of the fibrous capsule of the eyeball; suturing of scleral sections; turn to the starting position of the eyeball.

The disadvantages of these methods are the preservation of the cornea, which subsequently can provoke inflammation and an intolerance reaction of the prosthesis, as well as the inability to form a bulk musculoskeletal stump with atrophy and deformity of the sclera due to the limited volume of the scleral glass of the subatrophic eye.

The closest analogue of the proposed is a method of evisceration during subatrophy of the eyeball, in which a sclera is made in a cruciform cross in the posterior pole of the eyeball, the contents of the eyeball are removed, the implant is placed in the scleral cavity and the apexes of the scleral flaps are connected. At the same time, patches of donor sclera of an appropriate size are applied to areas with absent scleral tissue and sutured to the edges of their sclera with interrupted sutures (patent RU 2477109, 03/10/2013).

This method allows to increase the volume of the scleral cavity. However, the hemming of one flap of the donor sclera from either side leads to disruption of the meridional location of extraocular muscles, which can lead to a violation of the direction of movement of the formed stump. In addition, the use of donor sclera in itself is associated with problems in obtaining donor material and biological compatibility.

The objective of the invention is to further improve the method of posterior evisceration with subatrophy of the eyeball.

The technical result of the invention is to obtain an adequate cosmetic effect with the formation of the musculoskeletal stump of the required volume.

The technical result is achieved by increasing the volume of the scleral cavity by increasing the area of the sclera by additional implantation of plates of polytetrafluoroethylene (PTFE) between the scleral flaps.

PTFE is a fairly common material used as implants in the surgical practice of various fields (Mikhailov IV, Sidorchuk SV, Lavrusenko SR Polytetrafluoroethylene in medicine. Plastics. 2001, No. 8, p. 38-41). PTFE is a strong and at the same time flexible material, which makes its application simple and convenient. The PTFE implant germinates well with connective tissue and together with the sclera forms a strong coating of the front and side surfaces of the orbital implant, which prevents its exposure in the long-term postoperative period. Polytetrafluoroethylene practically does not cause allergic reactions.

Implants of the required size and shape, hemmed between the sclera flaps in the intermuscular spaces in the 4 meridians, can significantly increase the area of the scleral capsule for implantation in it and completely cover the sclera with flaps of an optimal orbital implant in size. The thickness of the plates of PTFE is selected individually in accordance with the thickness of the sclera of the patient, mainly 0.2-0.5 mm. The size of the defects of the sclera is determined depending on the volume of the scleral capsule and the size of the orbital implant. Mostly the plates are trapezoidal in shape. For better germination of the plates with connective tissue, perforated plates with a predominant diameter of perforations of 1-2 mm arranged in a checkerboard pattern can be used.

The method is as follows: after conventional anesthesia and treatment of the surgical field, a para-limbal incision of the conjunctiva and sclera is performed, the contents of the eyeball are removed, and the posterior pole is resected. A cross-shaped incision is performed throughout the sclera in the intramuscular spaces in the four meridians with the formation of flaps, push their edges apart, the resulting scleral defects are filled with four plates of polytetrafluoroethylene, at the same time they are sutured to the edges of the sclera flaps with interrupted sutures, an orbital implant is placed into the sclera cavity . Use plates with a thickness of mainly 0.2-0.5 mm. In this case, the size of the defects of the sclera is determined depending on the volume of the scleral capsule and the size of the orbital implant. The plate may have a trapezoidal shape, and may also be perforated with holes, in particular, with a diameter of 1-2 mm, staggered.

Example. Patient S. Admitted to the SRI them. Helmholtz in the department of ophthalmoplastic surgery and ophthalmic prosthetics with a diagnosis of: OD - The consequences of trauma: amaurosis, post-traumatic subatrophy of the eyeball 3 degrees. At the time of the initial inspection: Vis. OD = 0. IOP = palpation 2-, the eye is slightly irritated, reduced in size, deformed, the cornea is cloudy, reduced in size, deformed, the underlying tissues were not visible, the mobility of the eye was preserved in full. Negative blood test for sensitization to eye antigens. The patient was performed evisceration by the proposed method. After conventional anesthesia and treatment of the surgical field, a para-limbal incision of the conjunctiva and sclera was performed, the contents of the eyeball were removed, and the posterior pole was resected. A cruciate incision was made throughout the sclera in the intermuscular spaces in the four meridians with the formation of flaps. The edges of the flaps were widened, the sizes of the defects of the sclera were determined in accordance with the volume of the scleral capsule and the size of the orbital implant.

Scleral defects were filled with 0.3 mm thick perforated polytetrafluoroethylene plates and hemmed to the edges of the scleral flaps, a 19 mm PTFE orbital implant was placed in the scleral cavity, the anterior scleral edges were sutured with interrupted sutures, and the wounds were sutured in layers. The prosthesis was placed in the conjunctival cavity at the end of the operation. Put on a tight bandage bandage. The first ligation was performed after 4 days. The postoperative period was uneventful, wound healing at the usual time. The patient underwent step prosthetics for 6 months, then made an individual prosthesis. The position of the prosthesis was correct, lagophthalmos was not observed, the stump had a sufficient volume and a flat-convex shape, in the correct central position, the surface was pink, no translucent implant was observed, the mobility of the prosthesis was within 128 ° (in total in the four main meridians), the prosthesis was retracted and the upper eyelid was not observed.

Thus, the use of the above method of evisceration allows the formation of a musculoskeletal stump with a sufficiently large volume by increasing the area of the scleral capsule, which, in turn, allows the use of an orbital implant of a sufficient volume, increases the effectiveness of surgical treatment and cosmetic rehabilitation of patients after eye removal after severe injuries with marked changes in the inner membranes and sclera. The application of the proposed method expands the indications for evisceration and eliminates the use of donor sclera.

Claims (7)

1. A method of evisceration in case of subatrophy of the eyeball, including resection of the posterior pole, neurectomy, removal of the inner membranes of the eye, a cruciate incision of the sclera and plastic stump with an orbital implant, characterized in that the cruciform incision is performed throughout the sclera in the intermuscular spaces in the four meridians with the formation of flaps , push their edges apart, and the sclera formed defects are filled with polytetrafluoroethylene plates and hem them to the edges of the flaps. 2. The method according to p. 1, characterized in that the use of a plate with a thickness of 0.2-0.5 mm 3. The method according to p. 1, characterized in that the size of the defects of the sclera is determined depending on the volume of the scleral capsule and the size of the orbital implant. 4. The method according to p. 1, characterized in that the plates are hemmed to the sclera with interrupted sutures. 5. The method according to p. 1, characterized in that the plate has a trapezoidal shape. 6. The method according to p. 1, characterized in that the plate is perforated. 7. The method according to p. 6, characterized in that the plate has holes with a diameter of 1-2 mm, arranged in a checkerboard pattern.