RU95253U1 - EYE LENS - Google Patents

Abstract

 An eye lens made of polymer, glucose and purified water, characterized in that the polymer used is a natural substance - sodium alginate.

Description

The utility model relates to the field of medical equipment in ophthalmology and can be used for the introduction of eye drops.

Soft contact lenses (MKL) are made from polymer hydrogels, which are widely used as drug carriers for the treatment of various eye diseases. Such hydrogels are compatible with the tissues of the eye, have good optical properties and provide access to the necessary amount of oxygen to the cornea.

The use of a lens as a device for administering drugs to the eye allows not only to prolong, but also to regulate the continuous release of the drug during the entire contact time of the ophthalmic therapeutic system with the cornea of the eye. The use of MKL in conjunction with a solution for lenses and a drug can reduce the likelihood of microbial contamination, increase the targeted release of the drug into the required parts of the eye, perform a bandage function, which is an important aspect in the treatment of eye diseases, as well as in the postoperative period.

Known contact lens made of polymer material 2 - hydroxyethyl methacrylate with a dry lens weight of 25.5 mg with a water content of 38% in it (RU No. 2336851, 10.27.2008). The lens is impregnated with a drug - an antibiotic from a number of fluoroquinolones - levofloxacin with a mass of 0.035 mg per 1 mg of the dry polymer of the lens at a concentration of 0.5% in an aqueous solution.

The disadvantage of this lens is that the material from which it is made is a polymer with a moisture content of 38%, which is not enough for continuous wear of soft contact lenses. Low moisture content leads to an insufficient supply of oxygen to the tissues of the eye, which in turn causes corneal edema and threatens with various complications. However, in the treatment of various eye diseases, the necessary long-term wearing of a contact lens. In addition, a number of researchers note that with an increase in the moisture content of hydrogels, an increase in the penetration of drugs into the eye tissue is observed (Pak V.Kh., Zhevnyak V.D., Dikunova T.V., Shraibman G.N. RESEARCH OF EXCHANGE PROPERTIES OF POLYMERIC HYDROGEL FOR SOFT CONTACT LENSES // Polzunovsky Almanac, 2007, No. 1-2, S.127-129).

In addition, this lens is a factory-made drug and, as a device, is not intended for reuse.

A contact lens is also known (RU No. 2251394, May 10, 2005) made from gelatin and additives, characterized in that it contains glucose, alkali metal hydroxide, distilled water as additives.

The disadvantage of this invention is that gelatin is used as gelatin, which can swell in the tear fluid and create a feeling of tension in the eye area. Gelatin as a polymer of protein nature can sometimes cause allergic reactions. In addition, such a lens can be inferior in terms of mechanical and optical parameters to lenses made of synthetic materials (A.A. Kivaev, E.I. Shapiro “Contact vision correction”, M., publishing house “LDM Service”, 2000).

The objective of the proposed utility model is to create a medical device, an ophthalmic lens, from a material with high moisture content, which allows the patient to repeatedly inject sterile liquid drugs (water eye drops) of various pharmacological groups into the eye with a long therapeutic effect.

The problem is solved using an ophthalmic lens made of a polymer, and the natural substance sodium alginate (4.0-4.5%) is used as the polymer. The eye lens contains auxiliary substances in the form of glucose (3.0-4.0%) and purified water (91.5-93.0%).

This lens contains enough water to provide oxygen to the eye tissue.

Sodium alginate (a derivative of plant polysaccharide obtained from the thallus of kelp), in turn, has a high sorbing ability, a pronounced hypoallergenic effect, has a high surface activity, contributes to the creation of an optimal pH environment for the eyes. Sodium alginate is able to prolong the release of many active substances, including antibiotics. In addition, alginates are able to enhance the beneficial pharmacological properties of the active substances, as well as facilitate their delivery to the target organ.

A medical device - an eye lens works as follows. At home or stationary conditions, the lens is removed from a traditional sealed sterile package and placed directly in the eye drops necessary for treatment to saturate the active ingredient. Then, after reaching the optimal concentration of the drug in the ophthalmic lens, it is placed on the cornea of the eye, and the process of releasing the drug directly onto the mucous membrane of the eye begins.

After use for the time necessary to ensure the pharmacological effect, the lens is removed from the surface of the mucous membrane of the eye and placed in a disinfectant solution until the next use.

Application example 1. Saturation of contact lenses with an immunomodulator solution.

The immunomodulator used is highly effective for viral and bacterial conjunctivitis, keratitis, postoperative and traumatic eye injuries, including burns of the cornea and conjunctiva. The drug is used in the form of instillations.

An eye lens is placed in a solution with a therapeutic concentration of the drug. At regular intervals (from 1 to 11 hours), samples are taken in 1 ml of solution. This volume is placed in a 100 ml volumetric flask and made up to the mark with water and mixed. The optical density of the resulting solutions is measured and a graph of the residual concentration of the drug substance in the solution after saturation of the eye lenses is obtained.

Optical density and residual concentration of the drug in solution No. p / p Clock Indicators Optical density Concentration,% one. one 0,501 0.167 2. 2 0.551 0.184 3. 3 0.510 0.17 four. four 0.515 0.172 5. 5 0.452 0.151 6. 6 0.383 0.127 7. 7 0.191 0,093 8. 8 0.955 0,032 9. 9 0.1565 0,052 10. 10 0,132 0,044 eleven. eleven 0.146 0,048

The data obtained indicate that after 8 hours there is a minimum concentration of the drug in solution, and, therefore, a maximum of its content in the ophthalmic lens. Subsequent maintenance of the drug concentration confirms the sustained release of the drug from the ophthalmic lens.

Thus, the proposed eye lens made on the basis of sodium alginate, glucose and purified water allows you to use it for prolonged reusable administration of the drug in the form of eye drops.

Claims (1)

An eye lens made of polymer, glucose and purified water, characterized in that the polymer used is a natural substance - sodium alginate.