MD1907Z - Method for treating non-infectious ocular inflammatory process - Google Patents

Abstract

The invention relates to medicine, in particular to ophthalmology and can be used for treating non-infectious ocular inflammatory processes.Summary of the invention consists in that local anesthesia is performed, the operating field is processed, corneal incisions are made at the level of 9:00, 11:00 and 15:00 hours in the perilimbal region, then 1% mezatone solution, sterile air, 0.4% trypan blue solution, 0.9% physiological solution and a viscoelastic substance are introduced intracamerally. After which capsulorhexis, hydrodissection, hydrodelineation and extracapsular lens extraction by phacoemulsification are performed and a foldable artificial lens is implanted. Then, an access is created into the vitreous cavity at a distance of 4 mm from the limbus by applying trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission are performed. After that, the sclera is sutured, and the vitreous cavity is restored by filling it with 0.9% physiological solution, and the corneal incisions are sealed with hydrosutures.

Description

The invention relates to medicine, in particular to ophthalmology and can be used for the treatment of non-infectious ocular inflammatory process.

[0002] Inflammatory eye diseases include uveitis, scleritis, and inflammation of adjacent structures of the eye. Chorioretinitis is a type of uveitis involving the posterior segment of the eye, which includes inflammation of the choroid and retina of the eye. Although the term uveitis refers to inflammation of the uveal tract (iris, ciliary body, and choroid), it can involve adjacent structures such as the retina, retinal vessels, vitreous humor, optic nerve head, and sclera. The Standardization of Uveitis Nomenclature (SUN) Working Group (Jabs D.A., Nussenblatt R.B., Rosenbaum J.T. Standardization of uveitis nomenclature for reporting clinical data. Results of the First International Workshop. Am. J. Ophthalmol. 2005 Sep, vol. 140(3), p. 509-516) classified uveitis into anterior (iritis, iridocyclitis, anterior cyclitis), intermediate (pars planitis, posterior cyclitis, hyalitis), posterior uveitis (choroiditis, chorioretinitis, retinochoroiditis, and retinitis), and pathological, depending on the anatomical location of the retinitis.

[0003] The causes of the ocular inflammatory process can be certain ocular injuries, such as trauma, autoimmune and inflammatory diseases, such as rheumatoid arthritis, sarcoidosis, Behcet's syndrome, certain genetic diseases. The ocular inflammatory process can involve several ocular formations, namely the anterior uvea and the lens, it can be posterior uveitis with the involvement of the vitreous body, lens and retina, which are more common in the case of direct trauma to the eyeball.

[0004] The main symptoms of the ocular inflammatory process are:

[0005] - hemorrhages in the eyes, which can be established paraclinically;

[0006] - tearing;

[0007] - sensitivity to light;

[0008] - blurred vision or severe vision loss;

[0009] - sudden flashes of light;

[0010] - pain in the eyeball.

[0011] Uveitis is an inflammatory process that initially begins in the uvea, but can also affect other adjacent ocular structures, and is currently the fourth leading cause of blindness in developed countries.

[0012] The treatment of uveitis with corticosteroids and immunosuppressive therapy is a common practice. Since the involvement of various cytokines in uveitis has been well demonstrated, most recent treatments include inhibitors or antibodies against these cytokines [1].

[0013] Also known is the method of treatment of uveitis, which includes existing treatments for ocular inflammation, including corticosteroids, antimetabolites, alkylating agents, T-cell inhibitors and biological agents [2].

[0014] The method of treatment of inflammatory ocular diseases is known, which includes the administration of corticosteroids, antimetabolites, calcineurin inhibitors, alkylating agents and biological agents [3].

[0015] The disadvantages of the mentioned methods are that in many cases the treatment is not effective, is long-lasting and the total number of relapses is high, due to the interruption of the pathogenetic chain.

[0016] The problem solved by the invention consists in developing an effective method for treating the non-infectious inflammatory process of the eyeball, which would eliminate the disadvantages of known methods, namely interrupting the pathogenetic chain of the ocular inflammatory process in its stabilization phase, which leads to a decrease in the total number of relapses and at the same time to an increase in the remission period.

[0017] The essence of the invention consists in that local anesthesia is performed, the operating field is processed, corneal incisions are performed at 9:00, 11:00 and 15:00 in the perilimbal region, then 1% mezatone solution, sterile air, 0.4% trepan blue solution, 0.9% physiological solution and a viscoelastic substance are introduced intracamerally, after which capsulorhexis, hydrodissection, hydrodelineation and extracapsular extraction of the lens by phacoemulsification are performed and a foldable artificial lens is implanted, then an access is created in the vitreous cavity at a distance of 4 mm from the limbus with the application of trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission are performed, after which the sclera is sutured, and the vitreous cavity is It is restored by filling it with 0.9% saline solution, and the corneal incisions are sealed with hydrosutures.

[0018] The result of the invention consists in stabilizing the ocular inflammatory process, which leads to stopping the progression of the inflammatory process and degenerative processes, which leads to the prevention of vision loss, to reducing the total number of relapses and at the same time to increasing the remission period.

[0019] The advantages of the invention consist in:

[0020] - stabilization of the ocular inflammatory process in contrast to known treatment methods, which interrupt the inflammatory process only for a short period;

[0021] - stopping the progression of the inflammatory process and degenerative processes;

[0022] - prevention of vision loss;

[0023] - reducing the total number of relapses;

[0024] - increasing the remission period.

The method is carried out in the following manner.

[0026] After clinical and paraclinical examination and establishing the diagnosis of inflammatory process of the eyeball in the stabilization phase, the surgical intervention according to the proposed invention is performed. The operation is performed under a microscope. Local anesthesia is performed, the operating field is prepared, corneal incisions are made at 9:00, 11:00 and 15:00 in the perilimbal region, then 1% mezatone solution, sterile air, 0.4% trepan blue solution, 0.9% physiological solution and a viscoelastic substance are introduced intracamerally, after which capsulorhexis, hydrodissection, hydrodelineation and extracapsular extraction of the lens by phacoemulsification are performed and a foldable artificial lens is implanted, then access is created in the vitreous cavity at a distance of 4 mm from the limbus by applying trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission are performed, after which the sclera is sutured, and the vitreous cavity is restored by filling it with physiological solution of 0.9%, and the corneal incisions are sealed with hydrosutures.

[0027] 0.4% trypan blue solution is used as a cell stain to assess cell viability using the dye exclusion test. Viscoelastics are substances with dual properties, having the viscosity of a fluid and the elasticity of a gel or solid. Viscoelastics have revolutionized modern cataract surgery due to their viscous, elastic, and pseudo-plastic properties. They are also called ophthalmic viscosurgical devices (OVDs), as introduced by the International Organization for Standardization (ISO).

[0028] Capsulorhexis is the commonly used technique and is known as continuous curvilinear capsulorhexis (CCC), is a surgical technique used to remove the anterior and central part of the lens capsule from the eye during cataract surgery by shearing and traction. Phacoemulsification is a surgical procedure used in ophthalmology to remove cataracts, an opacification of the lens of the eye, which leads to impaired vision, it involves the fragmentation and aspiration of the affected lens, followed by the implantation of an artificial lens to restore clear vision.

[0029] The invention was implemented on 14 patients with satisfactory postoperative results.

[0030] Embodiments of the invention.

Example 1

[0032] Patient C.V., 31 years old. At the age of 20, he suffered from acute chorioretinitis with hemophthalmus. He went to an ophthalmologist in Israel. After diagnosis, he was proposed and performed surgical treatment of partial vitrectomy, local laser photocoagulation, pulse therapy with prednisolone. Postoperatively, there was a remission for 6 years. Subsequently, in the last 5 years, there was an exacerbation of the chronic intraocular inflammatory process, which was treated with antibiotics, nonsteroidal anti-inflammatory drugs, steroidal anti-inflammatory drugs and biological drugs. The process stabilized, surgical treatment was proposed, according to the invention, namely, local anesthesia was performed, the operating field was processed, corneal incisions were performed at 9:00, 11:00 and 15:00 in the perilimbal region. Then, 1% mezatone solution, sterile air, 0.4% trepan blue solution, 0.9% saline solution and a viscoelastic substance were introduced intracamerally. After that, capsulorhexis, hydrodissection, hydrodelineation and extracapsular extraction of the lens by phacoemulsification were performed and a foldable artificial lens was implanted. Then, an access to the vitreous cavity was created at a distance of 4 mm from the limbus by applying trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission were performed. After that, the sclera was sutured, and the vitreous cavity was restored by filling it with 0.9% saline solution, and the corneal incisions were sealed with hydrosutures.

[0033] Postoperative OD-quiet. Central vision (AV) 0.7...0.8 n.c. Signs of inflammation are absent, an old chorioretinal focus was determined at the fundus of the eye, without signs of exacerbation. The patient was discharged in satisfactory condition. At the repeated examination after 3 months objectively without signs of exacerbation, i.e. stabilization of the ocular inflammatory process was determined.

Example 2

[0035] Patient S., 48 years old, suffered at the age of 40 years from bilateral neurouveoretinitis and anterior uveitis, with a sudden decrease in visual functions, damage to the vitreous body. The inflammatory process on the background of polyarthritis, chronic tonsillitis of undetermined etiology, with relapses every 3...6 months, affecting visual functions. The patient was on record and had periodic consultations with a rheumatologist. Treatment with nonsteroidal anti-inflammatory drugs, steroidal anti-inflammatory drugs, biological treatment was indicated. Despite the indicated treatment, visual functions (central vision, peripheral vision) were diminished. The lens, the vitreous body gradually became opaque. It was decided to propose surgical treatment, according to the invention, namely local anesthesia was performed, the operating field was processed, corneal incisions were performed at 9:00, 11:00 and 15:00 in the perilimbal region. Then 1% mezatone solution, sterile air, 0.4% trepan blue solution, 0.9% physiological solution and a viscoelastic substance were introduced intracamerally. After which capsulorhexis, hydrodissection, hydrodelineation and extracapsular extraction of the lens by phacoemulsification were performed and a foldable artificial lens was implanted. Then an access was created in the vitreous cavity at a distance of 4 mm from the limbus with the application of trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission were performed. After which the sclera was sutured, the vitreous cavity was restored by filling it with 0.9% saline solution, and the corneal incisions were sealed with hydrosutures.

[0036] The intervention was performed on both eyes. Postoperatively, after 7 days both eyes were calm. He was discharged in satisfactory condition. Postoperatively, at 3, 6 and 12 months and for 5 years both eyes were calm, visual functions with a tendency to improve. Consultation every 6 months with an ophthalmologist and a rheumatologist.

[0037] 1. Salvador Merida, Elena Palacios, Amparo Navea, Francisco Bosch-Morell, New immunosuppressive therapies in uveitis treatment, International Journal Mol. Sci, vol. 16(8), 2015, p. 18778-95, Found on the Internet < https://pubmed.ncbi.nlm.nih.gov/26270662/>

[0038] 2. Theresa G. Leung, Jennifer E. Thorne, Emerging drugs for the treatment of uveitis, Expert Opin Emerg Drugs, vol. 18(4), pp. 513-21, Found on the Internet < https://pubmed.ncbi.nlm.nih.gov/24274613/>

[0039] 3. Breno R. Lima, Robert B. Nussenblatt, H. Nida Sen, Pharmacogenetics of drugs used in the treatment of ocular inflammatory diseases, Expert opin drug metab toxicol, vol 9(3), 2013, p. 875-82, Found on the Internet < https://pubmed.ncbi.nlm.nih.gov/23521173/>

Claims (1)

1. Method of treatment of non-infectious ocular inflammatory process, which consists in performing local anesthesia, processing the operating field, performing corneal incisions at 9:00, 11:00 and 15:00 in the perilimbal region, then intracamerally introducing 1% mezatone solution, sterile air, 0.4% trepan blue solution, 0.9% physiological solution and a viscoelastic substance, after which capsulorhexis, hydrodissection, hydrodelineation and extracapsular extraction of the lens by phacoemulsification are performed and a foldable artificial lens is implanted, then an access is created in the vitreous cavity at a distance of 4 mm from the limbus with the application of trocars in two places in the temporal quadrant and one place in the nasal quadrant and total vitrectomy and laser coagulation of the retina around the chorioretinal focus in remission are performed, after which the sclera is sutured, and the vitreous cavity is restored by filling it with 0.9% saline solution, and the corneal incisions are sealed with hydrosutures.