RU2608199C2 - Device for eye accommodation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical devices. Intraocularly implanted device for accommodation of eye comprises an electric part, mechanical unit for changing an optical power of the eye and intraocular lens. Electrical part comprises two recording electrodes, one ends of which are placed in the ciliary sulcus between the fibers of the ciliary muscle, while opposite ends of recording electrodes are connected to electric signal amplifier; power supply is connected in parallel to the electric signal amplifier; two transmitting electrodes, one ends of which are connected to the electric signal amplifier, and the opposite ends are connected with the mechanical unit for changing an optical power of the eye to transmit to it an electrical signal from the recording electrodes. Mechanical unit for changing an optical power of the eye is designed to interact with intraocular lens in response to the electrical signal from the transmitting electrodes for measuring optical power.

EFFECT: use of the present invention will improve the visual acuity at far, near and any intermediate distances.

4 cl, 4 dwg

Description

The present invention relates to medicine, namely to ophthalmology, and can be used to restore the accommodation of the eye after phacoemulsification with implantation of an intraocular lens (IOL).

To provide visual functions for long and short distances during artifact, several IOL models are currently being produced: multifocal (for example, AcrySof Restor, Alcon, USA) and pseudo-accommodating (for example, CrystaLens, Baush + Lomb, USA or lenses with “double optics” - Synchrony, AMO, USA).

However, these options do not always give a good effect. After implantation of multifocal IOLs due to the complex design of the optical part, patients can observe light scattering circles around bright light sources, a decrease in contrast sensitivity and lower than usual visual quality. Pseudo-accommodating lenses mimic accommodation, moving back and forth due to the tension of the capsule bag during the operation of the ciliary muscle. Nevertheless, the fibrosis of the capsular bag, which inevitably develops after surgery, and the fibrosis of the zinc ligament over time lead to a decrease and then to the complete disappearance of the effect of the ciliary muscle on the capsular bag and, therefore, on the ability of the lens to move. This leads to a gradual decrease or complete disappearance of the accommodation effect of these IOL models. Numerous studies have shown that ciliary muscle remains active throughout a person’s life (RF Fisher. The force of contraction of the human ciliary muscle during accommodation // Physiol. 1977 August; 270 (1): 51-74.1; RF Fisher. The mechanics of accommodation in relation to presbyopia. Eye, 1988 2, 646-649). It is the principle of preservation of the electrical activity of the ciliary muscle that is used in the operation of the described device.

The technical result of the invention is an adequate amount of accommodation of the eye after phacoemulsification with IOL implantation, that is, high visual acuity at far, near and any of the intermediate distances.

The specified technical result is achieved in that the device for accommodation of the eye consists of an electrical part and a mechanical unit for changing the optical power of the eye. The electrical part is designed in such a way that the recording electrodes are connected in series with the electric signal amplifier and in parallel with the power supply unit, followed by transmitting electrodes, which are then connected to the IOL via a mechanical unit for changing the optical power of the eye. The device is implanted intraocularly, the working ends of the recording electrodes are placed in a ciliary groove between the fibers of the ciliary muscle. There are several options for a mechanical assembly for changing the optical power of the eye. Firstly, it can be made in the form of a spring, which is fixed to the optical part of the IOL. Secondly, it can be made in the form of levers, one of which is fixed to the periphery of the optical part of the IOL, the second lever is fixed to the haptic part, while the levers are connected to each other by means of a spring at the transition point of the optical part to the haptic. Thirdly, the mechanical node for changing the optical power of the eye can be made in the form of a spring connecting two parallel optical elements of the optical part of the IOL.

The device operates as follows. The recording electrodes in contact with the ciliary muscle perceive its electrical activity. Next, an electrical signal is transmitted to the amplifier. It should be noted that the dimensions of modern semiconductor elements are very small, for example, in processors or any other high-tech technique, the size of a semiconductor transistor can be several nanometers, that is, it looks like a bunch of molecules, which in its physical properties enhances the incoming signal.

Then, the electrical signal is routed through the transmitting electrodes to the mechanical node for changing the optical power of the eye. In the embodiment of the device according to claim 2, this leads to a displacement of the optical part of the lens and, consequently, to a change in the power of the optical system of the eye. In the embodiment of the device according to claim 3, this leads to a decrease in the angle between the optical and haptic parts of the IOL, which is also accompanied by a shift in the optical part of the lens. In the embodiment of the device according to paragraph 4 of the claims, this leads to a change in the distance between the front and rear optical element of the optical part of the IOL.

The movement of the optical elements leads to a change in the refractive power of the optical system of the eye, as a result of which the necessary volume of accommodation is provided, and, consequently, high visual acuity at the far, near and any of the intermediate distances.

The proposed invention is illustrated in FIG. 1-4.

In FIG. 1 shows a diagram of the electrical part of the device, FIG. 2 is a diagram of the electrical part of a device with an intraocular lens and a mechanical node for changing the optical power of the eye, made according to paragraph 2 of the claims, in FIG. 3 is a diagram of the electrical part of the device with an intraocular lens and a mechanical node for changing the optical power of the eye, made according to paragraph 3 of the claims, in FIG. 4 is a diagram of the electrical part of the device with an intraocular lens and a mechanical node for changing the optical power of the eye, made according to paragraph 4 of the claims.

The device contains a recording electrodes 1, an electric signal amplifier (transformer) 2, a power supply 3, transmitting electrodes 4, a mechanical unit for changing the optical power of the eye, according to claim 2, made in the form of a spring 5, according to claim 3, in the form of levers 6 and 7, interconnected by means of a spring 8 at the transition point 9 of the optical part of the IOL to the haptic part 11 of the IOL, according to claim 4, in the form of a spring 12 connecting the front 13 and rear 14 optical elements of the optical part of the IOL.

Before the operation, the electrical activity of the ciliary muscle (electromyography) is determined at its maximum load and during its relaxation. Depending on the initial state of the ciliary muscle, the percentage of amplification of the electrical signal is regulated (for example, by changing the number of turns in the amplifier coil). With a good condition of the ciliary muscle and its great power, the electrical signal must be amplified to a lesser extent than with the initial weakness of the ciliary muscle. In the distant period, in case of changes in the strength of the ciliary muscle due to age or any disease, it will be possible to adjust the percentage of amplification of the electrical signal.

The lens extraction operation is performed in a conventional manner. Then, in the usual way, the IOL is implanted in the capsule bag using tweezers or an injector. The electrical part is removed from the capsule bag through the capsulotomy opening, and the recording electrodes are placed in the ciliary groove so that they contact the fibers of the ciliary muscle. The operation is completed in the traditional way.

Using the proposed device for accommodation of the eye will provide an adequate amount of accommodation after phacoemulsification with IOL implantation, that is, high visual acuity at long, near and any of the intermediate distances.

Claims (4)

1. An intraocularly implantable device for accommodating the eye, containing an electrical part, a mechanical unit for changing the optical power of the eye and an intraocular lens, the electrical part having at least two recording electrodes, one ends of which are arranged to be placed in a ciliary groove between the fibers of the ciliary muscle for registration of contractions of the ciliary muscle, and the opposite ends of which are connected to the electric signal amplifier, a power supply connected in parallel to the amplifier e an electric signal, at least two transmitting electrodes, one ends of which are connected to an electric signal amplifier, and the opposite ends of which are connected to a mechanical unit for changing the optical power of the eye to transmit an electric signal to it from the recording electrodes, and the mechanical unit for changing the optical power of the eye is made with the ability to interact with the intraocular lens in response to an electrical signal from the transmitting electrodes to change the optical power of the eye, and the intraocular lens consists of optical and haptic parts. 2. The device according to claim 1, in which the mechanical node for changing the optical power of the eye contains a spring attached to the optical part of the intraocular lens with the ability to displace the optical part of the intraocular lens in the eye with a change in the optical power of the eye. 3. The device according to claim 1, in which the mechanical node for changing the optical power of the eye contains at least two levers, one of which is attached to the periphery of the optical part of the intraocular lens, and the second to its haptic part, while the levers are interconnected by means of a spring in the area of the connection of the optical part with the haptic part of the intraocular lens and are configured to bend the intraocular lens in the area of the connection of the optical and haptic parts and with the possibility of displacement of the optical part in the eye with a change in optical eskoy power of the eye. 4. The device according to claim 1, in which the mechanical node for changing the optical power of the eye contains at least one spring connecting two parallel optical elements of the optical part of the intraocular lens with the ability to move these optical elements relative to each other with a change in the optical power of the eye.

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